Gail HDPE G-Lene B53A003U is a natural-colour, UV-stabilized high density polyethylene (HDPE) resin from GAIL (India) Limited, developed for blow moulding of small-size cylindrical or near-cylindrical containers up to 5 litres. It is positioned for packaging where converters need a dependable balance of toughness and processability—especially for coloured packs and products that may see light or outdoor exposure.GAIL describes B53A003U as being produced via G-Lene swing-plant technology (solution and gas-phase routes) and is engineered to deliver an optimum combination of toughness and ease of processing for small bottle production. The grade is also described as an ethylene–hexene copolymer, which is commonly associated with improved toughness and environmental stress crack resistance (ESCR) compared with many homopolymer HDPEs—useful for bottles that face handling abuse, cap stress, and contact with surfactants or oils.For standards-driven procurement, the GAIL TDS states that B53A003U conforms to the natural-resin designation IS 7328-3B-PB-FXTA under IS 7328:2020 (polyethylene raw material used in moulding and extrusion). This conformity statement should be treated as the primary compliance anchor for the page.

Technical insights

B53A003U is typically shortlisted by blow moulders using a set of properties that correlate with parison stability, cycle consistency, bottle stiffness, and resistance to cracking in real packaging environments.Melt Flow Index (MFI): Typical MFI (I2, 190°C/2.16 kg) is 0.38 g/10 min. In blow moulding, lower MFI generally indicates higher melt strength, which can support parison control and help maintain wall distribution—important for small containers where appearance and top-load matter.Density: Market references commonly cite density around 0.953 g/cm³ for this grade. In HDPE blow moulding, higher density typically contributes to better stiffness and top-load performance, supporting bottles that must stack, ship, and resist paneling.Tensile strength and elongation: Your provided inputs cite tensile strength at yield 270 kg/cm² and elongation at break 700% (treat non-GAIL sources as secondary; keep the page anchored to the GAIL TDS for authoritative claims). This type of profile supports bottles that need to survive drops and squeezes without cracking.Flexural modulus: Flexural modulus is often used as a quick predictor of bottle rigidity and “feel.” Your inputs cite 10000 kg/cm², which aligns with a stiff packaging grade suitable for small bottles.Impact strength: Notched Izod impact strength is frequently used to compare toughness across blow grades. Your inputs cite 92 J/m, supporting the positioning for tough, small containers.ESCR: ESCR (ASTM D1693B, 100% Igepal, F50) is a key packaging metric for detergents, toiletries, and chemical bottles. Your inputs cite 80 hours, indicating a grade positioned for better stress-crack resistance than many general-purpose HDPEs.UV stabilization: B53A003U is positioned as UV-stabilized, which helps slow degradation (embrittlement and loss of strength) when bottles are exposed to sunlight during storage, transport, or outdoor use.

Applications

Edible oil and ghee bottles (up to 5 L)

B53A003U is recommended for small blow-moulded containers used for edible oils and ghee where converters need stiffness, good appearance, and toughness for distribution handling. UV stabilization can be useful when packs are stored or displayed in light-exposed environments.

Toiletries and cosmetics packaging

For shampoos, lotions, personal-care liquids, and cosmetic containers, this grade’s positioning emphasizes toughness and ESCR—important where surfactants, fragrances, and repeated cap/handling stresses can trigger cracking in weaker materials.

Lubricant and automotive-fluid bottles

B53A003U is suitable for lube-oil bottles and related small containers where stiffness, impact resistance, and resistance to stress cracking help maintain pack integrity through transport and workshop handling.

Industrial chemical bottles (small-size)

For industrial-chemical packaging under 5 L, processors commonly prioritize ESCR and impact performance. The grade’s copolymer positioning and UV stabilization support durability in tougher storage and handling conditions.

Comparable alternatives

Comparable GAIL blow-moulding grades include B52A003/B52A003N and B53A003 (non-UV variants are often positioned for similar small-container applications). Based on your inputs, B53A003U’s key differentiator is UV stabilization, making it better suited for coloured packs and products that may be exposed to sunlight.Direct equivalence should not be assumed unless you match manufacturer technical sheets and validate on your blow moulding line. For substitution screening, compare MFI (0.38 class), density (~0.953 class), ESCR, impact, and stiffness, then confirm parison behavior, cycle time, and bottle drop performance via trials.

Common search variants

Also searched as: GAIL B53A003U, G-Lene B53A003U HDPE, HDPE blow moulding dana, HDPE bottle grade 0.38 MFI, UV stabilized HDPE for bottles.Common misspellings/variants: B53A003, B53A003UA, B 53 A 003 U, Glen B53A003U.

