We are Creative, motivated and innovative. Hdpe бензин


HDPE,LDPE,LLDPE,PP,Plastic Granules Manufacturer,Iran Petrochemical Co

What is a Polymer?

A polymer is a large molecule, or macromolecule, composed of many repeated and long chain subunits. Human DNA is a polymer with over 20 billion constituent atoms. Proteins (made up of amino acids), anything plastic and many other molecules that make up life are polymers.

Polymer Types

There are two types of polymers that play an essential role in everyday life:

  • Synthetic: Synthetic polymers are derived from petroleum oil that made by human(scientists and engineers) including thermoplastics, thermosets, elastomers
  • Natural: Natural polymers occur in nature and can be extracted. They are often water-based including silk, wool, DNA, cellulose and proteins.

What is a thermoplastic?

A thermoplastic is a type of plastic made from polymer resin that becomes a homogenized liquid when heated and hard when cooled. Thermoplastic materials can be cooled and heated several times. Thermoplastics have wide ranging properties. Depending upon their chemistry they can be very much like rubber, or as strong as aluminum.  There are various kinds of thermoplastics, with each type varying in crystalline organization and density that the most common products are including Polyethylene (PE), polypropylene (PP) and etc.

What is a Polyethylene (PE)?

Polyethylene is the most common plastic with annual consumption rates exceeding 50 billion pounds per year. Polyethylene is a polyolefin (high molecular weight hydrocarbons) that we use its most in our daily life including: grocery bags, shampoo bottles, children's toys, shopping bags , detergent bottles ,automobile fuel tanks and etc. PE is widely properties depend on the degree of branching of the chain. PE can be produced in two commercial types that are available:

  • high density (HDPE)
  • linear low-density polyethylene (LLDPE)

    Iran Petrochemical Co HDPE, LLDPE, PP

1. Iran Petrochemical Co High Density Polyethylene (HDPE)

What is a HDPE?

High-density polyethylene (HDPE) is one of the most commonly used plastics in across the world. Iran HDPE is a polyethylene thermoplastic made from petroleum and its recycling code is 2. (#2 plastic Label)

Iran HDPE Special Features

  • HDPE plastic has several properties that make it ideal as a packaging and manufacturing product. It’s stronger than standard polyethylene, acts as an effective barrier against moisture and remains solid at room temperature. It resists insects, rot and other chemicals.
  • HDPE melting point more than 20 °C (36 °F) higher than LDPE, it can withstand repeated exposure to 120 °C (250 °F) so that it can be sterilized.
  • Good impact resistance, light weight, very low moisture absorption, and high tensile strength.
  • Good chemical resistance and high rigidity make it a good choice for trays and tanks.

Iran HDPE Uses

Iran HDPE is used to create sturdy products like PE pipe , blow-molded bottles for milk and household cleaners; blow-extruded grocery bags, construction film, and agricultural mulch; and injection-molded pails, caps, appliance housings, and toys. It is also typically found in milk jugs, plastic bags and refillable plastic bottles. In addition to plastic lumber and recycled plastic furniture, recycled HDPE is used to buckets, crates, office products and automobile parts.

2. Iran Petrochemical Co Linear Low Density Polyethylene (LLDPE)

What is a LLDPE?

Linear Low Density Polyethylene (LLDPE) is a linear polymer (polyethylene) that is a thermoplastic made from the copolymer of ethylene and another longer olefin. Iran LLDPE has a significant number of short branches so they can slide against each other upon elongation without becoming entangled .It is marked with the resin and its recycling code is 4. (#4)

Iran LLDPE Special Features

  • LLDPE is a very flexible material. Its melting point is approximately 110 °C (230 °F).
  • Excellent resistance to acids, bases and vegetable oils Dilute
  • High tough, flexibility, relative transparency and almost unbreakable.
  • is a cheap polymer with widely favorable mechanical and chemical resistance properties. Tubing made from it is broadly used, particularly for water, chemicals and gases. This plastic is a highly stable with low toxicity. In fact, many grades can even be used for food-contact and medical applications.

