ONGC Petro Additions Ltd

Find the Right Material, Right When You Need It.

Other Allied Products

Polymers

Thermoplastic Microspheres

Polypropylene Random Copolymer

Polypropylene Impact Copolymer

Polypropylene Homopolymer

Polymers

Other Allied Products

High-Density Polyethylene

Ethylene Vinyl Acetate

DiCumyl Peroxide

Showing 1–20 of 44 results

Filters

Show 9 12 18 24

IOCL PPCP Propel 4080MA

Polypropylene Impact Copolymer

IOCL Propel 4080MA is a natural-coloured polypropylene (PP) impact block copolymer produced via advanced Spheripol II technology. This grade delivers medium flow (MFI 8) for easy processing, good impact strength balanced with stiffness, and reliable antistatic properties for clean, dust-resistant production. Propel 4080MA is specifically engineered for injection moulded furniture, industrial components, and paint pails—enabling durable, stackable, and visually appealing products for manufacturers and OEMs in Delhi/NCR and pan-India.

Specifications

Physical Properties

Melt Flow Index:0 g/10 min (230°C/2.16 kg)
Density:90 g/cm³

Mechanical Properties

Tensile Strength at Yield: 25 MPa
Elongation at Yield: 6%
Flexural Modulus: 1100 MPa
Notched Izod Impact (23°C): 150 J/m

Thermal Properties

Heat Deflection Temperature: 95°C (0.46 N/mm²)
Regulatory: IS 10910, IS 10909 (positive list)

Deep Technical Insights

Propel 4080MA’s Spheripol II morphology ensures consistent performance and reliable mechanicals batch after batch. The medium MFI supports the efficient moulding of medium-wall furniture, crates, and pails, while the antistatic agent reduces dust attraction and supports cleaner surfaces—crucial for painted or assembled parts. The grade’s balance of impact and stiffness means products withstand drops, stacking, and daily use without deformation or breakage.

Applications

Furniture

Propel 4080MA is ideal for injection-moulded chairs, tables, and storage units, delivering the toughness to resist drops and rough handling, while the modulus ensures structural integrity and comfort in use. Its antistatic property keeps surfaces clean during painting, assembly, and end-use.

Industrial Components

For crates, housings, and technical mouldings, the grade’s impact–stiffness balance ensures products can handle loading, stacking, and repeated handling in demanding environments.

Paint Pails

Propel 4080MA’s stiffness and impact properties make it suitable for stackable paint pails that must endure transport, handling, and chemical exposure. The antistatic agent helps maintain clean surfaces and reduces contamination risk.

Processing

Barrel temperature: 170–230°C
Mould temperature: Standard for PP copolymers
Processing tips: Medium flow supports multi-cavity tools and complex shapes; antistatic agent reduces static-related defects and supports demoulding
Cycle time: Optimized for productivity in furniture, industrial, and packaging moulding

IOCL PPCP Propel 4100MH

Polypropylene Impact Copolymer

IOCL PPCP Propel 5080MG

Polypropylene Impact Copolymer

IOCL Propel 5080MG is a heterophasic polypropylene impact copolymer (PPCP) produced via advanced Spheripol II technology. Engineered for injection moulding and compounding, 5080MG delivers super impact resistance at low temperatures, very high stiffness, and excellent processability. Its natural-coloured granules are ideal for automotive components, appliance housings, industrial parts, and as a base resin for tough automotive compounds. Indian-made and compliant with IS 10910, IS 10909, and FDA CFR Title 21,177.1520, Propel 5080MG is the go-to PPCP for OEMs and moulders demanding reliable, high-toughness performance.

Specifications

Physical Properties

Melt Flow Index (MFI):5 g/10 min (230°C/2.16 kg) – perfect for thin-wall injection moulding and compounding
Density:90 g/cm³ (23°C) – standard for PP impact copolymers

Mechanical Properties

Tensile Strength at Yield: 20 MPa – robust for automotive and appliance parts
Elongation at Yield: 10% – supports flexibility and shock absorption
Flexural Modulus: 900 MPa – high stiffness for structural integrity
Notched Izod Impact (23°C): >500 J/m – super impact resistance, even at low temperatures

Thermal Properties

Heat Deflection Temperature: 70°C (0.46 N/mm²) – suitable for automotive interiors and appliance housings
Vicat Softening Point: 140°C (10 N) – maintains dimensional stability under heat

Regulatory Compliance

IS 10910 (food/pharma/drinking water contact)
IS 10909 (positive list for additives)
FDA CFR Title 21,177.1520 (olefin polymers)

Applications

Automotive components

Propel 5080MG is engineered for automotive bumpers, interior trims, and underbody shields that demand super impact resistance, especially at low temperatures. Its high stiffness and consistent morphology from Spheripol II technology ensure reliable performance and safety in critical automotive parts.

Appliances

For appliance housings, covers, and internal structures, 5080MG combines processability and toughness. Its impact strength protects against drops and knocks, while stiffness maintains dimensional accuracy and premium feel.

Industrial parts & compounding

5080MG is an excellent base resin for compounding impact modifiers and filled PPCP grades. Its processability and mechanical profile make it ideal for industrial crates, bins, and custom technical compounds for automotive and appliance supply chains.

Processing

Barrel temperature: 170–210°C
Mould temperature: Standard for PP IC; adjust for cycle time and finish
Packaging: Supplied in 25 kg natural-coloured raffia bags
Processing tips: Medium flow enables thin-wall injection and fast cycles; Spheripol II morphology ensures uniformity and reduces warpage or short shots

Performance advantages

Super impact: Outperforms standard PPCP in drop and low-temperature resistance
High stiffness: Maintains shape and structural integrity in automotive and appliance applications
Consistent quality: Spheripol II technology delivers uniform mechanicals batch-to-batch
Regulatory breadth: Indian and global food/pharma/drinking water compliance
Versatile base: Supports compounding of technical, filled, or impact-modified grades

OPaL HDPE Opalene B48H03

High-Density Polyethylene

OPaL HDPE Opalene B48H03 (also searched as Opalene B48H03 / HDPE B48H03 / OPAL HD B48H03) is a high density polyethylene (HDPE) polyolefin grade from ONGC Petro additions Limited (OPaL). OPaL documents B48H03 as a natural-colored material produced using Mitsui CX slurry polymerization technology, intended for blow moulding and extrusion where toughness and stress-crack resistance are key selection criteria. This grade is positioned for high impact strength and excellent ESCR (environmental stress crack resistance). It is most commonly evaluated for small plastic fuel tanks, pesticide and surfactant packaging, and general-purpose extrusion applications where processors want strong melt strength, durable performance, and stable processing for thicker or more robust parts. Manufacturer: ONGC Petro additions Limited (OPaL) (India)

Technical insights

OPaL HDPE Opalene B48H03 is defined by an extremely low melt flow combined with strong ESCR and impact performance indicators. This points to a resin engineered for melt strength and durability, often preferred for thicker-walled blow-moulded parts and extrusion profiles.

MFI 0.03 g/10 min (190°C/2.16 kg, ASTM D1238): Very low melt flow typically indicates very high molecular weight and strong melt strength. In blow moulding, this can support parison stability and help maintain wall thickness; in extrusion, it can support robust, tough profiles.
Density 0.948 g/cm³ (23°C, ASTM D1505): Confirms HDPE class and supports rigid part structure and shape retention.
Tensile Strength at Yield 23 MPa (ASTM D638): Indicates good resistance to deformation under load for tanks/containers.
Elongation at Break >500% (ASTM D638): Suggests ductility and toughness under stress, supporting resistance to brittle failure.
Notched Izod Impact 250 J/m (23°C, ASTM D256A): A useful indicator for impact performance in handling and service.
Flexural Modulus 800 MPa (ASTM D790A) & Hardness 61 Shore D (ASTM D2240): Supports stiffness for shape retention while maintaining toughness.
ESCR >600 hours (ASTM D1693B, F50, 10% Igepal): A key differentiator for chemical-contact packaging and parts exposed to surfactants where stress cracking is a common failure mode.
Vicat 122°C (ASTM D1525) & HDT 75°C (ASTM D648): Helpful indicators for shape retention at elevated temperatures encountered in storage/transport (application-dependent).

Processing guidance: 160–200°C (recommended). Storage guidance: protect from direct sunlight/heat, store dry and dust-free, and keep storage temperature below 50°C.

Applications

Small plastic fuel tanks: Opalene B48H03 is documented for small fuel tanks where toughness and long-term integrity are critical. The very low MFI profile is typically evaluated where melt strength and robust part performance are prioritized over high-flow, thin-wall, fast-cycle packaging. Pesticide packaging: Agrochemical packs demand durability and resistance to cracking under stress and chemical exposure. With OPaL’s stated positioning on high impact and excellent ESCR, HDPE B48H03 is relevant for blow-moulded pesticide containers where leak prevention and service reliability matter. Surfactant packaging: Surfactants can increase stress-crack risk in plastics under load. B48H03’s ESCR-led profile makes it a practical candidate for surfactant-containing formulations and similar household/industrial liquids. General-purpose extrusion: OPaL also positions B48H03 for general extrusion applications. Processors typically evaluate it when they want a tough HDPE with strong melt strength for extruded products where durability and crack resistance are important.

Comparable alternatives

For SEO accuracy and buyer trust, describe alternatives as comparable OPaL HDPE blow-moulding grades, not direct substitutes, because equivalence is not confirmed without matching the full manufacturer TDS and validating in trials.

Opalene B55H03: Positioned for large containers and water tanks with strong impact and ESCR. Comparable by performance intent (toughness/ESCR), but it targets different article sizes and has different flow/density behavior.
Opalene B5004: Positioned for smaller bottles/containers with excellent ESCR and appearance. Comparable by process family (HDPE blow moulding), but it is not a confirmed replacement for B48H03.

How to choose: if your application is fuel tanks or thick-walled chemical-contact parts, B48H03’s very low MFI and ESCR positioning are central. If your application is small consumer bottles or very large tanks, another grade may fit better—confirm by matching TDS values and running production trials.

Common search variants

Also searched as: Opalene B48H03, Opalene HD B48H03, HDPE B48H03, Opal B48H03, B48 H03, B48H03 MFI 0.03, fuel tank HDPE grade, HDPE dana / granules.

OPaL HDPE Opalene B5004

High-Density Polyethylene

OPaL HDPE Opalene B5004 (also searched as Opalene B5004 / HDPE B5004 / OPAL HD B5004) is a high density polyethylene (HDPE) polyolefin blow-moulding grade from ONGC Petro additions Limited (OPaL). OPaL documents this grade under “HDPE Blow Molding” and states it is produced using Mitsui CX slurry polymerization technology. B5004 is positioned as a natural colored blow-moulding resin with good processing properties, excellent ESCR (environmental stress crack resistance), and good external appearance. In practical terms, that makes it a strong choice for small rigid containers and bottles (up to 5 L) where processors need stable moulding, clean aesthetics, and durability against stress crackingespecially in regulated or performance-sensitive packaging. Manufacturer: ONGC Petro additions Limited (OPaL) (India)

Technical insights

OPaL HDPE Opalene B5004 combines a low melt flow with a mid-to-high HDPE density, plus a standout ESCR valuea combination commonly evaluated for blow-moulded bottles that must resist cracking under chemical exposure and handling stress.