Gail HDPE G-Lene P46A010U is a UV-stabilized, ethylene-hexene copolymer high density polyethylene (HDPE) pipe-extrusion grade from GAIL (India) Limited. It is recommended for PE63-class pressure pipe systems used in potable-water distribution, sprinkler/irrigation networks, effluent and waste-water pipelines, and cable/duct applications.GAIL positions P46A010U as meeting hydrostatic strength requirements for PE63 material as per IS 4984:2016, and the TDS states that the resin conforms to the natural-resin designation IS 7328-3H-PB-EXTA under IS 7328:2020. In practical terms, this grade is built for pipe converters who need a very-low-MFI resin that supports long-term performance, good stress-crack resistance, and stable extrusion of pressure-pipe and duct profiles.Because P46A010U is UV-stabilized (HALS-type positioning), it is also a strong fit for pipes and ducts that may see sunlight exposure during storage, transport, or initial installation before burial/cover.

Technical insights

Pipe-grade HDPE is typically evaluated on flow (for extrusion control), density/modulus (for stiffness and dimensional stability), and crack/impact resistance (for installation and long-term reliability).Melt Flow Index (MFI): P46A010U is positioned as a very-low-MFI pipe resin. Typical values provided in your inputs include I2 0.22 g/10 min and I5 0.95 g/10 min. Lower I2 is commonly associated with higher molecular weight, which can support better long-term creep and stress-crack resistance in pressure-pipe applications (with the trade-off of higher extrusion torque).Density: Typical density is cited as 0.948 g/cm³ in your inputs. In HDPE pipe, density is one of the indicators used for stiffness and dimensional stability, supporting consistent pipe geometry and performance under load.Tensile strength and elongation at yield: Your inputs cite tensile strength at yield 230 kg/cm² and elongation at yield 12%. This kind of profile supports ductility during handling/installation and helps reduce brittle-type failures during bending and joining (actual field performance depends on pipe design and processing).Flexural modulus: Flexural modulus is commonly used as a practical stiffness indicator for pipe profiles. Your inputs cite 8700 kg/cm², supporting the positioning for PE63 pipe and duct applications where dimensional stability matters.ESCR: ESCR (ASTM D1693B) is a key screening metric for pipe resins, especially where installation conditions and service environments can introduce stress concentrators. Your inputs cite >48 hours (10% Igepal solution v/v, F50), indicating a grade positioned for improved stress-crack resistance.Impact strength: Notched Izod impact strength is often used to compare toughness across pipe grades. Your inputs cite 120 J/m, supporting resistance to knocks during transport and installation.UV stabilization: UV stabilization is a practical differentiator for pipe/duct materials that may sit outdoors at site or remain partially exposed. It helps slow sunlight-driven degradation that can cause embrittlement and surface cracking over time.

Applications

Potable-water pressure pipes (PE63 systems)

P46A010U is recommended for potable-water pressure pipe systems where hydrostatic strength class and long-term reliability are key. The grade’s PE63 positioning (IS 4984:2016) and very-low-MFI profile align with applications that prioritize sustained performance under internal pressure.

Sprinkler and irrigation pipelines

For sprinkler and irrigation networks, converters and project buyers typically look for a balance of stiffness, impact resistance, and crack resistance to handle field installation stresses. UV stabilization is beneficial when pipes are stored outdoors before installation.

Effluent and waste-water pipelines

In effluent and waste-water systems, resistance to slow crack growth and installation damage is often a priority. P46A010U’s pipe-grade positioning and ESCR-focused property set support these use cases for PE63-class networks.

Cable/telecom ducts and protective conduits

P46A010U is also recommended for cable/duct pipelines where consistent extrusion, dimensional stability, and toughness matter. UV stabilization is useful for duct coils stored outdoors at site or exposed during staged installations.

Comparable alternatives (positioning without claiming equivalence)

Comparable HDPE pipe grades in India include GAIL’s own P52A003 and other PE63-positioned materials, as well as higher-class pipe grades (e.g., PE80/PE100 families) depending on design requirements.However, direct equivalence to P46A010U should not be assumed unless you match manufacturer technical sheets and validate on your extrusion line. Based on your inputs, P46A010U’s key differentiator is UV stabilization combined with PE63 pipe positioning, making it a practical choice where outdoor handling/storage is expected.For substitution screening, compare MFI (I2/I5), density, ESCR, impact, and the stated IS 4984/IS 7328 conformity first—then confirm output rate, melt pressure, surface finish, and pipe test performance via trials.

Common search variants

Also searched as: GAIL P46A010U, G-Lene P46A010U HDPE, PE63 pipe grade HDPE, HDPE pipe dana, UV stabilized HDPE pipe resin, HDPE duct grade.Common misspellings/variants: P 46 A 010 U, Glen P46A010U, P46A010, P46A010U PE 63.