Iran LLDPE Uses

Principal uses are in packaging film, trash and grocery bags, agricultural mulch, wire and cable insulation, squeeze bottles, toys, housewares, high frequency insulation, chemical tank or canal linings, heavy duty sacks, potable water reservoirs, Floating Covers, storage tanks.

3. Iran Petrochemical Co Polypropylene (PP)

What is a PP?

Polypropylene (PP) is the second thermoplastic polymer used in a wide variety of applications such as packaging, labeling, textiles and also use it as a fiber-type plastic. Polypropylene is one type of plastic that is used for a number of different products, due to its wide variety of properties.

Iran PP Special Features

  • High melting degree: Its melting point is of 320 degrees F.
  • Add various colors to it without degrading the quality of the plastic.
  • Add strength and durability to its products
  • Excellence moisture resistance
  • Be lightweight and very flexible so it is not as strong as other plastics such as polyethylene.
  • Low cost

Iran PP Uses

Iran Petrochemical Co PP is versatile so its uses are numerous. They are including:Plastic parts (from toys to automobile products), Carpeting, Recycled products, Paper, Technology, Laboratory equipment and etc.

hdpe-ldpe.com

HDPE

Üretici Ürün Açıklama MFI Ürün Bilgileri MSDS SABIC B5429 1-30 litre için uygun şişirmelik, yüksek yoğunluklu PE 0,3 SABIC BM 1052 30 litre ve üzeri için uygun şişirmelik, yüksek yoğunluklu PE 0,05 SABIC F00952 Şişirme film, yüksek yoğunluklu PE 0,05 SABIC CC453 Enjeksiyonluk, organoleptik yüksek yoğunluklu PE 4,4 SABIC PCG40053 Enjeksiyonluk, medikal grade yüksek yoğunluklu PE 4,7 SABIC M200056 Enjeksiyonluk, yüksek yoğunluklu PE 20 SABIC M80064 Enjeksiyonluk, medikal grade yüksek yoğunluklu PE 8 SABIC M80064S Enjeksiyonluk, UV katkılı yüksek yoğunluklu PE 8 SABIC M40060 Enjeksiyonluk, yüksek yoğunluklu PE 4   SABIC M40060S Enjeksiyonluk, UV katkılı yüksek yoğunluklu PE 4 LYONDELLBASELL HOSTALEN ACP 5831D 1-30 litre için uygun şişirmelik, yüksek yoğunluk PE 0,25   CHEVRONPHILLIPS HXM 50100P   10.0 g/10 min CHEVRON PHLILIPS HHM 5502BM Require excellent stiffness   MARLEX HHM TR-144 Toughness and durability Good processability     PETRONAS HD 5301AA Excellent impact and toughness properties     LG CHEM  LUCENE SM800VQ LUCENE SM800VQ* is mainly intended for injection molding.     UNIPETROL LİTEN ML71 LITEN ML 71 is a homopolymer wit 7,2 - 9,2   MARLEX HHM TR-131 Good toughness, impact strength and tear resistance  0.20 g/10 min   SABIC  P6006 BLACK

resin specifically

designed for Pipe

Extrusion.

0,22-6.4   SABIC P6006AD   0,23-6.4   LOTTE  7000F 7000F is manufactured to be processed in conventional blown film equipment by CSTR Slurry process technology.

0.035

g/10min

 

www.marmarapolimer.com.tr

Difference Between HDPE and LDPE

Key Difference – HDPE vs LDPE  

Though HDPE and LDPE are two categories of Polyethylene, some differences can be observed between them based on their mechanical properties. Polyethylene is a mixture of similar organic compounds which have the chemical formula of (C2h5)n. Polyethylene is categorized into numerous different groups based mainly on its density and branching. With regard to demands and supply, the most important polyethylene grades are HDPE and LDPE. The High-density Polyethylene (HDPE) and Low-density Polyethylene (LDPE) have different mechanical properties such as the crystal structure, the magnitude and nature of branching and the molecular weight. In other words, HDPE and LDPE are considered as the contrasting ends of the plastics applications spectrum.  The key difference between HDPE and LDPE is the density or the manner in which the polymer molecules align. HDPE polymers are straighter and closely packed together whereas LDPE polymers have lots of branches, and they are not closely packed. Based on the molecular structure each type of plastic has its own physical and chemical characteristics. In this article, let’s elaborate what are the differences between HDPE and LDPE.