MFI 0.40 g/10 min (190°C/2.16 kg, ASTM D1238): Low melt flow typically supports melt strength and parison stability in blow moulding, helping maintain wall thickness and bottle consistency.
Density 0.950 g/cm³ (23°C, ASTM D1505): Indicates an HDPE designed for rigid container structure and shape retention.
Tensile Strength at Yield 24 MPa (ASTM D638): Signals good load-bearing performance for bottles that must hold shape during filling, capping, and stacking.
Elongation at Break >500% (ASTM D638): Suggests strong ductility before failure, supporting toughness in real-world handling.
Notched Izod Impact 140 J/m (ASTM D256A) / Charpy 8.5 kJ/m² (ISO 179-1): Useful indicators for impact performance in distribution and use.
Flexural Modulus 900 MPa (ASTM D790A) & Hardness 65 Shore D (ASTM D2240): Reinforces the grade’s rigid-packaging intent while balancing processability.
ESCR >500 hours (ASTM D1693B, F50, 10% Igepal): A key differentiator for packaging exposed to surfactants, agrochemicals, and household formulations where stress cracking risk is higher.
Vicat 121°C (ASTM D1525) & HDT 78°C (ASTM D648): Helpful for shape retention at elevated temperatures encountered in storage/transport (application-dependent).

Processing guidance: 160–200°C (recommended). Storage guidance: protect from direct sunlight/heat, store dry and dust-free, and keep storage temperature below 50°C.

Applications

Small rigid bottles and containers (up to 5 L): Opalene B5004 is designed for blow-moulded bottles where consistent appearance and reliable processing matter. It’s a fit for everyday rigid packaging formats that need good stiffness and durability without sacrificing moulding stability. Pesticide packaging: Agrochemical containers demand resistance to stress cracking and handling abuse. With OPaL’s stated positioning on excellent ESCR, HDPE B5004 is commonly evaluated for pesticide bottles where long-term integrity and leak resistance are critical. Surfactant and household chemical packaging: Surfactants can accelerate stress cracking in plastics under load. B5004’s ESCR-led profile makes it relevant for blow moulding bottles used for surfactant-containing formulations and similar household liquids. Shampoo and cosmetic bottles: For personal-care packaging, processors care about external appearance alongside performance. OPaL documents B5004 for shampoo and cosmetic bottles, aligning with applications where aesthetics, consistency, and toughness are all decision factors.

Comparable alternatives

When comparing Opalene B5004 to other HDPE blow-moulding grades, the most defensible approach is to treat B5004 as an ESCR- and appearance-positioned grade for small containers, then compare against manufacturer TDS values for the exact bottle design.

Opalene B6106: Another OPaL HDPE blow-moulding grade, but it is positioned for larger rigid containers (e.g., higher density/rigidity profile and different target sizes). It should be treated as a different fit rather than a direct substitute.
OPaL B6003: A comparable OPaL HDPE grade with documented compliance context, but equivalence to B5004 is not confirmed without matching the full TDS property set and intended application.

Selection tip for buyers: if your bottle is prone to stress cracking (surfactants/agrochemicals, high hoop stress, aggressive handling), prioritize ESCR performance and validate with trials. If your priority is maximum rigidity for larger packs, a different HDPE blow grade may be a better match.

Common search variants

Also searched as: Opalene B5004, Opalene HD B5004, HDPE B5004, Opal B5004, B 5004, OPAL HDPE B5004 granules, HDPE blow molding grade B5004, HDPE dana.

OPaL HDPE Opalene B55H03

High-Density Polyethylene

OPaL HDPE Opalene B55H03 (also searched as Opalene B55H03 / HDPE B55H03 / OPAL HD B55H03) is a high density polyethylene (HDPE) polyolefin blow-moulding grade from ONGC Petro additions Limited (OPaL). OPaL documents this grade as a natural-colored HDPE produced using Mitsui CX slurry polymerization technology. B55H03 is positioned for high impact strength, rigidity, low parison sag, and good ESCR (environmental stress crack resistance)—a performance set that matters most when you’re blow moulding large hollow parts where wall distribution, sag control, and long-term durability can make or break production yield. This grade is intended for large rigid containers (up to 100 L) used for chemicals, detergent, and lube oil, and for blow-moulded water tanks (up to 1000 L). If your application involves bigger articles, heavier handling, and longer service life, B55H03 is typically evaluated as a purpose-built large-part blow-moulding material rather than a general packaging HDPE. Manufacturer: ONGC Petro additions Limited (OPaL) (India)

Technical insights

OPaL HDPE Opalene B55H03 combines a very low melt flow at 5 kg load with strong impact and ESCR values—useful indicators for large blow-moulded parts that need melt strength, toughness, and crack resistance.

MFI 0.35 g/10 min (190°C/5.00 kg, ASTM D1238): A low MFI at this load generally signals higher molecular weight and melt strength, supporting parison stability and helping reduce sag in large-part blow moulding.
MFI 9.00 g/10 min (190°C/21.6 kg, ASTM D1238): The higher-load flow figure helps processors understand shear-thinning behavior and how the melt may respond under higher stress during processing.
Density 0.955 g/cm³ (23°C, ASTM D1505): Indicates an HDPE designed for rigidity and shape retention, important for large containers and tanks.
Tensile Strength 28 MPa at yield / 40 MPa at break (ASTM D638): Supports structural integrity for large-volume containers that face stacking, handling, and transport loads.
Elongation at Break >600% (ASTM D638): Suggests strong ductility and toughness before failure—useful for impact and abuse resistance.
Notched Izod Impact 500 J/m (23°C, ASTM D256A): A strong indicator for impact performance in large articles where drops and handling shocks are common.
Flexural Modulus 1000 MPa (ASTM D790A) & Hardness 64 Shore D (ASTM D2240): Reinforces the grade’s rigidity positioning for bigger blow-moulded parts.
ESCR >600 hours (ASTM D1693B, F50, 10% Igepal): A key evaluation metric for chemical/detergent containers where stress cracking is a real-world failure mode.
Vicat 129°C (ASTM D1525) & HDT 80°C (ASTM D648): Helpful for assessing shape retention at elevated temperatures encountered in storage, transport, and outdoor use (application-dependent).

Processing guidance: 180–220°C (recommended). Storage guidance: protect from direct sunlight/heat, store dry and dust-free, and keep storage temperature below 50°C.

Applications

Large chemical, detergent, and lube oil containers (up to 100 L): Opalene B55H03 is designed for large blow-moulded containers where impact strength, rigidity, and ESCR influence field performance. These packs often face rough handling and long-term liquid contact, so toughness and crack resistance become primary selection criteria. Blow-moulded water tanks (up to 1000 L): For large water tanks, processors typically prioritize parison stability (to control wall distribution), stiffness (to hold shape), and durability over time. OPaL positions B55H03 with low parison sag and high impact strength, aligning with the needs of large hollow articles.

Comparable alternatives

For SEO and buyer clarity, it’s safest to describe alternatives as comparable OPaL HDPE blow-moulding grades rather than claiming direct substitutes, because each grade differs in density, flow behavior, and intended container size.

Opalene B5004: Documented for smaller bottles/containers and positioned strongly on ESCR and appearance. It may be “comparable” by process family (HDPE blow moulding), but it targets different container sizes and performance priorities.
Opalene B6106: Documented for rigid blow-moulded packaging and mid-size containers; its typical density/rigidity profile and application positioning differ from B55H03.

How to choose: if your part is large (100 L to 1000 L) and you need sag control + impact + ESCR, B55H03 is positioned for that envelope. If your part is smaller and appearance-led (personal care) or general rigid packaging, other OPaL blow grades may be a better fit—confirm by matching manufacturer TDS values to your design and running trials.

Common search variants

Also searched as: Opalene B55H03, Opalene HD B55H03, HDPE B55H03, Opal B55H03, B 55H03, B55H03 MFI 0.35, water tank HDPE grade, HDPE dana / granules.

OPaL HDPE Opalene B6106

High-Density Polyethylene

OPaL HDPE Opalene B6106 (also referenced as HDPE B6106 / HD B6106) is a high density polyethylene (HDPE) polyolefin blow-moulding grade from ONGC Petro additions Limited (OPaL). It is produced using Mitsui CX slurry polymerization technology and is positioned for high rigidity, very good processing, and excellent mechanical properties—a combination that makes it a strong fit for rigid packaging where stiffness, toughness, and stable production matter. This grade is designed specifically for blow-moulded rigid containers, not as a broad “one resin for all HDPE applications” material. Buyers typically choose OPaL HDPE Opalene B6106 when they need consistent container performance across production runs, good mouldability at practical melt temperatures, and dependable mechanical strength for handling, stacking, and transport. Manufacturer: ONGC Petro additions Limited (OPaL) (India)

Technical insights

OPaL HDPE Opalene B6106 is characterized by a high density and low melt flow, which together signal a resin engineered for rigidity and robust container performance.

Melt Flow Index (MFI) 0.40 g/10 min (190°C/2.16 kg, ASTM D1238): A lower MFI generally indicates higher molecular weight, which is commonly associated with improved toughness and melt strength—useful for blow moulding where parison stability and wall-thickness control are important.
Density 0.964 g/cm³ (23°C, ASTM D1505): Higher density HDPE typically correlates with higher stiffness and improved barrier/rigidity characteristics, supporting rigid container applications.
Tensile Strength at Yield 32 MPa (ASTM D638): Indicates strong resistance to deformation under load—valuable for containers that must hold shape during filling, capping, and handling.
Elongation at Break >500% (ASTM D638): Suggests the material can stretch significantly before breaking, contributing to toughness in real-world handling and drop/impact scenarios.
Notched Izod Impact 350 J/m (23°C, ASTM D256A): Signals good impact resistance for everyday packaging abuse, especially in distribution.
Flexural Modulus 1300 MPa (ASTM D790A) & Hardness 68 Shore D (ASTM D2240): Reinforces the “rigid container” positioning—stiffer feel, better panel stability, and improved stack performance.
Vicat Softening Point 129°C (ASTM D1525) & HDT 80°C (ASTM D648): Helpful indicators for shape retention under elevated temperatures encountered in storage, transport, or warm filling environments (process-dependent).

Processing guidance: 160–200°C (recommended). Storage guidance: keep dry and dust-free, protect from direct sunlight/heat, and avoid storage temperatures above 50°C.