Gail HDPE G-Lene Y50A010U is a natural-colour, UV-stabilized high density polyethylene (HDPE) resin from GAIL (India) Limited. It is designed for converters running low-denier monofilament and low-denier raffia (stretched tape) lines where outdoor durability, stable processing, and a balanced strength–elongation profile matter.GAIL positions Y50A010U for fishing nets and mosquito nets (low-denier monofilament) and for tarpaulin and similar tape-type products (low-denier stretched tapes). The grade is described as offering an optimum balance of strength and elongation, excellent processability, and low water carry-over—practical attributes that help reduce instability on fine-die extrusion and improve draw consistency on thin-denier output.For standards-driven procurement, the GAIL TDS explicitly states that Y50A010U conforms to the natural-resin designation IS 7328-2B-NB-BXDA under IS 7328:2020 (polyethylene raw material used in moulding and extrusion). This conformity statement should be treated as the primary compliance anchor for the product page.

Technical insights

Y50A010U is typically evaluated using a small set of datasheet-style properties that correlate strongly with monofilament stability, tape drawability, and outdoor service life.Melt Flow Index (MFI): Typical MFI (I2, 190°C/2.16 kg) is 1.0 g/10 min. In low-denier monofilament and tape extrusion, this flow level is commonly associated with stable extrusion through finer die geometries and consistent output at practical line speeds.Density: Typical density is 0.950 g/cm³. This density range supports higher stiffness and tensile potential than lower-density polyethylene, while still aligning with the drawability needed for fine-denier nets and thin tapes.Tensile strength at yield: Tensile strength at yield is often used as a quick indicator of how the resin may perform after orientation/drawing. Your provided inputs cite 230 kg/cm² (note: treat non-GAIL sources as secondary; keep the page anchored to the GAIL TDS for authoritative claims).Flexural modulus: Flexural modulus is a practical stiffness indicator that influences fabric body, handling, and dimensional stability in woven structures. Your inputs cite 8500 kg/cm² as a typical value cluster used in market references.Vicat softening point: Typical Vicat softening point (10 N) is 123°C. This helps buyers understand softening behavior under heat exposure during processing and in warm service conditions.UV stabilization: Y50A010U is positioned as UV-stabilized, which is critical for sun-exposed end uses like fishing nets, mosquito nets, and tarpaulin-type covers. UV stabilization helps slow degradation (embrittlement and loss of strength) over time in outdoor exposure.

Applications

Fishing nets (low-denier monofilament)

Y50A010U is designed for low-denier monofilament used in fishing nets where processors need stable fine-die extrusion, consistent drawing, and toughness that holds up under abrasion and repeated flexing. UV stabilization supports longer outdoor service life in sun-exposed fisheries applications.

Mosquito nets (fine-denier monofilament)

For mosquito nets, the grade’s positioning targets fine-denier monofilament output where uniformity and draw stability are key to achieving consistent mesh and feel. UV stabilization is a practical advantage for nets used near windows, outdoors, or in high-sun regions.

Tarpaulin and tarpaulin-type woven fabrics (low-denier stretched tapes)

Y50A010U is also suitable for low-denier stretched tape applications such as tarpaulin and similar tape-type products. Converters typically look for a balance of stiffness and elongation so thin tapes can be drawn without frequent breaks while still delivering usable fabric body.

Light wrapping fabrics and tape-type products

For wrapping fabric and related tape-type products, Y50A010U’s mid-MFI positioning supports processability on thin-tape lines, while the UV-stabilized formulation helps reduce premature aging when the finished goods see sunlight during storage or use.

Comparable alternatives

Comparable HDPE monofilament/raffia grades in India include GAIL’s own T50A010/T50A010A and tape-focused grades such as W50A009 and W52A009/W52A009N.That said, direct equivalence should not be assumed unless you match manufacturer technical sheets and validate on your line. Based on the provided positioning, Y50A010U is specifically UV-stabilized and targeted at low-denier monofilament (nets) plus low-denier tapes, whereas grades like W50A009 are typically positioned more toward higher-tenacity tape for heavy-duty woven sacks.For substitution screening, compare MFI (~1.0), density (~0.950), UV stabilization, and the strength–elongation balance first, then confirm die stability, draw ratio window, and break rate via controlled trials.

Common search variants

Also searched as: GAIL Y50A010U, G-Lene Y50A010U HDPE, Y50A010UA HDPE, HDPE monofilament dana, mosquito net HDPE grade, fishing net HDPE granules, UV stabilized HDPE raffia.Common misspellings/variants: Y 50 A 010 U, Glen Y50A010U, Y50A010, Y50A010U 1.0 MFI.