What is High Density Polyethylene (HDPE)?

HDPE is well-defined by a density of larger or equal to 0.941 g/cm3. It has a liner polymer and lower degree of branching. This  results in molecules to be packed closer and intermolecular bonds are stronger than in highly branched polymers such as LDPE. The absence of branching also results in a higher density and somewhat higher chemical resistance than LDPE. With a high tensile strength, HDPE is used in products like garbage containers, baby toys, water pipes, jugs and jars as well as packagings such as milk jugs, butter tubs, and detergent bottles. HDPE is also more durable and more opaque and can tolerate higher temperatures mainly compared to LDPE. Industrially, HDPE is synthesized from ethylene by a catalytic procedure.

What is Low Density Polyethylene (LDPE)?

LDPE is well-defined by a density range of 0.91–0.94g/cm3. A branched polymer, LDPE is synthesized from ethylene by a catalytic procedure. The more branching nature results in molecules packing irregularly and intermolecular bonds are weaker than in highly linear polymers such as HDPE. With a low tensile strength, LDPE is used in products like plastic bags and film wrap as well as packagings such as water bottles, food storage containers, dispensing bottles and plastic tubs. LDPE is also more flexible and more transparent and cannot tolerate higher temperatures mainly compared to HDPE.

What is the difference between HDPE and LDPE?

HDPE and LDPE may have significantly different physical and functional characteristics. These can be categorized into following subgroups,

Polymer Resin Abbreviation

HDPE: HDPE is High density polyethylene

LDPE: LDPE is Low density polyethylene

Structure (Presence of branches)

HDPE: It has a linear structure. Therefore, it can be compressed, and it is less flexible and stronger (Figure 1)

LDPE: It has lots of branches. Therefore, it is hard to compress, and it is lightweight and flexible (Figure 1)

Crystalline and Amorphous Regions

HDPE: HDPE has high crystalline and low amorphous regions (more than 90% crystalline). It contains several side chains per 200 carbon atoms in the main carbon skeleton leading to long linear chains. As a result, closely packing and high crystallinity can be observed (Figure 1).

LDPE: LDPE has low crystalline and high amorphous regions (less than 50-60% crystalline). It contains less than 1 side chain per 2-4 carbon atoms in the main carbon skeleton leading to branching. As a result, irregular packing and low crystallinity can be observed (Figure 1).

Tensile Strength and Intermolecular Forces

HDPE: HDPE has stronger intermolecular forces and tensile strength than LDPE.  Tensile strength is 4550 psi.

LDPE: LDPE has weaker intermolecular forces and tensile strength than HDPE.

Melting Point

HDPE: 135°C (higher melting point compared to LDPE)

LDPE: 115°C (Lower melting point compared to HDPE)

Plastic resin codes

HDPE: HDPE is usually recycled, and resin identification code (also known as recycling symbol) is the number 2 (See figure 2).

LDPE: LDPE is usually recycled, and resin identification code (also known as recycling symbol) is the number 4 (See figure 2).Density

HDPE: The density can range from 0.95- .97 g/cm3. The density is higher than that of LDPE.

LDPE: The density can range from 0.91-0.94 g/cm3. The density is lower than that of HDPE.

Specific Gravity

HDPE: Specific gravity is 0.95. The specific gravity is higher than that of LDPE.

LDPE: Specific gravity is 0.92. The specific gravity is lower than that of HDPE.

Chemical Properties

HDPE: HDPE is chemically inert, and resistant ultraviolet rays compare to LDPE.