Applications

General-purpose rigid containers (up to 20 L): Opalene B6106 is suited for blow moulding of larger rigid containers where stiffness and dimensional stability are critical. It supports consistent container geometry and handling durability in industrial and general packaging. Lubricant oil containers (up to 15 L): For lubricant packaging, buyers often prioritize rigidity, toughness, and reliable processing. HDPE B6106 is positioned to deliver strong mechanical performance for containers that face handling stress, stacking, and transport vibration. Edible oil containers (up to 15 L): Opalene B6106 is used for blow-moulded edible oil packs where rigid structure and dependable production are key. Its density and modulus profile align with packaging that needs shape retention and robust performance. Food and milk packaging bottles: OPaL lists bottles for food and milk packaging as a target use case for this grade. Where application and regulatory requirements apply, users typically validate suitability against the relevant standards and their own packaging design and processing conditions.

Comparable alternatives

If you are evaluating alternatives to OPaL HDPE Opalene B6106, the most defensible comparisons are within OPaL’s own HDPE blow-moulding portfolio, because naming consistency and application intent are clearer than many reseller listings.

OPaL HDPE blow-moulding grades such as B5004: Often considered a close substitute category-wise (HDPE blow moulding), but direct equivalence to B6106 should not be assumed without matching the manufacturer TDS values (especially MFI/density and mechanical profile) to your container design targets.
OPaL B6003 (documented in a food-contact declaration): Relevant as another OPaL HDPE grade with compliance context, but it is a different grade and should be treated as a separate option rather than a confirmed replacement.

How to choose between “comparable” grades: match MFI (processability vs melt strength), density/modulus (rigidity), and impact/tensile (toughness and handling) to your container size, drop requirements, and production conditions. B6106 is positioned toward rigid blow-moulded packaging where stiffness and mechanical strength are primary decision drivers.

OPaL HDPE Opalene F5010

High-Density Polyethylene

OPaL HDPE Opalene F5010 (HDPE F5010) is a natural‑colored high‑density polyethylene (HDPE) film‑extrusion grade manufactured by ONGC Petro additions Limited (OPaL) under the Opalene (Opalene HD) product line. Produced using Mitsui CX slurry polymerization technology, F5010 is positioned for food‑contact and general‑purpose flexible packaging films, including liners and wrapping applications where processors want a clean balance of processing stability, stiffness, and clarity. As an HDPE film grade, F5010 is typically chosen when converters need films that feel crisper and stiffer than LLDPE, with strong barrier performance against moisture and good temperature resistance for everyday packaging use. The grade is widely referenced for packaging formats such as liners and wrapping films, where consistent extrusion, neat appearance, and dependable mechanical performance matter for both brand owners and industrial buyers. A key differentiator for F5010 is its explicit food‑contact compliance positioning. OPaL’s food‑contact declaration states that the grade meets IS 10146:1982 for safe use in contact with foodstuffs, pharmaceuticals, and drinking water, and that the grade and its additives conform to IS 10141:1982 (positive list of constituents). The same declaration also references compliance alignment with major global food‑contact frameworks (including FDA and EC‑type requirements), which is especially valuable for regulated packaging and pharma‑liner projects.

Technical insights

Converters and packaging buyers typically evaluate F5010 using a small set of film‑relevant properties that predict output stability, film feel, and end‑use durability:

Melt Flow Index (190°C/2.16 kg): 1.0 g/10 min indicates a film‑friendly flow level that supports stable extrusion through film dies and consistent gauge control. It’s a practical balance between processability and mechanical performance.
Density (23°C): 0.950 g/cm³ is characteristic of HDPE and is strongly linked to stiffness, tensile strength, and moisture‑barrier performance versus lower‑density polyethylenes.
Tensile strength at yield: 21 MPa and tensile strength at break: >30 MPa indicate good load‑bearing capability and resistance to tearing under stress, supporting packaging integrity during filling, handling, and transport.
Elongation at break: >500% signals useful ductility, helping films tolerate stretching and handling without brittle failure.
Notched Izod impact (23°C): >250 J/m supports toughness, reducing cracking risk in real‑world packaging abuse.
Flexural modulus: 900 MPa aligns with the “crisp” HDPE film feel and supports better bag/liner body and shape retention.
Hardness: 62 Shore D indicates a robust surface and contributes to durability in liner and wrapping use.
ESCR (ASTM D1693B, F50, 10% Igepal): 30 hours provides a stress‑crack resistance reference point relevant for certain packaged goods and handling conditions.
Vicat softening point: 123°C indicates temperature resistance that can be beneficial for packaging exposed to warmer environments.

Note: Values are stated as typical values (not specification limits), and mechanical properties are reported on compression‑moulded specimens. A commonly referenced processing temperature window for this grade is 180–220°C.

Applications

Food packaging films

F5010 is positioned as a food‑packaging HDPE film grade for converters producing films that require a clean appearance, good stiffness, and reliable performance in contact with food. It is relevant for packaging buyers who need documented compliance language (IS 10146/IS 10141 and FDA/EC‑type statements) to support internal QA and customer approvals.

General‑purpose packaging and wrapping

For general‑purpose packaging films and wrapping, F5010 is used when processors want an HDPE film that runs consistently and delivers a crisp, strong film structure. This makes it suitable for everyday packaging formats where strength, neatness, and stable extrusion matter more than extreme stretch.

Liners (industrial and consumer packaging)

F5010 is commonly referenced for liner film applications, where stiffness and durability help with easy handling and better bag/liner “body.” The HDPE density profile supports moisture‑barrier performance, which is often a key requirement for liners used in storage and transport.

Film structures requiring higher stiffness than LLDPE

Where LLDPE films may feel too soft or lack the desired stiffness, F5010 can be selected to deliver a more rigid film structure and improved water‑vapour barrier characteristics typical of HDPE. This is especially relevant for packaging lines targeting better machinability and pack presentation.

Comparable alternatives

Other HDPE film grades (F‑series / market equivalents): Comparable HDPE film‑extrusion grades exist in India with similar “packaging film” positioning. However, exact equivalence should only be claimed after matching manufacturer TDS values (MFI, density, tensile, impact, Vicat, ESCR) and confirming food‑contact declarations.
LLDPE film grades (material comparison): LLDPE is often chosen for higher toughness and stretch, but it typically delivers lower stiffness than HDPE. F5010 is positioned for converters who want stiffer, crisper films and stronger moisture‑barrier behavior associated with HDPE.
HDPE grades without explicit food‑contact declarations: Some listings may show similar processing properties, but F5010’s advantage is the clear, documented IS 10146/IS 10141 and FDA/EC‑type compliance statements, which can simplify approvals for food and pharma‑adjacent packaging.

Practical buying note: if your end‑use is regulated (food/pharma), prioritize grades with explicit declarations and align the final film performance to your structure, thickness, and processing conditions.

Common search variants

Also searched as: HDPE F5010, Opalene HD F5010, OPAL F5010 film grade, HDPE film granules, food grade HDPE dana, liner film HDPE resin. Common variants: F50 10, F5010 HD, Opal F5010, Opalene F5010 HD.

OPaL HDPE Opalene F52H04

High-Density Polyethylene

OPaL HDPE Opalene F52H04 (HDPE F52H04) is a natural‑colored high‑density polyethylene (HDPE) film‑extrusion grade manufactured by ONGC Petro additions Limited (OPaL) under the Opalene (Opalene HD) portfolio. Produced using Mitsui CX slurry polymerization technology, this grade is engineered for high‑speed blown‑film extrusion where converters need excellent mechanical strength, high stiffness, and strong processability on bag‑making lines. F52H04 is positioned as a carry‑bag / garment‑packaging / shopping‑bag HDPE film grade and is commonly selected for tissue‑like films and everyday bag applications that must feel crisp, hold shape, and resist draw‑down during conversion. As a low‑branching polyolefin, HDPE typically delivers higher tensile strength and modulus and a better water‑vapour barrier than many LLDPE alternatives—making it a practical choice for packaging formats where stiffness and barrier performance are prioritized. A major trust signal for regulated packaging is OPaL’s explicit compliance positioning. The technical and food‑contact documents state that F52H04 meets IS 10146:1982 for safe use in contact with foodstuffs, pharmaceuticals, and drinking water, and that the grade and additives conform to IS 10141:1982 (positive list of constituents). The official food‑contact declaration also references alignment with major international food‑contact frameworks (including FDA and EU‑type requirements), supporting buyers who need documentation for audits, approvals, and customer QA.

Technical insights

F52H04’s typical properties are evaluated by film processors to predict extrusion stability, bubble strength, bag stiffness, and long‑term durability:

Melt Flow Index (190°C/2.16 kg): 0.04 g/10 min is an ultra‑low flow level that typically correlates with high melt strength and high stiffness in the finished film. It can be ideal for strong carry‑bag films, but may require appropriate extruder torque and stable processing control.
Density (23°C): 0.952 g/cm³ supports higher rigidity and modulus, contributing to the crisp feel and shape retention expected in shopping and garment bags.
Tensile strength at yield: 27 MPa indicates strong resistance to deformation under load—important for carry bags that must hold weight without excessive stretching.
Elongation at break: >500% signals useful ductility, helping films tolerate handling and conversion stresses without brittle failure.
ESCR (ASTM D1693B, F50, 10% Igepal): >500 hours is a major durability indicator, supporting performance in humid or chemically aggressive environments and reducing stress‑crack risk over time.
Hardness: 64 Shore D aligns with a more rigid HDPE film feel and improved resistance to surface damage in handling.
Vicat softening point: 124°C indicates temperature resistance that can be helpful for storage, transport, and use in warmer conditions.

Note: These are typical values (not specification limits), and mechanical properties are reported on compression‑moulded type‑IV specimens. A commonly referenced processing range for HDPE film grades of this type is 180–220°C, with final settings dependent on line configuration and output targets.

Applications

Carry bags and shopping/counter bags

F52H04 is designed for carry‑bag and shopping‑bag film extrusion, where stiffness and draw resistance are critical for bag performance. The high‑stiffness HDPE profile helps bags hold shape, feel crisp, and carry loads with reduced sagging—making it suitable for retail, grocery, and merchandise packaging.

Garment packaging and tissue‑like films

For garment packaging and tissue‑like films, converters often prioritize consistent processing at high speed and a neat, premium film feel. F52H04’s low MFI and high stiffness positioning supports stable blown‑film production and strong finished‑film structure for everyday packaging use.

Garbage/disposal waste bags

In garbage and disposal waste bags, film toughness and resistance to cracking matter in real‑world handling. F52H04’s ESCR positioning helps improve durability, while the stiffness profile supports bag integrity and handling during filling and disposal.

General bag‑making lines needing high‑speed output

F52H04 is a fit for converters running high‑speed blown‑film extrusion and bag conversion, where output consistency, mechanical strength, and stiffness are key. It is commonly evaluated for projects that require documented compliance statements alongside performance.

Comparable alternatives

OPaL HDPE Opalene F5010 (HDPE film grade): A packaging‑film grade with a much higher MFI (1.0 g/10 min) than F52H04. That difference typically changes processing behavior and finished‑film stiffness; F5010 may be easier flowing, while F52H04 is positioned for high stiffness and high‑speed bag film.
Other OPaL/market HDPE bag film grades (e.g., F55H04 and similar): Comparable HDPE film grades exist for carry bags and packaging films, but direct grade equivalence should only be claimed after matching manufacturer TDS values (MFI, density, ESCR, tensile, Vicat) and verifying food‑contact declarations.
LLDPE bag grades (material comparison): LLDPE is often chosen for higher stretch and puncture toughness, but it generally delivers lower stiffness than HDPE. F52H04 is positioned for converters who want crisper, stiffer bags and HDPE‑type barrier performance.