Gail HDPE G-Lex E52U003 (also referenced alongside E52U003N) is a UV-stabilized high-density polyethylene (HDPE) resin engineered for telecom-duct extrusion—specifically PLB (permanently lubricated) HDPE ducts and DWC (double-walled corrugated) HDPE ducts used as underground optical fiber cable (OFC) conduits.Positioned as a duct-grade material (not a pressure-pipe grade), E52U003 is designed for the performance priorities that matter in telecom infrastructure: consistent extrusion behavior, duct stiffness and impact robustness during handling/installation, and long-term resistance to oxidative/thermal aging. GAIL describes the resin family as HDPE with a bimodal molecular weight distribution produced via its G-Lex slurry-process technology, supporting a balance of mechanical strength, stiffness, processability, and ESCR (environmental stress crack resistance).For buyers and engineers evaluating duct compounds, E52U003 is typically selected when UV stabilization and compliance-aligned duct performance are required for outdoor storage/handling and long-life underground service. Manufacturer documentation also positions the grade as conforming to DoT/TEC generic requirements for the relevant telecom duct applications.

Technical insights

Key datasheet properties (typical values)

• Melt Flow Index (I5): 0.95 g/10 minIndicates a flow level suited to extrusion of duct profiles where stable melt strength and output consistency are critical.
• Density @ 23 °C: 0.954 g/ccA high-density level associated with higher stiffness and dimensional stability—important for duct ring stiffness and installation durability.
• Tensile Strength @ Yield: 240 kg/cm²A practical indicator of resistance to deformation under load during pulling, bending, and installation handling.
• Elongation @ Yield: 10%Reflects controlled duct stiffness at the onset of yielding—useful for maintaining shape under installation stresses.
• Elongation @ Break: >600%Signals toughness and duct survivability under impact or sudden strain events.
• Thermal Stability (OIT): >45 minutesSupports oxidative stability expectations for long-life telecom infrastructure and improved resistance to thermal aging.
• Heat Deflection Temperature (45 g/mm²): 67 °CHelps indicate shape retention under elevated temperatures that may occur during storage, transport, or installation environments.
• Vicat Softening Point: 123 °C Provides a reference for softening behavior at higher temperatures relevant to processing and end-use exposure.

Applications

PLB HDPE telecom ducts for underground OFC conduits: E52U003 is recommended for permanently lubricated (PLB) HDPE telecom ducts where low-friction cable pulling, dimensional stability, and long-term reliability are required for underground optical fiber cable protection.DWC (double-walled corrugated) HDPE ducts: The grade is also positioned for double-walled corrugated duct systems used in telecom and utility conduit networks, where stiffness-to-toughness balance and robust handling performance support installation success.Telecom duct extrusion lines requiring UV-stabilized handling stability: For duct manufacturers and converters, UV stabilization is a key selection driver when pellets, compounds, or finished ducts may see outdoor exposure during storage, yard handling, or staged installation.

Comparable alternatives

Comparable telecom-duct HDPE grades exist across Indian petrochemical suppliers and duct-compounding channels, but direct equivalence to G-Lex E52U003 should not be assumed without matching manufacturer TDS data and compliance requirements.Within GAIL’s own positioning, E52U003 and E52U003N are paired in the same manufacturer document; however, a strict “drop-in equivalent” claim between the two variants is not confirmed here beyond the paired listing. When comparing alternatives, buyers typically benchmark:

• Flow vs. stiffness balance: MFI (I5) near 0.95 g/10 min and density around 0.954 g/cc for duct extrusion behavior.
• Toughness indicators: elongation at break and impact robustness for installation survivability.
• Stabilization package: OIT and UV stabilization expectations for long-life duct service.
• Standards alignment: DoT/TEC generic requirements referenced by the manufacturer for the intended PLB/DWC duct application.

E52U003 is positioned as a purpose-built, manufacturer-documented UV-stabilized duct grade—best suited when your RFQ requires telecom-duct positioning, typical-property alignment, and documentation-backed compliance claims.

Common search variants

Also searched as: HDPE telecom duct granules, OFC duct HDPE, PLB duct resin, DWC duct resin, HDPE dana for telecom ducts.Common misspellings/variants: G Lex E52U003, GAIL E52U003, E52U003 HDPE, E52U003 0.95 MFI.

Haldia Halene-H E5201 is a high density polyethylene grade developed by Haldia Petrochemicals Ltd. under its Halene-H trademark for demanding blow moulding and extrusion applications. Produced using the Mitsui CX Process, this grade is characterized by broad molecular weight distribution, strong environmental stress crack resistance, dependable processability, and a balanced mechanical profile that makes it highly suitable for industrial packaging and technical extrusion uses.This is not a generic HDPE grade positioned for broad commodity use. E5201 is better understood as a high ESCR HDPE grade built for converters and industrial buyers who need better crack resistance, stable processing, and reliable performance in applications such as high ESCR containers, cable sheathing and jacketing, lamination film, general purpose film, extrusion applications, and DWC pipes. For Indian technical buyers, the presence of BIS designation code IS 7328-3B-BB-EXDA also strengthens its relevance in specification-driven procurement.