LDPE: LDPE is less chemically inert and when exposure to light and oxygen results in loss of strength.

Transparency

HDPE: HDPE is less transparent or more opaque than LDPE.

LDPE: LDPE is more transparent or less opaque than HDPE.

Strength

HDPE: It is stronger and harder than LDPE.

LDPE: It is less strong and weaker than HDPE.

Flexibility

HDPE: It is more rigid than LDPE

LDPE: It is more flexible than HDPE

General applications

HDPE: Shampoo bottles, food storage containers, laundry and house cleaning bottles, shipping containers, milk, water, and juice jugs, detergent bottles, grocery bags, recycling bins, water pipes

LDPE: Bags for dry cleaning and newspapers, shrink wrap, films, squeezable bottles (honey/mustard), bread bags, garbage bags

In conclusion, HDPE and LDPE are different grades of polyethylene and the key difference between them is the alignment of the polymer molecules. As a result, they may have substantially different physical properties and different applications.

 

References A Guide to IUPAC Nomenclature of Organic Compounds (Recommendations 1993) IUPAC, Commission on Nomenclature of Organic Chemistry. Blackwell Scientific Publications. (1993). ISBN 0632037024. Hubert, L., David, L., Seguela, R., Vigier, G., Corfias-Zuccalli, C. and Germain, Y. (2001). Physical and mechanical properties of polyethylene for pipes in relation to molecular architecture, microstructure and crystallisation kinetics. Journal of Applied Polymer Science, 42, 8425-8434. Kahovec, J., Fox, R. B. and Hatada, K. (2002). Nomenclature of regular single-strand organic polymers (IUPAC Recommendations 2002). Pure and Applied Chemistry, 74 (10): 1921. United States Plastic Corporation: What Are the Differences Between HDPE, LDPE, XLPE, LLDPE, and UHMWPE?   Image Courtesy: “Multi-use water bottle” by Amraepowell – Own work.  (CC BY-SA 3.0) via Commons “Recyclables” by Streetwise Cycle – Own work. (Public Domain) via Commons 

Cite This Page"Difference Between HDPE and LDPE." DifferenceBetween.Com. September 15, 2015.

www.differencebetween.com

HDPE vs LLDPE vs LDPE

Which is the most flexible of them all?

Linear Low Density Polyethylene (LLDPE) is the most flexible of the plastic sheeting films. LLDPE is blended form of LDPE where the film has much more flexibility, tensile strength, and more conformability. It is more pliable and softer. LLDPE is used for pond liners or blended into other films to give them more flexibility and extra strength. LLDPE is used for films that need a tremendous amount of strength to absorb impacts while not tearing or puncturing. An example of this is a carpet plastic film that adheres to the carpet. It is strong enough to withstand foot traffic, even from stiletto high heels! The molecules all line up and strongly hold together as the film is stretched. The most common thickness range is from 0.5 mil to 40 mil in flexible plastic sheeting.

Which is the most common of them all?

Low Density Polyethylene (LDPE) is the most common type of plastic sheeting. It is very flexible, most often from 0.5 mil thick to about 40 mil in flexible sheeting forms. Due to its flexibility is conforms well to a variety of surfaces. The downside is that this LDPE is not as strong or dense as some other types of plastic sheeting. It is not nearly as puncture resistant either. LDPE is used quite widely in construction, agriculture, surface protection applications, covers of all sorts, tarps and much more.

Which is least commonly used of them all?

Medium Density Polyethylene (MDPE) is the least commonly used form of polyethylene for flexible plastic sheeting. Its positive attributes is that it is stronger than LDPE and has a little more chemical resistant. It has a tighter cell structure making it more tear and puncture resistant. When pond liners are manufactured they are often made with MDPE and blended with LDPE or LLDPE to achieve a strong yet flexible pond liner.

Which is the toughest of them all?