Practical buying note: for bag applications, the biggest “selection lever” is often MFI + density, because it drives both processing behavior and film stiffness. Match these to your target thickness, load rating, and line capability.

Common search variants

Also searched as: HDPE F52H04, Opalene F52H04, OPAL HD F52H04, carry bag HDPE granules, shopping bag HDPE dana, HM HDPE film grade. Common variants: F52 H04, F52H04 0.04 MFI, Opal F52H04, F52H04 HDPE film.

OPaL HDPE Opalene P4002

High-Density Polyethylene

OPaL HDPE Opalene P4002 (also searched as Opalene P4002 / HDPE P4002 / OPAL HDPE P4002) is a high density polyethylene (HDPE) polyolefin pipe-extrusion grade from ONGC Petro additions Limited (OPaL). OPaL describes P4002 as a natural-colored HDPE produced using Mitsui CX slurry polymerization technology, positioned for very good processing properties, good mechanical properties, excellent stress crack resistance, and good external appearance. P4002 is designed for utility and agriculture pipe systems, specifically water pipes, pressure pipes for city gas distribution, and sprinkler and irrigation pipes. In market conversations, this grade is commonly positioned as a PE80 pipe grade; however, for strict technical wording, treat the PE80 designation as verified only when stated in the OPaL TDS / manufacturer documentation. Manufacturer: ONGC Petro additions Limited (OPaL) (India)

Technical insights

Pipe buyers and processors typically evaluate density/stiffness, tensile/ductility, impact toughness, thermal resistance, and oxidation stability. The following values are manufacturer-stated typical values (not specification limits) from the available TDS excerpt.

Density 0.950 g/cm³ (23°C, ASTM D1505): Supports stiffness and dimensional stability for extruded pipe applications.
Tensile strength at yield 20 MPa (ASTM D638): A baseline strength indicator relevant to pressure-pipe performance expectations.
Elongation at break >500% (ASTM D638): Indicates ductility, helping pipes tolerate deformation during installation and service without brittle failure.
Notched Izod impact >200 J/m (23°C, ASTM D256A): Indicates toughness for handling, transport, and field installation.
Flexural modulus 900 MPa (ASTM D790A): A stiffness indicator that can support pipe rigidity and resistance to deformation.
Heat deflection temperature 65°C (0.455 MPa, ASTM D648): A thermal performance indicator relevant to service conditions and dimensional stability.
OIT >30 minutes (ASTM D3895): Oxidative Induction Time indicates stabilization against oxidation; relevant for processing stability and long-term performance expectations.

Note: The full provisional TDS may include additional pipe-specific performance tests, processing window, and standards language. If you need those statements verbatim for publication, pull them directly from the PDF.

Applications

Water pipes: Opalene P4002 is designed for water pipe extrusion where processors need stable processing, reliable mechanical performance, and strong resistance to stress cracking. It fits buyers searching for “HDPE water pipe grade” and “pressure pipe HDPE resin” for utility networks. City gas distribution pressure pipes: OPaL positions P4002 for pressure pipes used in city gas distribution. In gas networks, material selection often prioritizes consistency, toughness, and crack resistance for long service life under sustained stress. Sprinkler and irrigation pipes: For agriculture and industrial irrigation systems, processors want a pipe resin that runs well on extrusion lines and delivers dependable toughness in the field. P4002 is designed for sprinkler and irrigation pipe applications, aligning with high-intent queries like “irrigation pipe HDPE grade” and “sprinkler pipe resin.”

Comparable alternatives

Comparable HDPE pipe grades are available in India, but direct equivalence to P4002 is not confirmed unless validated via a side-by-side manufacturer TDS comparison (same designation, intended use, and comparable performance profile).

OPaL pipe-grade basket (e.g., P5002 and other pipe grades): These may be considered depending on the target pipe standard and performance requirements, but they are not automatically interchangeable. Differences in stiffness/ductility balance, crack resistance, and any pipe-standard designation (PE class) can matter.
PE80-positioned grades in the market: Third-party sources may label P4002 as PE80; use that phrasing carefully and anchor the final claim to OPaL’s own documentation.
Generic HDPE (non-pipe) grades: Even if density looks similar, non-pipe grades may not be designed for pressure-pipe service or carry the same pipe-application intent. For pressure networks, prioritize pipe-grade documentation and compliance statements.

Common search variants

Also searched as: Opalene P4002, HDPE P4002, OPAL P4002 pipe grade, P4002 PE80, Opalene P 4002, P400 2 HDPE, HDPE pipe dana / polyethylene granules.

OPaL HDPE Opalene P4402

High-Density Polyethylene

OPaL HDPE Opalene P4402 (also searched as Opalene P4402 / HDPE P4402 / OPAL HD P4402) is a high density polyethylene (HDPE) polyolefin pipe-extrusion grade from ONGC Petro additions Limited (OPaL). OPaL’s pipe-grade documentation describes P4402 as a natural-colored HDPE produced using Mitsui CX slurry polymerization technology, positioned for very good processing properties, good mechanical properties, excellent stress crack resistance, and good external appearance. P4402 is designed for PE-63 pressure pipes used in drinking-water and irrigation networks, and also for steel pipe lining and ducting applications. This is important for SEO and buyer intent: P4402 should be presented as a pipe-extrusion grade (long-length extrusion performance and crack resistance focus), not as a general-purpose HDPE resin. Manufacturer: ONGC Petro additions Limited (OPaL) (India)

Technical insights

The following are manufacturer-stated typical values (not specification limits) from the pipe-extrusion TDS-style sheet. These are the kinds of checkpoints pipe processors and project buyers use to evaluate PE63 pipe materials.

MFI 0.25 g/10 min (190°C/2.16 kg, ASTM D1238): Low melt flow is typical for pipe extrusion and generally supports melt strength and wall integrity in pressure-pipe manufacturing.
Density 0.944 g/cm³ (23°C, ASTM D1505): Supports a balance of stiffness and toughness for PE63-class pipe applications.
Tensile strength at yield 20 MPa (ASTM D638): A baseline strength indicator relevant to pressure-pipe performance expectations.
Elongation at break >500% (ASTM D638): Indicates ductility, helping pipes tolerate deformation during installation and service.
Notched Izod impact >200 J/m (23°C, ASTM D256A): Indicates toughness for handling, transport, and field installation.
Flexural modulus 900 MPa (ASTM D790A): A stiffness indicator supporting pipe rigidity and resistance to deformation.
Hardness 60 Shore D (ASTM D2240): A general rigidity/surface hardness indicator.
ESCR >600 hours (ASTM D1693B, F50, 10% Igepal): Environmental stress crack resistance is a key durability indicator for long-life pipe systems.

Applications

PE63 drinking-water and irrigation pressure pipes: Opalene P4402 is designed for PE-63 pressure pipe extrusion where consistent processing and resistance to stress cracking support long service life. This aligns with high-intent searches like “PE63 HDPE pipe grade,” “drinking water pipe material,” and “irrigation pipe HDPE resin.” Steel pipe lining: P4402 is also positioned for steel pipe lining applications, where processors need stable extrusion behavior and a durable polymer layer to support internal protection and flow performance. Ducting and conduit applications: For ducting, processors typically prioritize consistent extrusion, toughness, and reliable performance in installation environments. P4402’s pipe-grade mechanical profile and ESCR positioning support this use case.

Comparable alternatives

Comparable OPaL HDPE pipe grades exist, but exact equivalence to P4402 is not confirmed unless validated via a side-by-side manufacturer TDS comparison (same PE class, intended use, and comparable performance profile).

Opalene P4002 (often positioned as PE80): Typically positioned for water pipes, city gas distribution pressure pipes, and sprinkler/irrigation pipes. It sits in a different pressure-pipe class than PE63, so it should not be treated as a direct substitute without standards and TDS alignment.
Opalene P50H03 / P51H10 (PE100 grades): These are higher-class pressure pipe grades with different long-term hydrostatic classification and performance context. They may be considered when the project specification calls for PE100, but they are not “equivalent” to PE63.
Other market-listed pipe grades: Reseller/marketplace pages can help discover availability, but substitution decisions should be made from manufacturer documentation (PE class + properties + compliance statements).

Selection tip: start with the required PE class (PE63) and intended application (drinking water, irrigation, lining, ducting), then validate with the manufacturer’s TDS rather than matching only one number like density or MFI.

Common search variants

Also searched as: Opalene P4402, HDPE P4402, OPAL P4402 pipe grade, P4402 PE63, P4402 MFI 0.25, Opalene P 4402, HDPE pipe dana / polyethylene granules.

OPaL HDPE Opalene P4402U

High-Density Polyethylene

OPaL HDPE Opalene P4402U is a natural‑colored, UV‑stabilized high‑density polyethylene (HDPE) pipe‑extrusion grade manufactured by ONGC Petro additions Limited (OPaL) under the Opalene (Opalene HD) product line. Produced using Mitsui CX slurry polymerization technology, this grade is positioned for PE63 pressure pipe applications where outdoor exposure and long‑term durability matter. P4402U is selected by pipe manufacturers and project buyers who need a practical balance of extrudability, mechanical strength, and excellent environmental stress crack resistance (ESCR)—with the key differentiator being UV stabilization using HALS additives. That UV package helps reduce the risk of embrittlement and property loss in installations that see sunlight during storage, transport, site handling, or partial above‑ground exposure. The manufacturer‑anchored regulatory positioning states that the HDPE Pipe grade P4402U shall meet IS 10146:1982 for safe use in contact with foodstuffs, pharmaceuticals, and drinking water, and that the grade and additives must conform to IS 10141:1982 (positive list of constituents). This makes P4402U a strong fit for drinking‑water and irrigation networks where compliance signaling and consistent performance are non‑negotiable.

Technical insights

P4402U’s typical properties are commonly evaluated by engineers to predict extrusion stability, pressure‑pipe performance, and long‑term reliability:

Melt Flow Index (190°C/2.16 kg): 0.25 g/10 min indicates a relatively low flow, supporting melt strength and stable pipe extrusion—helpful for maintaining dimensional control and wall uniformity.
Density (23°C): 0.944 g/cm³ signals an HDPE structure aligned with stiffness and strength requirements typical for PE63 service class pipe.
Tensile strength at yield: 25 MPa reflects the material’s ability to resist deformation under load—important for pressure‑pipe handling and installation stresses.
Elongation at break: >500% indicates good ductility, supporting toughness during bending, coiling (where applicable), and site handling.
Notched Izod impact (23°C): >200 J/m points to strong impact resistance, reducing cracking risk from knocks during transport and installation.
Flexural modulus: 900 MPa supports pipe stiffness and resistance to ovality under load.
Hardness: 60 Shore D aligns with a robust HDPE feel and abrasion tolerance expected in ducting and buried lines.
ESCR (ASTM D1693B, F50, 10% Igepal): >600 hours is a major trust signal for long‑term performance in contact with surfactants/chemicals and real‑world stress conditions.
Vicat softening point: 120°C and HDT (0.455 MPa): 65°C help indicate thermal behavior during processing and service.
Oxidative Induction Time (OIT): >30 minutes supports confidence in stabilization against oxidation—especially relevant for outdoor exposure and long service life.