About the Manufacturer

Haldia Petrochemicals Ltd. is one of India’s established polymer manufacturers and markets its HDPE portfolio under the Halene-H brand. The company identifies Mitsui, Japan as the technology partner for its HDPE range, and the manufacturer’s own technical literature states that Halene-H is the registered trademark of Haldia Petrochemicals Limited for high density polyethylene.

Technical Specifications

Haldia Halene-H E5201 has a melt flow index of 0.35 g/10 min at 190°C/2.16 kg, which places it in a low-flow range suitable for blow moulding and extrusion applications where strength, melt stability, and performance consistency are important. The manufacturer technical sheet lists the annealed density at 0.950 g/cm³, while the HDPE product listing also shows 0.952 g/cm³ for the grade. For technical content, the TDS value should be treated as the primary reference, while the portfolio listing supports broader commercial positioning.Its mechanical profile supports industrial use cases well. The grade offers tensile strength at yield of 25 MPa and tensile strength at break of 34 MPa, showing a useful balance between stiffness and durability. Elongation at break of 850% indicates strong toughness under stress, while flexural modulus of 1000 MPa supports shape retention in formed products. Hardness of 65 Shore D gives the material a solid rigidity profile, and notched Izod impact of 120 J/m supports resistance to impact during handling and service.One of the most important technical advantages of E5201 is its ESCR F50 above 600 hours in 10% Igepal solution, which is highly relevant for buyers selecting HDPE grades for chemical exposure, stress-loaded packaging, and technical service environments. The grade also shows a Vicat softening point of 122°C, heat deflection temperature of 60°C, and DSC melting temperature of 130°C, all of which help technical teams evaluate suitability for processing and end-use conditions.

Applications and Industry Use Cases

High ESCR Containers

Haldia Halene-H E5201 is strongly positioned for high ESCR blow moulded containers where resistance to environmental stress cracking is critical. This makes it relevant for industrial packaging used for chemicals, detergents, pesticides, and other demanding contents where ordinary HDPE grades may face cracking risk over time. For buyers searching for high ESCR HDPE grade or HDPE for chemical containers, E5201 offers a technically grounded option supported by manufacturer guidance.

Cable Sheathing and Jacketing

E5201 is also recommended for cable sheathing and jacketing compounds, making it relevant for wire and cable manufacturers looking for HDPE with dependable extrusion behavior and balanced mechanical performance. In these applications, processors need a grade that can maintain consistency during extrusion while also contributing to durability and protective performance in the finished cable layer. This makes E5201 a commercially meaningful option for HDPE for cable sheathing and HDPE for cable jacketing searches.

DWC Pipes

The grade is associated with DWC pipe applications in the Haldia HDPE portfolio, which expands its relevance beyond packaging into infrastructure-linked extrusion uses. For this type of application, buyers typically look for a material that combines processability with structural integrity and service durability. E5201’s ESCR profile and mechanical balance support its use in such technical extrusion environments where long-term reliability matters.

Lamination Film and General Purpose Film

Haldia also recommends E5201 for lamination film and general purpose film applications. While it is not positioned as a specialty film grade in the same way as packaging film-specific materials, its processability and broad molecular weight distribution allow it to serve extrusion-based film requirements where toughness and functional performance are more important than premium optical properties.

General Extrusion Applications

For buyers seeking HDPE for extrusion applications, E5201 offers a practical balance of melt behavior, toughness, and crack resistance. It is especially suitable where the end use demands durability under load or exposure rather than only easy flow. This gives the grade broader industrial relevance across technical extrusion segments in India.

Comparable Alternatives

Within Haldia’s own portfolio, the closest comparable grade is E5201S, which shares the same 0.35 MFI but is listed at 0.958 density and is positioned more toward general purpose blow moulding and DWC pipes. In comparison, E5201 has stronger positioning for high ESCR containers, cable sheathing, and jacketing, making it the better fit where crack resistance and technical application matching are more important than a more general blow moulding profile.B5500 is another relevant alternative, also at 0.35 MFI, but it is positioned for high ESCR bulk containers for chemicals and water tanks. Buyers choosing between E5201 and B5500 should think in terms of application focus: E5201 is more versatile across packaging, cable, and extrusion uses, while B5500 is more directly associated with bulk chemical and water storage applications.B6401 differs more clearly in market positioning. With 0.40 MFI and a higher density profile, it is aimed at lubricant and edible oil containers rather than high ESCR technical packaging or cable-related use. That makes B6401 a better fit for rigid container applications focused on shape retention and packaging performance, while E5201 is the stronger choice for stress crack resistance, technical extrusion, and industrial service conditions.The rationale behind E5201’s assigned grade positioning is therefore very clear: it fills the need for a high ESCR HDPE blow moulding and extrusion grade that bridges industrial packaging and technical extrusion applications, rather than serving only one narrow packaging segment.

