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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 MH13 is a polypropylene homopolymer injection molding grade manufactured by ONGC Petro Additions Ltd. under the OPaLene PP brand. Produced using Ineos gas phase polymerization technology, this natural colored high stiffness grade is designed for easy processing, good dimensional stability, and faster molding cycles across household articles, consumer products, and rigid packaging applications. ONGC Petro Additions Ltd. is a major Indian petrochemical manufacturer with an established polypropylene portfolio supported by official technical data sheets and food contact declarations. For buyers searching for OPAL PP Opalene MH13, MH13 PP injection molding grade, high stiffness polypropylene for household articles, or rigid packaging PP homopolymer India, this grade offers a practical balance of flow, stiffness, and molding efficiency for industrial converters.

Product Description

Opalene MH13 is developed for injection molders who need a polypropylene homopolymer grade that delivers structural rigidity without sacrificing processing ease. With a melt flow index of 13.5 g/10 min, MH13 sits in a balanced flow range that supports efficient mold filling while maintaining the stiffness needed for molded consumer and packaging parts. The grade is especially relevant where manufacturers need repeatable part geometry, stable molding behavior, and dependable productivity on commercial injection molding lines. Its high stiffness profile, combined with good dimensional stability and faster molding cycle capability, makes MH13 a strong fit for processors producing household goods, rigid packaging components, and everyday consumer products where part consistency and production efficiency are both critical. OPAL PP Opalene MH13 has a melt flow index of 13.5 g/10 min at 230°C/2.16 kg, giving it a balanced processing profile for injection molding applications that require good mold filling with controlled stiffness. The density of 0.90 g/cm³ is consistent with polypropylene homopolymer identity and supports its use as a rigid molding resin for packaging and consumer applications. From a mechanical perspective, MH13 offers tensile strength at yield of 34 MPa, elongation at yield of 6%, flexural modulus of 1150 MPa, notched Izod impact strength of 20 J/m at 23°C, and Rockwell hardness of R95. This property combination gives molders a useful balance of rigidity, dimensional control, and practical part performance for structural molded products. Thermally, MH13 shows a Vicat softening point of 150°C and heat deflection temperature of 100°C. These values support its suitability in molded applications where thermal resistance and dimensional stability matter during use and processing. The technical strength of MH13 lies in its ability to combine higher flow for easy processing with stiffness and cycle efficiency, making it a commercially strong choice for injection molders selecting a reliable PP homopolymer grade.

Applications

Household Articles

OPAL PP Opalene MH13 is well suited for household articles where manufacturers need a polypropylene homopolymer grade with good stiffness, dimensional stability, and dependable molding behavior. Its balanced flow profile helps support efficient production of molded items that need to retain shape and perform consistently in everyday use.

Consumer Products

For consumer products, MH13 offers a practical mix of rigidity, processability, and surface quality. This makes it relevant for converters producing molded parts that require repeatable geometry, clean finish, and efficient cycle performance. The grade is especially useful where production consistency and structural integrity are important to finished-product quality.

Rigid Packaging

MH13 is a strong option for rigid packaging applications where molders need a high stiffness PP homopolymer with easy processing and good dimensional control. Its flow behavior supports efficient cavity filling, while its stiffness profile helps maintain part shape and functionality in packaging components used at commercial scale.

General Injection Molding Use

Across the broader injection molding segment, MH13 fits buyers looking for a PP grade for household molded products, consumer goods, and rigid packaging containers. Its technical profile makes it especially relevant where molders want a reliable homopolymer resin with balanced flow, faster cycles, and stable part performance.

Comparable Alternatives and Grade Positioning

Within the OPaL portfolio, MH13 occupies a clear position as a high stiffness injection molding grade for household articles, consumer products, and rigid packaging. Compared with MH13A, MH13 is the standard version, while MH13A is more relevant when antistatic performance is specifically required. Buyers should choose based on whether the application needs base high-stiffness molding performance or added handling-related functionality. Compared with MH12N, MH13 is a straightforward high stiffness injection molding grade, while MH12N is more differentiated by its nucleated and antistatic formulation. MH12N is better suited where faster crystallization and reduced dust attraction are important, whereas MH13 is a strong fit when the priority is balanced flow, stiffness, and general-purpose rigid molded part production. Against lower-flow or impact-oriented alternatives such as MI03, MH13 is better aligned to rigid packaging and consumer molded parts rather than high-impact furniture applications. The rationale behind MH13 is clear: it is assigned as a polypropylene homopolymer grade for converters who need easy processing, high stiffness, dimensional stability, and faster molding cycles in mainstream injection molding operations.