Note: These are typical values (not specification limits), and mechanical properties are reported on compression‑moulded specimens.

Applications

Drinking‑water PE63 pressure pipes

Opalene P4402U is recommended for PE63 drinking‑water pressure pipes where buyers want a pipe material with strong ESCR and a UV‑stabilized package. It is a practical choice for municipal and rural water supply lines, distribution networks, and projects where compliance positioning (IS 10146/IS 10141) is important for approvals.

Irrigation and agricultural water networks

For irrigation pressure pipes and agricultural water distribution, P4402U supports dependable performance under outdoor handling and field conditions. The UV stabilization helps when pipes are stored in open yards or exposed during installation, while the toughness and ESCR support long‑term reliability.

Telecom/cable ducts and protective conduits

P4402U is widely positioned for telecom duct pipes and cable protection conduits, including buried ducting systems. The combination of stiffness, impact resistance, and ESCR helps reduce cracking risk, while UV stabilization adds resilience during above‑ground staging and site work.

Buried piping systems with sunlight exposure during handling

In many buried installations, the pipe may still see sunlight during storage, transport, or partial exposure. P4402U is designed for these real‑world conditions, where a UV‑stabilized PE63 HDPE grade can reduce premature ageing compared to non‑UV pipe grades.

Comparable alternatives

Opalene P4402 (non‑UV stabilized): Often comparable in base pipe‑grade positioning and may show similar density/MFI behavior, but it lacks HALS UV stabilization. If your pipes will see outdoor exposure (even temporarily), P4402U is typically the safer choice from a durability standpoint.
Other OPaL pipe grades (e.g., P4002): May be used in pipe/ducting contexts, but selection should be based on matching the project’s pressure class, stabilization needs, and the exact TDS values.
PE80/PE100 grades (industry comparison): These higher‑strength classes are used for higher pressure ratings and demanding networks. P4402U is positioned as PE63, so it is generally chosen for low‑ to medium‑pressure service and ducting where PE63 is specified.

Practical buying note: comparable PE63 UV‑stabilized HDPE pipe grades exist in the market, but direct grade‑for‑grade equivalence should only be claimed after matching manufacturer TDS data and approvals.

Common search variants

Also searched as: HDPE P4402U, Opal P4402U, Opalene HD P4402U, P4402U pipe grade, UV stabilized HDPE dana, PE63 HDPE pipe granules. Common variants: P4402 U, Opalene P4402 U, P4402u.

OPaL HDPE Opalene P50H03

High-Density Polyethylene

OPaL HDPE Opalene P50H03 (also searched as Opalene P50H03 / HDPE P50H03 / OPAL HD P50H03) is a high density polyethylene (HDPE) polyolefin pipe-extrusion grade from ONGC Petro additions Limited (OPaL). OPaL documents this grade as a natural-colored HDPE produced using Mitsui CX slurry polymerization technology, engineered specifically for pipe extrusion. What makes P50H03 different from generic HDPE granules is that it is designated PE100 (per ISO 12162) with an MRS classification of 10 MPa (per ISO 9080). That designation matters to pipe manufacturers and project buyers because it ties the resin to long-term hydrostatic performance expectations used in pressure-pipe design. OPaL positions P50H03 for very good processing properties, high creep resistance, excellent stress crack resistance, and excellent mechanical properties—a combination aligned with high-pressure pipe applications, potable water transportation pipes, and larger-diameter drainage/sewerage pipes where durability and service life are critical. Manufacturer: ONGC Petro additions Limited (OPaL) (India)

Technical insights

For pipe-grade HDPE, buyers typically evaluate flow behavior, density/stiffness, crack resistance, oxidation stability, and pipe-specific performance tests. The following are manufacturer-stated typical values and related pipe performance figures.

PE100 designation (ISO 12162) & MRS 10 MPa (ISO 9080): These classifications support pressure-pipe design confidence and indicate the resin’s long-term strength category for hydrostatic applications.
MFI 0.27 g/10 min (190°C/5.0 kg, ASTM D1238): Low melt flow is common in pipe grades, balancing processability with mechanical integrity. It can support strong melt strength and robust pipe performance.
Density 0.950 g/cm³ (23°C, ASTM D1505): A pipe-grade HDPE density level that supports stiffness and dimensional stability in extruded pipes.
ESCR >1000 hours (ASTM D1693B, F50, 10% Igepal): A key indicator for resistance to slow crack growth and stress cracking—critical for pressure pipes and long service life.
Elongation at Break >800% (ASTM D638): Indicates strong ductility, helping pipes tolerate deformation and installation stresses without brittle failure.
Notched Izod Impact >250 J/m (23°C, ASTM D256A): Useful indicator for impact performance during handling, transport, and installation.
OIT >30 minutes (ASTM D3895): Oxidative Induction Time is a stability indicator tied to antioxidant protection; relevant for processing stability and long-term performance expectations.
SCG (ISO 13479, notch pipe test at 80°C, 9.2 bar) >500 hours: A pipe-specific slow crack growth performance figure that supports durability in demanding service conditions.
RCP-S4 (ISO 13477) critical pressure at 0°C ≥10 bar: A pipe-specific rapid crack propagation indicator, relevant for safety margins in certain operating environments.

Processing guidance: 180–220°C (recommended). Storage guidance: protect from direct sunlight/heat, store dry and dust-free, and keep storage temperature below 50°C.

Applications

PE100 high-pressure pipe applications: Opalene P50H03 is designed for PE100 pressure pipes where long-term hydrostatic strength, creep resistance, and stress crack resistance are essential. Pipe manufacturers typically evaluate this grade for projects requiring dependable performance under sustained internal pressure. Potable water transportation pipes: P50H03 is positioned for potable-water pipe extrusion, where consistent mechanical performance and standards-backed material selection are important for regulatory confidence and long service life. Buyers often search for “PE100 HDPE grade” and “potable water pipe material,” and P50H03 aligns with that intent. Larger drainage and sewerage pipes: For higher-diameter drainage/sewerage pipes, processors prioritize stiffness, toughness, and crack resistance during installation and service. P50H03’s pipe-grade balance of density, impact performance, and ESCR supports these requirements.

Comparable alternatives

When comparing OPaL HDPE Opalene P50H03, the most defensible comparison is to other PE100 pipe grades where the manufacturer explicitly documents the same PE100/MRS positioning and provides comparable pipe-performance data.

Other OPaL P-series pipe grades: These may be comparable by application (pipe extrusion), but equivalence is not confirmed unless the manufacturer documents matching PE100 designation, MRS, and a similar crack-growth/oxidation stability profile.
Generic HDPE grades (non-pipe grades): Even if density or MFI looks similar, non-pipe HDPE typically lacks PE100/MRS and pipe-test context. For pressure-pipe projects, the PE100 designation and pipe-specific performance indicators are the key differentiators.

Selection tip: if your requirement is pressure pipe / potable water, prioritize PE100 + MRS and crack-growth indicators (ESCR/SCG/RCP) rather than relying on general mechanical properties alone.

Common search variants

Also searched as: Opalene P50H03, HDPE P50H03, OPAL PE100 HDPE, PE100 pipe grade, P50 H03, P50H03 MFI 0.27, HDPE pipe dana / granules.

OPaL HDPE Opalene P51H10

High-Density Polyethylene

OPaL HDPE Opalene P51H10 (also searched as Opalene P51H10 / HDPE P51H10 / OPAL HDPE P51H10) is a high density polyethylene (HDPE) polyolefin grade from ONGC Petro additions Limited (OPaL), engineered for pipe extrusion. OPaL describes it as a natural-colored HDPE produced using Mitsui CX slurry polymerization technology, designed to deliver very good processing properties, good mechanical properties, excellent stress crack resistance, and good creep resistance. For buyers evaluating pressure-pipe resins, P51H10’s key differentiator is that OPaL identifies it as a PE100 grade (ISO 12162) with a Minimum Required Strength (MRS) classification of 10 MPa (ISO 9080). That standards-backed positioning is why this grade is selected for drinking-water pressure pipes, irrigation pipes, and other pipe systems where long-term performance and regulatory confidence matter. OPaL positions P51H10 for a broad pipe basket: pressure pipes for drinking water and irrigation, pipes for civil engineering and drainage, and corrugated tubes and pipes, including large-diameter irrigation pipes. Manufacturer: ONGC Petro additions Limited (OPaL) (India)

Technical insights

The following are manufacturer-stated typical values and pipe-performance figures used by processors and project buyers to evaluate PE100 pipe resins.

PE100 designation (ISO 12162) & MRS 10 MPa (ISO 9080): These classifications support pressure-pipe design confidence and indicate the resin’s long-term strength category for hydrostatic applications.
MFI 0.45 g/10 min (190°C/5.0 kg, ASTM D1238): A low melt flow typical for pipe extrusion, supporting melt strength and robust mechanical performance while maintaining workable processing behavior.
Density 0.951 g/cm³ (23°C, ASTM D1505): Supports stiffness and dimensional stability in extruded pipes—important for handling, installation, and service performance.
ESCR >600 hours (ASTM D1693B, F50, 10% Igepal): Environmental stress crack resistance is a key durability indicator for pipe systems exposed to long-term stress and challenging environments.
Tensile strength at yield 23 MPa (ASTM D638): A baseline strength indicator relevant to load-bearing performance in pipe applications.
Elongation at break >700% (ASTM D638): Indicates ductility, helping pipes tolerate deformation and installation stresses without brittle failure.
Notched Izod impact >200 J/m (23°C, ASTM D256A): Supports toughness during transport, handling, and installation.
OIT >30 minutes (ASTM D3895): Oxidative Induction Time indicates stabilization against oxidation; relevant for processing stability and long-term performance expectations.
SCG 430 hours (ISO 13479, notch pipe test at 80°C, 8.0 bar): Pipe-specific slow crack growth performance data used to assess durability under sustained stress.
RCP-S4 critical pressure at 0°C ≥10 bar (ISO 13477): Rapid crack propagation indicator relevant to safety margins in certain operating conditions.

Processing guidance: 180–220°C (recommended). Storage guidance: keep away from direct sunlight/heat, store dry and dust-free, and keep storage temperature below 50°C.