Haldia Halene-H E5201S is a high density polyethylene (HDPE) grade from Haldia Petrochemicals Ltd., marketed under the Halene-H trademark and produced using the Mitsui CX Process. It is a broad molecular weight distribution resin developed for general purpose blow molding, double-walled corrugated pipes, and general-purpose pipe applications where processors need a dependable balance of flow, strength, and conversion stability.Its value lies in combining stable processing with solid mechanical balance, making it suitable for industrial packaging, utility containers, and pipe-related applications where performance consistency matters. For buyers searching terms like Haldia E5201S, HDPE blow molding grade, HDPE for DWC pipes, and Haldia Petrochemicals HDPE, this grade fits a clear technical and application-led buying intent.

About the Manufacturer

Haldia Petrochemicals Ltd. is one of India’s recognized polymer manufacturers, and the company markets its HDPE range under the Halene-H brand. The official Haldia product ecosystem identifies Mitsui, Japan as the technology partner for the HDPE line, which adds technical credibility for buyers comparing Indian HDPE grades for blow molding and pipe applications.

Technical Specifications

Haldia Halene-H E5201S has a melt flow index of 0.35 g/10 min at 190°C/2.16 kg, which supports its positioning in blow molding and pipe-related processing. This MFI level indicates a resin designed more for balanced processability and structural performance than for very high-flow molding applications. The grade is described as a broad molecular weight distribution HDPE, which is important because that structure typically supports a useful combination of melt strength, process stability, and end-product toughness.Density is presented across sources in the 0.952 to 0.958 g/cm³ range depending on source formatting and listing style, so the manufacturer TDS should remain the primary reference point while mirrored listings can be treated as secondary support. In practical terms, this density range aligns with a rigid HDPE profile suitable for molded containers and utility-oriented pipe applications.Secondary technical listings indicate tensile strength at yield around 25 MPa, tensile strength at break around 36 MPa, and elongation at break around 850%, suggesting a grade that balances rigidity with toughness. Flexural modulus in the 1000 to 1100 MPa range supports shape retention and structural stability, while Vicat softening point around 125°C and HDT around 70°C provide useful thermal reference points for processors evaluating service and conversion behavior. Together, these values support the grade’s positioning as a practical HDPE for general-purpose industrial conversion rather than a narrow specialty resin.

Applications and Industry Use Cases

General Purpose Blow Molding

Haldia Halene-H E5201S is primarily recommended for general purpose blow molding, making it suitable for a wide range of industrial and utility packaging applications. For converters, this means a grade that can support stable processing and dependable part formation without being restricted to one narrow packaging segment. It is a practical fit for molded containers and utility products where consistent output and balanced mechanical performance are more important than premium cosmetic requirements.

Double-Walled Corrugated Pipes

The grade is also associated with double-walled corrugated pipe applications, which expands its relevance beyond packaging into infrastructure and utility use. In DWC pipe production, processors typically need a material that offers reliable extrusion behavior along with good structural performance. E5201S fits this requirement by combining processability with the mechanical balance needed in pipe-related applications.

General-Purpose Pipe Applications

For general-purpose pipe applications, E5201S serves as a useful HDPE option where the requirement is practical performance rather than highly specialized pressure-pipe characteristics. Its positioning makes it suitable for buyers looking for a resin that can support utility-oriented pipe production with a dependable balance of stiffness, toughness, and processing consistency.

Industrial Packaging and Utility Containers

Because of its blow molding suitability and mechanical profile, E5201S can also be used in industrial packaging and utility container applications where processors need a strong all-round HDPE grade. It is especially relevant in scenarios where the buyer wants a resin that can bridge packaging and pipe-adjacent use cases without moving into more specialized high-ESCR or application-specific grades.

Comparable Alternatives

The closest internal comparison is Haldia Halene-H E5201, which sits near E5201S in family and melt flow but is positioned more specifically for high ESCR blow molding, cable sheathing and jacketing, lamination film, and extrusion applications. In simple terms, if the requirement is more specialized toward stress crack resistance or cable-related use, E5201 is usually the stronger fit. If the requirement is broader and more general-purpose across blow molding and pipe-related applications, E5201S is the better match.B5500 is a more targeted alternative for high ESCR containers, especially in chemical container and water tank positioning. Buyers choosing between E5201S and B5500 should think in terms of end use: B5500 is more application-focused toward demanding container service, while E5201S is more general-purpose and versatile across blow molding and pipe-adjacent uses.B6401 is positioned differently again, with stronger relevance for lubricant and edible oil containers. Compared with B6401, E5201S is less about rigid packaging for those specific markets and more about broad usability in general blow molding and utility pipe applications. That gives E5201S a distinct place in the Haldia HDPE portfolio as a balanced, processable, multi-use industrial grade.The rationale behind E5201S is clear: it fills the space between highly specialized grades and narrow packaging grades by offering a practical HDPE solution for converters who want general-purpose blow molding performance with pipe-related application flexibility.