OPAL PP Opalene MH55N is a polypropylene homopolymer injection moulding grade manufactured by ONGC Petro Additions Limited (OPaL) under the OPaLene PP portfolio. Produced using Ineos Gas Phase polymerization technology, this natural coloured grade is designed for converters who need very high flow, excellent stiffness, good dimensional stability, and anti-static performance in fast-cycle injection moulding environments. MH55N is positioned as a high flow nucleated PP homopolymer for processors working with thin-wall parts, multi-cavity moulds, high-volume consumer products, housewares, and compounding applications. Its nucleated formulation supports faster crystallization and more stable part formation, while the anti-static property helps reduce dust attraction and improves handling in production and storage.

Manufacturer Snapshot

ONGC Petro Additions Limited (OPaL) is one of India’s major petrochemical manufacturers with a broad polypropylene portfolio serving injection moulding, film, raffia, and specialty industrial applications. OPaLene PP grades are widely used in the Indian plastics market for application-focused performance, dependable product consistency, and regulatory documentation that supports industrial and compliance-sensitive end uses.

Technical Insights and Data Sheet Highlights

OPAL PP Opalene MH55N has a melt flow index of 55 g/10 min, placing it in the very high-flow category for polypropylene homopolymer injection moulding grades. This makes it especially suitable for thin-wall moulding, multi-cavity tools, and applications where fast cavity filling and shorter cycle times are commercially important. The grade has a density of 0.90 g/cm³, consistent with lightweight rigid polypropylene applications. In mechanical performance, MH55N offers 35 MPa tensile strength at yield, giving processors a reliable stiffness-oriented resin for moulded parts that need shape retention and structural stability. Its 15% elongation at break reflects a controlled balance between rigidity and practical handling toughness. For stiffness, MH55N delivers a flexural modulus of 1600 MPa, which is a strong indicator of rigid part performance in consumer products, housewares, and packaging components. Its notched Izod impact strength of 22 J/m at 23°C supports everyday durability, while Rockwell hardness of 100 on the R scale reinforces the hard surface character expected in rigid injection moulded parts. Thermally, MH55N provides a Vicat softening point of 150°C and a heat deflection temperature of 115°C, helping parts retain dimensional integrity under moderate heat exposure. The nucleated nature of the grade improves crystallization speed and dimensional control, while the anti-static additive supports cleaner surfaces and easier downstream handling.

Injection Moulding Performance

MH55N is engineered for processors who need a polypropylene homopolymer that can run efficiently in demanding injection moulding lines. Its very high flow helps fill thin sections quickly, supports multi-cavity productivity, and reduces processing difficulty in complex mould geometries. The nucleated formulation is especially valuable in high-output moulding because it supports faster crystallization and more predictable part dimensions. Combined with anti-static performance, this makes MH55N a practical choice for converters focused on throughput, part consistency, and cleaner handling behavior.

Applications

Consumer Products

OPAL PP Opalene MH55N is well suited for consumer product moulding where fast processing, good stiffness, and stable part quality are required. It can be used in utility items, personal care packaging components, and other high-volume moulded products where production efficiency and rigid performance are key buying factors.

Housewares

For housewares, MH55N offers the combination of high flow, stiffness, and dimensional stability needed for repeat-volume moulding. It is suitable for moulded home-use products such as storage items, kitchen-related articles, organizers, and rigid daily-use plastic components that benefit from fast cycles and reliable shape retention.

Thin-Wall Rigid Packaging

MH55N is particularly relevant for thin-wall rigid packaging because its 55 MFI flow profile supports easy filling of thinner sections and efficient moulding in high-speed production environments. This makes it a strong candidate for rigid packaging components where lightweight design, cycle-time efficiency, and dimensional consistency are important.

Multi-Cavity Moulding

One of the strongest use cases for MH55N is multi-cavity moulding. Its very high flow and nucleated behavior help processors maintain productivity across multiple cavities, improve repeatability, and support better output in commercial moulding operations where speed and consistency directly affect profitability.

Base Resin for Compounding

MH55N also works well as a base resin for compounding applications where processors need a high-flow polypropylene homopolymer for downstream formulation. Its flow profile and stiffness characteristics make it useful for compounders targeting injection moulding applications that require easy processing and rigid end-use performance.

Comparable Alternatives

Within the OPaL injection moulding portfolio, OPAL PP Opalene MH25N is a strong alternative for processors seeking a high-flow clarified grade for transparent containers and medical syringe applications. MH55N, however, is better positioned where very high flow, nucleation, anti-static performance, and multi-cavity productivity are more important than clarity. Compared with OPAL PP Opalene MH23, MH55N offers much higher flow and is better suited for ultra-fast filling, thin-wall packaging, and high-output moulding lines. MH23 remains a strong general-purpose high-flow grade, but MH55N is the better fit when processors need a more productivity-driven resin for demanding tooling conditions. Against OPAL PP Opalene MH13 and MH13A, MH55N is clearly the faster-flow option. MH13 and MH13A are more aligned with stiffness-led injection moulding, with MH13A adding anti-static benefit, while MH55N is assigned to applications where very high flow, nucleation, and multi-cavity efficiency are the main selection drivers.