Applications

Potable-water pressure pipes (PE100): Opalene P51H10 is designed for drinking-water pressure pipe extrusion where long-term hydrostatic strength and crack resistance are critical. Buyers typically shortlist PE100 HDPE grades like P51H10 when projects require standards-backed material selection and consistent performance. Irrigation pipes and large-diameter irrigation lines: For agricultural and industrial irrigation networks, processors need a balance of processability and durability. P51H10 is positioned for irrigation pipes, including large-diameter applications, where toughness and resistance to slow crack growth support long service life. Civil engineering and drainage pipes: Civil and drainage pipe systems often prioritize stiffness, toughness, and resistance to cracking during installation and service. P51H10’s pipe-grade density and crack-resistance indicators support these requirements in practical field conditions. Corrugated tubes and corrugated pipes: Corrugated pipe applications demand consistent extrusion behavior and durability. P51H10 is positioned for corrugated tubes and pipes, making it relevant for processors seeking a PE100-class pipe resin for structured-wall pipe formats.

Comparable alternatives

The safest comparison set for OPaL HDPE Opalene P51H10 is other manufacturer-documented PE100 pipe grades available in India. Direct equivalence should only be claimed after a side-by-side review of the manufacturer technical data sheets.

Opalene P50H03 vs P51H10 (both PE100): Both are positioned as PE100 with MRS 10 MPa, but they differ in typical flow and crack-resistance indicators. P51H10 shows MFI 0.45 and ESCR >600 h, while P50H03 is documented with lower MFI (0.27) and higher ESCR (>1000 h) in the provided dataset. Selection typically depends on the processor’s extrusion setup, pipe dimensions, and the specific performance emphasis required.
Other PE100 pipe grades in India: Comparable PE100 grades exist across suppliers, but “substitute grade” claims are not confirmed without matching PE100/MRS documentation and comparable SCG/RCP and ESCR/OIT context.
Generic HDPE (non-pipe) grades: Even if density/MFI appear close, non-pipe grades may not provide PE100/MRS and pipe-test context. For pressure-pipe and potable-water projects, PE100 positioning and pipe-performance indicators are the differentiators.

Common search variants

Also searched as: Opalene P51H10, HDPE P51H10, Opalene HD P51H10 granules, PE100 HDPE grade OPAL, P51 H10, P51H10 MFI 0.45, HDPE pipe dana / polyethylene granules.

OPaL HDPE Opalene R5106

High-Density Polyethylene

OPaL HDPE Opalene R5106 is a natural‑colored high density polyethylene (HDPE) monofilament/raffia grade from ONGC Petro additions Limited (OPaL), produced using Mitsui CX slurry polymerization technology. It is engineered for extruded‑tape and monofilament extrusion lines where converters need high tensile strength, stable processing, and consistent stiffness for technical netting products. Unlike general‑purpose HDPE film or blow‑moulding grades, R5106 is positioned specifically for geo‑grids, extruded nets, and related high‑tenacity tape and netting structures. Its typical property balance (low‑to‑medium melt flow with HDPE density) supports drawability and strength development in tapes/monofilaments—key for erosion control grids, soil reinforcement meshes, and industrial netting where dimensional stability matters. OPaL’s TDS‑type sheet also includes explicit compliance statements that the grade shall meet IS 10146:1982 and IS 10141:1982 requirements (as stated in the datasheet), and references FDA 21 CFR 177.1520 for olefin polymers.

Technical insights

R5106 is often shortlisted by engineers and procurement teams based on a few “make‑or‑break” datasheet signals that correlate strongly with tape/monofilament performance and line stability. Melt Flow Index (MFI) - : Typical MFI is 0.60 g/10 min (190°C/2.16 kg). In monofilament/raffia extrusion, this melt flow range is commonly associated with good melt strength and stable extrusion through narrow dies, while still allowing efficient drawing/orientation to build tenacity in tapes and filaments. Density : Typical density is 0.951 g/cm³. For geo‑grid and extruded‑net products, higher HDPE density generally supports stiffness, better load‑bearing structure, and reduced deformation under stress compared with lower‑density polyethylenes. Tensile strength : Typical tensile strength at yield is 30 MPa, with tensile strength at break >16 MPa and elongation at break >500%. This combination points to a material that can resist load while still offering ductility—useful when grids/nets face handling, installation, and service stresses. Impact strength : Typical notched Izod impact >250 J/m (23°C) indicates good toughness, helping reduce breakage risk during conversion and in end‑use where netting can see knocks, bending, or localized stress. Flexural modulus : Typical flexural modulus is 850 MPa, supporting the “rigid enough to hold shape” requirement for grid‑type products and technical netting where sagging or deformation is undesirable. ESCR : Typical ESCR (F50, 10% Igepal, ASTM D1693B) is 120 hours. This is a relevant screening metric for applications exposed to stress plus chemicals/moisture, such as buried or outdoor geo‑synthetic structures. Vicat softening point : Typical Vicat softening point (10 N) is 124°C, supporting performance in warm environments and helping maintain stiffness at elevated service temperatures. Processing guidance : The recommended processing temperature range is 190–230°C (per the referenced TDS‑style sources), aligning with common HDPE monofilament/raffia extrusion practice.

Applications

Geo‑grids for soil reinforcement and erosion control

Opalene R5106 is recommended for geo‑grid structures where high tensile strength and stiffness are needed to reinforce soil, stabilize slopes, and improve load distribution. Converters typically choose an HDPE monofilament/raffia grade like R5106 to support orientation/drawing and to maintain grid geometry under mechanical load.

Extruded nets for industrial and technical uses

For extruded nets, R5106 is used where consistent extrusion, toughness, and dimensional stability matter—especially when nets are used as technical meshes, protective netting, or structural net layers. The balance of impact strength and flexural modulus supports both handling durability and shape retention.

High‑tenacity tapes and monofilaments for netting‑type converted products

R5106 is also suited for high‑tenacity tape and monofilament production feeding downstream netting and grid products. Its MFI and HDPE density profile is aligned with converters seeking stable throughput and strength development during stretching/orientation.

Comparable alternatives (positioning without claiming equivalence)

Comparable HDPE raffia/monofilament grades exist in India, including OPaL’s own R5410 and R5504, and similar “raffia/monofilament” grades from other producers. However, direct equivalence should not be assumed unless you match manufacturer datasheets side‑by‑side. As positioned in the provided references, R5106 is specifically promoted for geo‑grids and extruded nets, which typically pushes buyers to prioritize tensile performance, stiffness (density/modulus), and stable extrusion through fine dies. If another grade has a meaningfully different MFI or density, it may shift performance toward woven sacks/tarpaulin raffia, general tapes, or different draw ratios—so substitution should be validated with trials and converter process settings.

Common search variants

Also searched as: Opal HDPE R5106, HDPE R5106 raffia, HDPE monofilament grade R5106, R5106 0.60 MFI, Opalene R5106 HD, HDPE dana R5106.

OPaL HDPE Opalene R5504

High-Density Polyethylene

OPaL HDPE Opalene R5504 (HDPE R5504) is a natural‑colored high‑density polyethylene (HDPE) grade manufactured by ONGC Petro additions Limited (OPaL) under the Opalene (Opalene HD) range. Produced using Mitsui CX slurry polymerization technology, R5504 is positioned specifically for raffia (tape) and monofilament extrusion, where converters need stable output on high‑speed lines and strong mechanical performance in the finished woven or netted product. R5504 is not a film, pipe, or blow‑moulding grade. It is engineered for extruded tape and monofilament used in woven and technical products such as fishing nets, ropes, insect/mosquito nets, packing straps, woven sacks, and tarpaulin fabrics. The grade is valued for good mechanical properties, low water carry‑over, and excellent processability, helping producers maintain consistent tape draw and monofilament quality while targeting stiffness and strength in end use. For buyers who need compliance language for regulated or sensitive applications, the manufacturer‑style documentation states that the grade shall meet IS 10146:1982 for safe use in contact with foodstuffs, pharmaceuticals, and drinking water, that the grade and additives shall meet IS 10141:1982 (positive list of constituents), and that it complies with FDA 21 CFR 177.1520 (olefin polymers). As always, final suitability depends on the finished article design and the converter’s process/additive package.

Technical insights

R5504’s typical properties are commonly used by raffia and monofilament processors to estimate extrusion stability, tape/filament draw behaviour, stiffness, and durability:

Melt Flow Index (190°C/2.16 kg): 0.40 g/10 min indicates a relatively low flow level suited to tape and monofilament extrusion, supporting melt strength and stable draw‑down on high‑speed lines.
Density (23°C): 0.955 g/cm³ is a high HDPE density that typically correlates with higher stiffness and tensile performance, supporting woven‑sack and strap structure.
Tensile strength at yield: 26 MPa reflects strong resistance to deformation, supporting load‑bearing products like straps, ropes, and woven sacks.
Elongation at break: >500% indicates useful ductility, helping tapes/filaments tolerate stretching and conversion stresses without brittle failure.
Charpy impact (ISO 179‑1): 12 kJ/m² and Notched Izod impact: >250 J/m support toughness for products exposed to repeated handling and abrasion.
Flexural modulus: 850 MPa and Hardness: 64 Shore D align with the stiff, “hard” HDPE feel preferred in many woven and strap applications.
ESCR (ASTM D1693B, F50, 10% Igepal): 150 hours provides a stress‑crack resistance reference point; it’s suitable for many woven/raffia uses, while clearly not positioned as a high‑ESCR pipe grade.
Vicat softening point: 124°C indicates thermal resistance relevant to processing and service conditions.

Note: Values are typical values (not specification limits), and mechanical properties are reported on compression‑moulded type‑IV specimens. A commonly referenced processing temperature for this grade is 200–240°C, depending on line design and output.

Applications

Fishing nets and marine netting

R5504 is recommended for fishing nets and related netting products where converters need strong monofilaments with good toughness and abrasion resistance. The HDPE stiffness profile supports net structure, while mechanical strength helps maintain performance under load and repeated use.

Ropes and technical cords

For ropes and extruded‑tape cords, R5504 is selected when producers want consistent extrusion and a robust HDPE structure that can handle pulling forces and outdoor handling. The grade’s stiffness and tensile behaviour support dimensional stability in rope constructions.

Insect/mosquito nets and mesh products

In insect and mosquito nets, processors often look for stable monofilament quality and long‑life performance. R5504’s toughness and stiffness positioning supports mesh integrity, while HDPE’s typical chemical resistance can be beneficial in real‑world environments.

Packing straps and strapping tapes

R5504 is well‑suited for packing straps and strapping tapes where stiffness and tensile strength help straps hold tension and resist deformation. Its processing profile supports high‑speed tape extrusion and consistent draw for reliable strap performance.

Woven sacks and tarpaulin fabrics

For woven sacks (e.g., fertilizer sacks) and tarpaulin‑type woven fabrics, R5504 supports stable tape extrusion and good mechanical strength in the woven structure. The high‑density HDPE profile helps deliver the stiffness and “body” expected in woven packaging.

Comparable alternatives

Other OPaL raffia/monofilament grades (e.g., R5410): These may be used for similar woven and tape applications, but direct equivalence should only be claimed after matching manufacturer TDS values (MFI, density, tensile, impact, ESCR, Vicat) and confirming any compliance declarations.
Market HDPE raffia grades from other Indian producers: Comparable raffia and monofilament HDPE grades exist for woven sacks, straps, and nets. Selection should be based on the converter’s line capability, target denier/tape width, and the required stiffness‑toughness balance.
Film or general‑purpose HDPE/LLDPE (material comparison): Film grades and many LLDPE grades are not designed for tape/monofilament draw behaviour. R5504 is positioned specifically for raffia and monofilament extrusion, which is why its property profile and processing guidance differ.