Haldia Halene-H P5200 is a high-density polyethylene (HDPE) pipe grade manufactured by Haldia Petrochemicals Ltd. under the Halene-H brand using Mitsui CX bimodal technology. The grade is positioned for PE 63 pressure pipe applications and is designed to offer excellent processability, good environmental stress crack resistance, and balanced mechanical performance for cost-effective infrastructure and utility use. In the official Haldia HDPE portfolio, P5200 is listed for low-pressure pipes and telecom ducts, making it a practical option for non-critical and utility-oriented extrusion applications.Buyers searching for Haldia P5200, PE63 HDPE pipe grade, P5200 TDS, HDPE for telecom ducts, or low pressure HDPE pipe resin India are generally looking for a cost-effective pipe material that offers easy extrusion and dependable field performance without moving to higher PE 80 or PE 100 specifications.

About the Manufacturer

Haldia Petrochemicals Ltd. is one of India’s established polymer manufacturers and markets its HDPE grades under the Halene-H trademark. The company identifies Mitsui CX as the technology platform behind this pipe-grade range, which adds technical credibility for processors and project buyers.

Technical Specifications

Haldia Halene-H P5200 has a melt flow index of 0.80 g/10 min at 190°C/5 kg, which supports its positioning as an easy-processing pipe resin for lower-pressure applications. The grade also shows an approximate melt flow index of around 0.2 g/10 min at 190°C/2.16 kg, consistent with a bimodal HDPE pipe-grade profile. The official Haldia HDPE page lists density at 0.948 g/cm³, which aligns with its PE 63 classification and utility-oriented pipe performance.Its mechanical profile is designed for practical low-pressure use rather than high-pressure service. The grade shows tensile strength at yield around 24 MPa, elongation at break above 800%, and flexural modulus around 950 MPa, indicating a useful balance of stiffness and toughness for ducting, drainage, and low-pressure piping. The material is also described as having good ESCR, which is important for maintaining performance in utility and infrastructure environments where environmental stress and service exposure can affect long-term durability.From a processing standpoint, P5200 is designed for easy extrusion, with recommended barrel temperatures of 160–190°C. Its bimodal structure helps support smooth line behavior, making it a commercially practical option for processors who need a cost-effective HDPE grade for routine pipe and duct production.

Applications and Industry Use Cases

Low-Pressure Water Pipes

Haldia Halene-H P5200 is suitable for low-pressure water pipe applications where cost efficiency and easy processing are important. In these systems, the requirement is often dependable utility performance rather than high-pressure capability. This makes P5200 a practical choice for rural water lines and basic distribution networks.

Sewerage and Drainage Pipes

The grade is also relevant for sewerage and drainage applications, where pipe materials must offer balanced mechanical properties and reliable extrusion behavior. In these use cases, processors often prioritize ease of manufacturing and service durability over premium pressure ratings, which aligns well with the positioning of P5200.

Telecom Ducts

P5200 is strongly suited for telecom duct applications, where smooth extrusion and dependable structural performance are important. Telecom infrastructure manufacturers often need a resin that is easy to process and commercially efficient for protective ducting, and this grade fits that requirement well.

Utility and Infrastructure Ducting

Beyond telecom, P5200 can be used in broader utility ducting and infrastructure protection applications where a PE 63 grade is sufficient. Its processability and balanced physical profile make it useful for above-ground and below-ground duct systems where the main need is practical performance and cost-effective production.

Comparable Alternatives and Grade Positioning

Within the Haldia pipe-grade portfolio, P5100 is the next step up. It has MFI 0.50, density 0.948, and is positioned for PE 80 pressure pipes. Compared with P5200, P5100 is better suited for medium-pressure water, irrigation, and industrial applications where stronger pressure performance is required.P5300 is the premium alternative, with MFI 0.25, density 0.948, and positioning for PE 100 / PE 112 high-pressure pipe applications. Buyers comparing P5200 with P5300 should think in terms of duty level. P5200 is for basic low-pressure and duct applications, while P5300 is for more demanding pressure-pipe systems.P5200UV is the closest adjacent option for outdoor duct use, as it is a UV-stabilized variant intended for applications where sunlight exposure matters. The rationale behind P5200 is therefore very clear: it is the Haldia grade for buyers who need a cost-effective PE 63 HDPE resin for low-pressure pipes, sewerage, drainage, and telecom duct applications without moving into higher-performance pressure-pipe categories