OPAL PP Opalene RH38 is a polypropylene homopolymer fiber grade manufactured by ONGC Petro Additions Ltd. under the OPaLene PP brand. Produced using Ineos gas phase polymerization technology, this high flow grade is positioned for fine denier fibers, spun bond non-woven, and high speed spinning applications where converters need stable processing, reliable resin uniformity, and commercially consistent output. ONGC Petro Additions Ltd. is one of India’s recognized petrochemical manufacturers with an established polypropylene portfolio supported by official technical data sheets and food contact declarations. For buyers searching for OPAL RH38 supplier India, RH38 PP spunbond grade, or high flow polypropylene homopolymer for nonwoven production, this grade offers a strong combination of processability, fiber-oriented flow behavior, and compliance-backed credibility.

Product Description

Opalene RH38 is developed for processors operating high-speed fiber and nonwoven lines where melt flow, throughput, and consistency directly affect production efficiency. With a melt flow index of 38 g/10 min, RH38 sits in the higher-flow segment of polypropylene homopolymer grades and is especially relevant for spun bond nonwoven structures and fine denier fiber production where smooth extrusion and stable web formation are critical. The grade is designed to support manufacturers who need a PP homopolymer that can perform reliably under demanding spinning conditions without compromising resin consistency. In practical terms, RH38 is best suited for applications where output speed, finer fiber formation, and dependable line behavior matter more than general-purpose molding versatility. This makes it a focused technical choice for nonwoven and fiber processors looking for a specialized raw material rather than a commodity polypropylene grade. OPAL PP Opalene RH38 has a melt flow index of 38 g/10 min, which places it in a distinctly high-flow category for polypropylene homopolymer fiber grades. This higher MFI profile makes the material especially suitable for high speed spinning and spun bond nonwoven production, where controlled melt behavior and efficient conversion are essential for maintaining productivity and product consistency. The density of 0.90 g/cm³ aligns with standard polypropylene homopolymer material identity, while the broader mechanical and thermal profile supports its role in fine denier fiber and nonwoven applications. For manufacturers evaluating PP grades, the technical importance of RH38 lies in how its flow behavior supports finer fiber formation, more efficient line speeds, and smoother processing across demanding nonwoven operations. From a buyer’s perspective, RH38 should be understood as a specialized high-flow PP homopolymer rather than a general-purpose resin. Its technical strength is in supporting applications where throughput, fiber fineness, and process stability are commercially critical. That makes it particularly relevant for processors selecting raw material for spun bond nonwoven production, high speed spinning lines, and fine denier fiber output.

Applications

Spun Bond Nonwoven

OPAL PP Opalene RH38 is strongly positioned for spun bond non-woven applications where processors need a high flow polypropylene homopolymer capable of supporting stable web formation and efficient line performance. Its flow profile makes it suitable for nonwoven manufacturers serving hygiene, medical, industrial, packaging, and filtration-related segments where consistency and throughput are key purchasing factors.

Fine Denier Fibers

For fine denier fiber production, RH38 offers the kind of high-flow behavior that helps processors target finer output with more dependable conversion performance. This makes it relevant in applications where fiber fineness, uniformity, and smooth processing are important to downstream quality and commercial acceptance.

High Speed Spinning

RH38 is also a suitable choice for high speed spinning environments where ordinary PP grades may not deliver the same level of flow efficiency. In these operations, the grade supports faster processing conditions and helps manufacturers maintain line stability while targeting high-output production schedules.

Fiber and Nonwoven Manufacturing

Across the broader fiber and nonwoven sector, RH38 fits buyers looking for a PP grade for spunbond nonwoven, polypropylene for fine denier fibers, and high flow PP homopolymer for industrial textile conversion. Its application profile makes it especially useful where production speed, resin consistency, and process control are central to grade selection.

Comparable Alternatives

Within the OPaL portfolio, RH38 is the more aggressive high-flow option when compared with RH25X and RH22U. RH25X, with its 25 MFI positioning, is better suited for multi filament yarns, fine denier staple fibers, and spun bond non-woven applications where a more balanced fiber-grade profile is preferred. RH38, by contrast, is the stronger choice when higher flow and high speed spinning performance are the main requirements. Compared with RH22U, RH38 is less about UV stabilization and anti-gas fading and more about processing speed and spunbond-oriented conversion. RH22U is broader in its positioning across continuous filament, staple fibers, and selected molded applications, while RH38 is more tightly aligned to processors prioritizing fine denier fibers and high-speed nonwoven production. The rationale behind RH38 is clear: it is assigned as a high flow polypropylene homopolymer for converters who need faster spinning, finer fiber capability, and stronger suitability for spun bond nonwoven manufacturing. For Indian buyers comparing OPaL grades, RH38 should be selected when the application is driven by line speed and nonwoven efficiency rather than broader fiber versatility or stabilization-focused performance.