Practical buying note: for raffia/monofilament, the most important “fit” checks are typically MFI + density + tensile/impact, because they drive draw stability, stiffness, and end‑product strength.

Common search variants

Also searched as: HDPE R5504, Opalene R5504, OPAL HD R5504, HDPE raffia granules, HDPE monofilament resin, woven sack HDPE grade. Common variants: R 5504, R5504 MFI 0.40, Opal R5504, R5504 raffia grade.

OPaL HDPE Opalene Y5808

High-Density Polyethylene

OPaL HDPE Opalene Y5808 is a natural‑colored high density polyethylene (HDPE) raffia grade from ONGC Petro additions Limited (OPaL), produced using Mitsui CX slurry polymerization technology. It is designed for raffia extrusion and weaving operations that convert resin into stretched tapes and then into woven fabrics—especially woven sacks and tarpaulin‑type sheets used in industrial and agricultural bulk packaging. OPaL positions Y5808 around two outcomes that matter most to sack and tarpaulin converters: high tear strength and excellent processability on high‑speed tape lines. In practical terms, that means stable tape extrusion, good drawability for orientation, and a stiffness/strength balance that helps woven‑sack walls resist tearing, puncture, and abrasion during filling, handling, transport, and storage. The referenced TDS‑style documentation also includes explicit “food‑contact‑type” compliance statements, citing IS 10146:1982 and IS 10141:1982 (as stated in the sheet) and referencing FDA 21 CFR 177.1520 for olefin polymers—useful for buyers who require documented regulatory positioning for packaging‑adjacent applications.

Technical insights (what buyers evaluate and what it indicates)

Y5808 is typically evaluated by engineers through a small set of datasheet properties that correlate strongly with tape quality, weaving performance, and end‑use durability. Melt Flow Index (MFI): Typical MFI is 0.80 g/10 min (190°C/2.16 kg). For raffia and stretchedtape extrusion, this melt flow range is commonly associated with smooth extrusion, good tape formation, and efficient processing on highspeed lines—while still supporting orientation during stretching. Density: Typical density is 0.958 g/cm³. Higher HDPE density generally supports higher stiffness and stronger woven structures, which can translate into better abrasion resistance and improved sack “body” (shape retention) compared with lowerdensity alternatives. Tensile strength: Typical tensile strength at yield is 25 MPa, and tensile strength at break is 38 MPa. In woven sacks and tarpaulin fabrics, tensile performance is a key indicator for load‑bearing capability and resistance to tearing under tension during handling and stacking. Elongation: Typical elongation at break is 10% (per the referenced test condition). Lower elongation values can align with a stiffer, more dimensionally stable tape/fabric behavior—often preferred in woven sacks where excessive stretch can reduce stack stability. Impact strength: Typical notched Izod impact strength is 400 J/m (23°C), supporting toughness in applications where sacks and tarpaulins face drops, knocks, and repeated handling. Flexural modulus: Typical flexural modulus is 1200 MPa, indicating a relatively stiff HDPE profile. This is relevant for woven sacks and tarpaulin where converters often want a stronger, more rigid woven fabric that resists deformation. ESCR: Typical ESCR (F50, 10% Igepal, ASTM D1693B) is 90 hours. This is a useful comparative metric for stress‑cracking resistance, but Y5808 is positioned primarily for woven‑sack/tarpaulin conversion rather than long‑term pressure‑pipe or aggressive chemical containment. Vicat softening point: Typical Vicat softening point (10 N) is 122°C, supporting performance in warm storage/transport environments and helping maintain stiffness under moderate heat exposure. Processing guidance: The recommended processing temperature range is 200–240°C (per the referenced TDS‑style sheet), consistent with common HDPE raffia processing windows.

Applications

Woven sacks for fertilizer, food grains, cement, and industrial chemicals

Y5808 is recommended for woven‑sack production where converters need high tear strength and robust woven fabric performance. It is commonly positioned for bulk packaging sacks used in demanding supply chains—where abrasion, puncture risk, and rough handling can cause failures in lower‑strength fabrics.

Tarpaulin fabrics for industrial and agricultural covering

For tarpaulin‑type woven fabrics, Y5808 supports the stiffness and strength profile that helps tarps hold shape, resist tearing, and tolerate repeated folding/unfolding. Converters typically value stable tape extrusion and consistent weaving behavior to maintain uniform fabric quality.

Stretched tapes for downstream woven fabric conversion

Y5808 is also used directly for stretched‑tape production feeding weaving lines. Its MFI and stiffness profile are aligned with high‑speed raffia extrusion where tape consistency and draw stability influence loom efficiency and final fabric strength.

Comparable alternatives (positioning without claiming equivalence)

Comparable HDPE raffia grades are available in India, including OPaL’s own raffia portfolio (for example, grades positioned for different raffia end uses) and similar “raffia” grades from other producers. However, direct equivalence to Y5808 should not be assumed unless you match manufacturer datasheets and validate on your line. As positioned in the provided references, Y5808 is tuned for woven sacks and tarpaulin, which typically prioritizes a stiffness/strength profile (density and flexural modulus) plus tape processability. If an alternative grade differs meaningfully in MFI (flow), density (stiffness), ESCR (stress cracking), or tensile/impact balance, it may shift performance toward other raffia products (e.g., different tape draw ratios, different fabric “hand feel,” or different tear/abrasion behavior). For substitution decisions, the most practical comparison is to shortlist alternatives with similar MFI ~0.8 and similarly high density/modulus, then confirm tape quality, draw stability, and fabric tear performance through trials.

Common search variants

Also searched as: Opalene Y5808, Opal HDPE Y5808, HDPE Y5808 raffia, Y5808 0.80 MFI, HDPE woven sack grade, HDPE raffia dana. Common misspellings/variants: Opal Y5808, Y 5808, Opalene‑HD Y5808, Y5808 HD.

OPaL PP Opalene EH03N

Polypropylene Homopolymer

OPaL PP Opalene EH03N is a polypropylene homopolymer thermoforming grade manufactured by ONGC Petro additions Limited under the OPaLene PP portfolio. Produced using Ineos Gas Phase polymerization technology, EH03N is a nucleated, high-stiffness grade developed for thermoformed cups and containers, rigid food containers, trays and selected general-purpose injection moulding applications. EH03N is especially relevant for rigid packaging converters that need a PP homo grade with good optical properties, dimensional stability and reliable forming performance. Its positioning makes it suitable for businesses manufacturing dairy cups, food-service containers, trays, lids and other rigid packaging formats where appearance, stiffness and process consistency directly affect output quality.

Manufacturer Snapshot

ONGC Petro additions Limited is a major Indian petrochemical producer based at Dahej, Gujarat, with a large integrated polymer and petrochemical complex. EH03N sits within the OPaLene PP range as a documented manufacturer-backed grade, which is important for buyers looking for verified technical positioning, food-contact declarations and dependable sourcing confidence rather than thin distributor-only listings.

Technical Insights and Product Performance

OPaL PP Opalene EH03N has a melt flow index of 3.0 g/10 min at 230°C/2.16 kg, which places it in a balanced processing range for thermoforming and rigid packaging applications where shape retention and sheet performance matter more than very high flow. Its density of 0.90 g/cm³ is consistent with polypropylene homopolymer grades used in rigid food packaging and thermoformed structures. From a mechanical perspective, EH03N delivers tensile strength at yield of 35 MPa and elongation at yield of 10%, giving processors a useful balance between rigidity and workable forming behavior. A flexural modulus of 1500 MPa supports the high-stiffness profile required for cups, trays and containers that need to hold shape during filling, stacking and transport. The grade also offers notched Izod impact strength of 40 J/m, Rockwell hardness of 95 on the R scale, Vicat softening point of 150°C and heat deflection temperature of 100°C. These values reinforce its suitability for rigid thermoformed packaging where dimensional stability, surface quality and practical heat resistance are important. Its nucleated structure further supports stiffness development and improved visual appearance in finished parts.

Applications

Thermoformed Cups and Containers

EH03N is strongly suited for thermoformed cups and containers used in dairy, food-service and consumer packaging. Its high stiffness and good optical properties help converters produce parts with better shape retention, cleaner appearance and dependable wall integrity, making it a practical choice for cups, tubs and similar rigid packaging formats.

Rigid Food Containers and Trays

For rigid food containers and trays, EH03N offers the kind of stiffness and dimensional performance required in packaging that must remain stable during handling, sealing, stacking and distribution. This makes it relevant for takeaway trays, ready-food containers, dairy packs and other food-contact packaging where presentation and structural consistency both matter.

General-Purpose Injection Moulding

Although positioned primarily as a thermoforming grade, EH03N also has relevance in selected general-purpose injection moulding applications where processors want a PP homopolymer with stiffness-focused performance and good surface appearance. It can be considered for rigid molded items where optical quality and part rigidity are more important than impact-dominant performance.

Compliance and Regulatory Positioning

EH03N carries a manufacturer-declared compliance profile that supports its use in regulated packaging discussions. The grade is stated to meet IS 10910 for safe use in contact with foodstuffs, pharmaceuticals and drinking water, while its additives conform to IS 10909 positive-list requirements. It is also declared compliant with FDA 21 CFR 177.1520 for olefin polymers. For food packaging buyers, this strengthens the grade’s relevance, although final application suitability should always be validated for the exact structure and end-use.

Comparable Alternatives

EH03N competes most directly with Indian polypropylene homopolymer grades used in thermoforming and rigid packaging. Among the closest references is Haldia Petrochemicals T103, which is also positioned for thermoforming cups and containers. Buyers comparing EH03N with T103 will typically look at stiffness profile, optical appearance, thermoforming behavior and supply preference rather than relying on one property alone. A second comparison point is the IOCL 1110MAS and 1110MG family, though these are more commonly associated with injection moulding applications for rigid parts and household items. Compared with those grades, EH03N stands out more clearly when the requirement is thermoformed packaging with nucleated, stiffness-oriented performance and better packaging-focused positioning. The rationale behind EH03N’s assigned grade identity is clear: its MFI, nucleated structure, stiffness profile and optical positioning align with thermoformed cups, trays and rigid food containers rather than raffia, film or high-flow thin-wall injection applications.