Haldia Halene-H P5200UV is a UV-stabilized high-density polyethylene (HDPE) pipe grade manufactured by Haldia Petrochemicals Ltd. under the Halene-H brand using the Mitsui CX Process. This grade is designed for telecom ducts and PE 63 compliant pressure pipe applications where outdoor exposure and long service life are important. The manufacturer describes it as combining excellent processability with good creep resistance, good ESCR, and balanced mechanical performance, while being adequately stabilized using HALS+ (around 2000 ppm total) to support long-term outdoor durability.Buyers searching for Haldia P5200UV, UV HDPE telecom duct grade, PE63 UV stabilized pipe resin, or P5200 UV HDPE are typically looking for a resin that can handle sunlight exposure without premature degradation while still being easy to extrude and cost-effective for utility infrastructure.

About the Manufacturer

Haldia Petrochemicals Ltd. is an established Indian polymer producer and markets its HDPE grades under the Halene-H trademark. The company’s HDPE portfolio identifies the Mitsui CX technology platform behind these pipe grades, and the manufacturer’s technical documentation confirms the UV stabilization approach used in P5200UV for outdoor telecom and pipe applications. For buyers comparing multiple duct and pipe materials, this manufacturer-backed identity improves trust and reduces risk versus generic or unclear UV claims on distributor listings.

Technical Specifications

Haldia Halene-H P5200UV has a melt flow index of 0.20 g/10 min at 190°C/2.16 kg, 0.90 g/10 min at 190°C/5 kg, and 20 g/10 min at 190°C/21.6 kg. This flow profile supports its positioning as an easy-processing pipe and duct grade for PE 63 applications. The official Haldia HDPE page lists density at 0.948 g/cm³, which aligns with its PE 63 classification and utility-oriented extrusion performance.One of the strongest technical differentiators of P5200UV is its durability profile. The grade delivers ESCR above 1000 hours (F50), which supports long-term resistance to cracking under environmental stress. It also shows Vicat softening point of 125°C, heat deflection temperature of 64°C, DSC melting temperature of 131°C, and oxidative induction time above 30 minutes, which together support thermal stability and service performance in outdoor and infrastructure environments.The grade’s UV stabilization is achieved through HALS+ additive stabilization, designed specifically to improve outdoor service life. This is the core reason to choose P5200UV over a non-UV PE 63 grade when ducts or pipes will see sunlight exposure during storage, installation, or service.

Applications and Industry Use Cases

Telecom Ducts (Outdoor and Buried)

Haldia Halene-H P5200UV is strongly suited for telecom ducts, especially where outdoor exposure can occur during storage, installation, or service. UV stabilization helps protect the duct material from sunlight-related degradation, while the grade’s processability supports efficient extrusion and consistent duct production. This makes it a practical choice for telecom infrastructure projects that require reliable utility duct performance.

Outdoor Low-Pressure Water Pipes

For outdoor low-pressure water pipe applications, P5200UV offers a cost-effective PE 63 solution with added UV durability. This is useful in projects where pipes may be exposed to sunlight for extended periods before burial or where partial exposure is expected. The grade’s ESCR and stability profile help support dependable service performance in utility environments.

Sewerage and Drainage Utility Pipes

P5200UV can also be used for sewerage and drainage applications where PE 63 performance is sufficient and outdoor exposure may be a factor. In such use cases, UV stabilization helps preserve material integrity during storage and installation, while the grade’s processing behavior supports efficient production for utility pipe formats.

Infrastructure Ducting and Protective Conduits

Beyond telecom, P5200UV is relevant for broader infrastructure ducting and protective conduit applications where sunlight exposure and long service life are important. It is especially useful when the project requires a PE 63 grade but still needs improved outdoor durability compared to a standard non-UV resin.

Comparable Alternatives

Within the Haldia pipe-grade lineup, P5200 is the closest comparable grade. It is the base PE 63 pipe resin without UV stabilization. If the application is indoor, buried quickly, or has minimal UV exposure, P5200 may be sufficient. If the ducts or pipes will see meaningful sunlight exposure, P5200UV is the better fit because of its HALS+ stabilization and outdoor durability positioning.P5100 is the next upgrade level, positioned for PE 80 pressure pipe applications with a different performance target. Buyers should choose P5100 when medium-pressure performance is required rather than PE 63 duty level.P5300 is the premium alternative, positioned for PE 100 / PE 112 high-pressure pipe applications. It is the right choice when the project requires higher pressure capability and long-term high-duty performance, not just UV resistance.The rationale behind P5200UV is therefore clear: it is the Haldia grade for buyers who need a UV-stabilized PE 63 HDPE resin for telecom ducts and outdoor utility pipes, combining practical extrusion behavior with improved outdoor service life.