High Density Polyethylene (HDPE, aka HD), has the distinction of being the strongest, toughest, most chemical resistant and least flexible of the four types of flexible plastic sheeting referenced in this article. HDPE is also the most UV resistant- holding up to the harsh rays of the sun without needing UV additive packages. HDPE’s strength comes from its tight cell structure that makes it very difficult for other molecules to pass through its structure on a microscopic level. When applications call for very large liners such as pond liners, HDPE is the most easily seamed or “sewn” together. Used industrially, the thickness range from 12 mils to100 mil thick. HDPE is used as secondary containment liners for oil tanks, and most industrial ponds and canal liners where chemical resistance is needed.

In conclusion, who is the fairest of them all?  That all depends on your application!  Gratefully there are many more types of plastic sheeting products to do all sort of thing to protect the surface or project it is intended for.  Take a look around our website, and you will see some of the choices available to you.  We haven't listed all our products- there's just too many.

Click here to visit our home page and a listing of our products, and/or call 866.597.9298 to share your thoughts.

 

Polymer

Flexibility

Color

Impact Strength

Chemical resistance

Water

Vapor barrier

Gas

Barrier

Stress

Crack

Impact

Resistance

Density

HDPE

Flexible but more rigid than LDPE

Natural color is milky white, semi-translucent depending on density

Good

Good

Good

Poor

Good

 

0.963

LDPE

Very Flexible

 natural milky color, translucent

High

Good

Good

Poor

Good

Good

 0.910–0.940 g/cm3

LLDPE

Very Flexible

natural milky color, translucent

High

Good

Good

Poor

Good

Good

0.93

Polypropylene

Rigid  for containers

Opaque, natural grayish

yellow in natural form.

 

Good

Excellent

Poor

Excellent

Excellent

0.905 g/cm3

Polyvinyl Chloride- PVC

Flexible to Rigid

Transparent to yellowish color in natural state

Low

Good

Good

 

Some

 

1.35 -1.45

MDPE

Good

Translucent

Good

Excellent

 

Poor

Average

Good

0.926-0.940 g/cm3

www.globalplasticsheeting.com

Difference Between PP and HDPE

PP vs HDPE

PP“PP” stands for “polypropylene.” It is also referred to as polypropene. PP is a thermoplastic polymer which is made from a monomer called propylene. It is very resistant to acids, bases, and chemical solvents and used for producing textiles, packaging, stationary, components of automobiles, reusable containers, etc.Properties

PP has crystallinity intermediate to LDPE, low-density polyethylene, and HDPE, high-density polyethylene. Most of the commercial polypropene is isotactic. PP is flexible and tough when copolymerized with ethylene. This property allows it to be used for engineering plastic.Generally, it is opaque and colored. When uncolored, it can be translucent but not easily made transparent. It is fatigue resistant to a very high degree.Isotactic PP melts at 171 degree Celsius; commercial PP melts at a range starting from 160 degrees to 166 degrees Celsius.PP degrades from exposure to UV radiation and heat, as in sunlight. When degrading, it shows a crisscross of cracks which become deeper with repeated exposure. This is due to the formation of carboxylic acids and aldehydes.

Manufacturing

Molding and extrusion methods are used to melt the polypropylene. They help in the production of spun-bond and melt-blown fibers. The shaping technique used is called injected molding. Some techniques like injection-stretch and blow molding are also used.

Applications

Different manufacturing methods result in different products for use. Some applications are: filters, nappies, face masks, cups, containers, automotive parts, batteries, housewares, etc.

HDPE

“HDPE” stands for “high-density polyethylene” or PEHD, polyethylene high-density. HDPE is polyethylene thermoplastic which is made by using petroleum.

Properties

HDPE has more tensile strength and intermolecular force than LDPE. This strength is due to the little branching it has at its molecular level.

It has a specific strength which is increased because the difference in density is exceeded by the difference in density.

It is very hard and opaque.

It can withstand very high temperatures up to 110 degrees Celsius continuously and, for shorter spans of time, temperatures as high as 120 degrees Celsius.

It cannot withstand autoclaving conditions.