OPaL PP Opalene FH03

Polypropylene Homopolymer

OPaL PP Opalene FH03 is a polypropylene homopolymer BOPP film grade manufactured by ONGC Petro additions Limited under the OPaLene PP brand for general-purpose, co-extruded, biaxially oriented polypropylene, and metallisable BOPP film applications. Produced using Ineos Gas Phase polymerization technology, this grade is designed to deliver excellent processability, low water carry-over, strong clarity and gloss, and good mechanical strength for packaging film conversion. For buyers searching for OPaL PP Opalene FH03, FH03 BOPP film grade, polypropylene homopolymer for metallisable BOPP film, or flexible packaging PP homopolymer in India, this grade is a technically relevant and commercially strong option. ONGC Petro additions Limited is an Indian petrochemical producer with a dedicated polypropylene portfolio marketed under the OPaLene PP brand. The company manufactures from its Dahej OPAL base in Gujarat and positions FH03 within its mainstream PP homopolymer basket as a film-grade resin rather than a general-purpose moulding or raffia material. That distinction matters because BOPP film manufacturers need a different balance of melt flow, orientation behavior, optical quality, and puncture resistance than converters working in injection moulding, nonwoven, or woven packaging segments. FH03 is assigned specifically to those BOPP and packaging film requirements.

Deep Technical Insights

The technical profile of Opalene FH03 places it in the classic low-MFI BOPP film-grade category. The grade has a melt flow index of 3.4 g/10 min, which is well suited to biaxial orientation processes where balanced melt strength and drawability are more important than the very high flow associated with nonwoven or extrusion coating grades. This flow level supports stable film formation and orientation behavior on BOPP lines. Its density of 0.90 g/cm³ is typical of polypropylene homopolymer and supports lightweight packaging structures. The grade also offers tensile strength at yield of 35 MPa and elongation at yield of 12 percent, indicating a balanced mechanical profile for film applications where strength and controlled stretch behavior both matter. A flexural modulus of 1400 MPa contributes to stiffness and handling performance in finished film structures, while notched Izod impact strength of 35 J/m supports toughness and puncture resistance in packaging use. Rockwell hardness of 90 on the R scale and a heat deflection temperature of 95°C further reinforce the grade’s balanced physical profile. For converters, these values indicate that FH03 is not simply an orientation-friendly resin, but one that also supports usable film stiffness, handling stability, and packaging integrity. One of the most commercially important strengths of FH03 is its low water carry-over. In BOPP film processing, this can help improve process stability and support better film quality across tenter-frame operations. The grade is also described as offering excellent clarity and gloss, which makes it especially suitable for visually sensitive packaging formats such as snack food overwraps, cigarette overwraps, adhesive tape films, and plain textile packaging films. Its good mechanical strength and puncture resistance further improve its commercial value. Flexible packaging films must often balance appearance with durability, and FH03 is positioned to support that balance. This is why the grade fits well into general-purpose BOPP, co-extruded film, and metallisable BOPP applications rather than being treated as a broad commodity PP resin.

Performance Benefits for BOPP Film Converters

FH03 is designed to translate its datasheet profile into practical film-line benefits. The moderate melt flow supports orientation, the stiffness profile helps with film handling, and the puncture resistance contributes to packaging integrity. For BOPP processors, this combination is important because film grades are selected not just by a single number, but by how consistently they perform during extrusion, orientation, winding, and end use. The clarity and gloss profile makes the grade especially attractive for packaging formats where appearance matters. In consumer-facing packaging, visual quality can directly influence product presentation. Combined with low water carry-over and good processability, FH03 offers a strong balance of line efficiency and finished-film quality.

Applications and Industry Use Cases

General-Purpose BOPP Film

Opalene FH03 is primarily designed for general-purpose BOPP film production where balanced orientation behavior, clarity, and mechanical performance are essential. In these applications, processors need a polypropylene homopolymer that can run reliably on tenter-frame lines while delivering commercially acceptable film quality for packaging use.

Co-Extruded BOPP Film Structures

The grade is also suitable for co-extruded BOPP film structures where process consistency and film balance matter across layered packaging formats. Its combination of processability, stiffness, and optical quality makes it relevant for converters producing more advanced flexible packaging constructions.

Metallisable BOPP Films

FH03 is a strong candidate for metallisable BOPP films used in higher-value packaging formats. In these applications, clarity, gloss, and stable film production are important because the base film must support both visual quality and downstream converting performance.

Snack Food and FMCG Packaging

Because of its packaging-focused performance profile and compliance positioning, FH03 is well suited for snack food packs, FMCG overwraps, and related consumer packaging films. In these segments, converters often need a film-grade PP homopolymer that combines appearance, stiffness, and reliable packaging performance.

Cigarette Overwrap, Adhesive Tape and Textile Packaging

The grade is also relevant for cigarette overwrap, adhesive tape film, and plain textile packaging films where optical quality and process consistency are important. These applications benefit from the grade’s clarity, gloss, and mechanical balance, making FH03 a practical choice for converters serving multiple packaging segments.

Comparable Alternatives

Within the Indian market, FH03 competes most directly with IOCL 1030FG and Haldia Halene-P F103 because all three are polypropylene homopolymer film grades positioned around BOPP, co-extruded film, and packaging applications. These grades operate in a similar commercial category, but the right choice can still depend on converter preference, availability, line behavior, and application emphasis. Compared with IOCL 1030FG, FH03 shares a similar BOPP and metallisable film positioning, making both relevant for general-purpose and co-extruded film applications. Compared with Haldia Halene-P F103, FH03 also sits in the low-MFI BOPP film-grade zone where orientation performance, optical quality, and packaging relevance are central. FH03’s key differentiators include its OPaL manufacturer identity, Ineos Gas Phase technology background, low water carry-over positioning, and strong application fit across snack food packaging, cigarette overwrap, adhesive tape, and textile packaging. The rationale behind assigning FH03 to BOPP and packaging film applications is technically clear. Its 3.4 MFI profile supports orientation, its 1400 MPa flexural modulus supports film handling, and its clarity, gloss, and puncture resistance support packaging performance. It is not a film grade for cast film, nonwoven, or injection moulding routes. It is a purpose-built PP homopolymer for BOPP and related flexible packaging applications.

OPaL PP Opalene FH08S

Polypropylene Homopolymer

OPaL PP Opalene FH08S is a polypropylene homopolymer cast film grade manufactured by ONGC Petro additions Limited under the OPaLene PP portfolio. Produced for packaging-focused film conversion, this natural-colored high-stiffness grade contains slip and antiblock additives and is positioned for cast films, snack food packaging, cheese wraps and general flexible packaging applications. FH08S is especially relevant for film processors and packaging converters looking for a PP homopolymer grade that offers a practical balance of flow, stiffness, optical presentation and controlled film handling. In commercial terms, it fits applications where openability, reduced blocking, smooth conversion and packaging appearance matter as much as basic film formation.

Manufacturer Snapshot

ONGC Petro additions Limited is a major Indian petrochemical producer with a broad polypropylene portfolio marketed under the OPaLene PP brand. FH08S is part of OPaL’s documented film-grade basket, which gives buyers stronger confidence in grade identity, technical positioning and application fit compared with thin trader listings or copied datasheet pages.

Technical Insights and Product Performance

OPaL PP Opalene FH08S has a melt flow index of 8.0 g/10 min at 230°C/2.16 kg, placing it in a medium-flow range suitable for cast film processing where converters need workable melt behavior without moving into unrelated high-flow application families. Its density of 0.90 g/cm³ is typical of polypropylene homopolymer grades used in packaging film structures. From a mechanical perspective, FH08S offers tensile strength at yield of 35 MPa and elongation at yield of 10%, supporting a stiffness-oriented profile for packaging films that need controlled handling and practical structural performance. A flexural modulus of 1450 MPa reinforces its high-stiffness positioning, which is useful where film feel, machinability and finished-pack appearance are important. The grade also shows notched Izod impact strength of 35 J/m, Rockwell hardness of 95 on the R scale, Vicat softening point of 150°C and heat deflection temperature of 95°C. These values support its role as a packaging-oriented cast film grade rather than a raffia, thermoforming or BOPP-specialized material. The slip additive helps improve film handling and opening behavior, while the antiblock additive helps reduce film-to-film sticking during winding, storage and downstream conversion.

Applications

Cast Films

FH08S is designed for cast polypropylene film applications where processors need stable conversion, controlled film handling and a stiffness profile suited to packaging use. Its additive package makes it relevant for cast-film lines where ease of unwinding, reduced blocking and smoother downstream processing are commercially important.

Snack Food Packaging

For snack food packaging, FH08S offers a useful combination of film processability, packaging stiffness and handling support through slip and antiblock additives. This makes it suitable for packaging formats where machinability, film opening and presentable pack appearance contribute directly to production efficiency and shelf-facing quality.

Cheese Wraps

FH08S is also positioned for cheese-wrap applications, where film usability and controlled surface behavior matter. In these packaging formats, the additive system helps support cleaner film separation and more reliable handling, while the homopolymer base contributes to stiffness and overall packaging performance.

General Flexible Packaging

In broader flexible packaging use, FH08S serves converters looking for a PP cast film grade that bridges technical performance and practical packaging needs. It is relevant for packaging operations that require a dependable film-grade polypropylene homopolymer for food and non-food packaging structures where smooth conversion and handling consistency are priorities.

Compliance and Regulatory Positioning

FH08S carries a manufacturer-declared compliance profile that is important for food and packaging buyers. The grade is stated to meet IS 10910 requirements for safe use in contact with foodstuffs, pharmaceuticals and drinking water, while the product and additives comply with IS 10909 positive-list requirements. It is also declared compliant with FDA 21 CFR 177.1520 for olefin polymers. For packaging applications, final suitability should still be validated at the finished-article level.

Comparable Alternatives

FH08S is best understood as a cast-film packaging grade, and that distinction matters when comparing it with adjacent Indian film grades. One relevant comparison is IOCL Propel 1100FS, which is positioned more clearly as a TQPP film grade with slip and antiblock additives for food packaging and garment bags. Buyers choosing between FH08S and 1100FS should compare not just melt flow, but also the target film family, processing route and end-use packaging format. Another close comparison is Haldia Petrochemicals Halene-P F110, which also serves TQ film applications with slip and antiblock additives. Compared with such grades, FH08S is more directly framed around cast film and flexible packaging use, which can matter for processors aligning grade choice with line type and packaging structure. A third internal comparison is OPaL FH03, which is positioned as a BOPP film grade for general-purpose, co-extruded and metallisable BOPP films. This makes FH03 a different fit from FH08S. The rationale behind FH08S is its medium-flow cast-film profile, additive package and packaging-focused stiffness, which align it more naturally with cast film conversion than with BOPP-oriented applications.

Online store of household appliances and electronics

Then the question arises: where’s the content? Not there yet? That’s not so bad, there’s dummy copy to the rescue. But worse, what if the fish doesn’t fit in the can, the foot’s to big for the boot? Or to small? To short sentences, to many headings, images too large for the proposed design, or too small, or they fit in but it looks iffy for reasons.

A client that’s unhappy for a reason is a problem, a client that’s unhappy though he or her can’t quite put a finger on it is worse. Chances are there wasn’t collaboration, communication, and checkpoints, there wasn’t a process agreed upon or specified with the granularity required. It’s content strategy gone awry right from the start. If that’s what you think how bout the other way around? How can you evaluate content without design? No typography, no colors, no layout, no styles, all those things that convey the important signals that go beyond the mere textual, hierarchies of information, weight, emphasis, oblique stresses, priorities, all those subtle cues that also have visual and emotional appeal to the reader.