HDPE is resistant to a variety of solvents.

Manufacturing

It is made by a catalytic polymerization of ethylene. Polymerization is done either in suspension, gas, or solution-phase reactors. To reduce the branching, comonomers are added to HDPE at lower levels. These comonomers are butane, octane, and hexane.

Applications

HDPE has varied applications like the pyrotechnics trade, wood plastic composites, composite wood, in landfills as a cell lining, water pipes, backpacking frames, housewares, piping systems which are chemical resistant, steel pipes that are protected by corrosion linings, containers, plastic surgery applications, natural gas pipes, etc.

Summary:

1.“PP” stands for “polypropylene” and “polypropene”; “HDPE” stands for “high-density polyethylene.”2.It is made from propylene; HDPE is made from petroleum.3.The crystallinity of PP is less than HDPE.4.The melting range of PP is 160-166 degrees Celsius; HDPE can withstand temperatures as high as 120 degrees Celsius.5.Molding and extrusion methods are used along with blow molding for its manufacturing. HDPE is manufactured by polymerization and comonomers are added to reduce branching.6.They have varied applications.

: If you like this article or our site. Please spread the word. Share it with your friends/family.

CiteNimisha Kaushik. "Difference Between PP and HDPE." DifferenceBetween.net. July 24, 2011 .

www.differencebetween.net

HDPE | SCG Chemicals

F15 0.952 0.06 -

Description

EL-Lene™ F15 is a high density polyethylene resin which provides high tensile strength and high productivity.

Related Finished Products

Film produced by high speed machine and wide lay flat (>25")

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.952
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.06
Tensile strength at Break(kg/cm2) ASTM D 882 MD 910, TD 380
h2000P - - -

Description

EL-Lene™ h2000P is a natural, bimodal technology, high density polyethylene designed as a general base resin of colour compound for pipe and stripe.

Related Finished Products

Drinking water pipe and stripe lines for PE100

Properties Test Methods Value
Density (g/cm3) (ISO 1183) ISO 1183 0.951
Melt Index at 190 °C and 5.0 kg (g/10 min) ISO 1133 ASTM D1238 0.21
h2000PBL - - -

Description

EL-Lene™ h2000PBL is a blue (no lighter than RAL 5005), bimodal, high density polyethylene compound that is specially designed for water pressure pipes, especially for drinking water pipes. It is designed as PE100 pipes providing excellent in mechanical properties and processablitiy. Well dispersed UV stabilizer and anti-oxidant which also provide outstanding UV resistance and high thermal stability for long term use.

Related Finished Products

Drinking water pipe and stripe lines for PE100

Properties Test Methods Value
Density (g/cm3) (ISO 1183) ISO 1183 0.951
Melt Index at 190 °C and 5.0 kg (g/10 min) ISO 1133 ASTM D1238 0.27
h2000PC - - -

Description

EL-Lene™ h2000PC is a black, bimodal technology, high density polyethylene compound classified as a MRS 10.0 material (PE100) providing superior in mechanical properties and processablity. In addition, it includes a good dispersion of carbon black pigment and anti-oxidant to ensure excellent long term in UV resistance and thermal stability.

Related Finished Products

Drinking water, gas, mining, industrial, corrugated pipes

Properties Test Methods Value
Density (g/cm3) (ISO 1183) ISO 1183 0.96
Melt Index at 190 °C and 5.0 kg (g/10 min) ISO 1133 ASTM D1238 0.25
h2000PCI - - -

Description

EL-Lene™ h2000PCI is a black, bimodal technology, high density polyethylene compound designed for injection molding fitting. It includes a good dispersion of carbon black pigment and anti-oxidant to ensure excellent long term in UV resistance and thermal stability.

Related Finished Products

Injection grade for butt-fusion and electrofusion fittings

Properties Test Methods Value
Density (g/cm3) (ISO 1183) ISO 1183 0.96
Melt Index at 190 °C and 5.0 kg (g/10 min) ISO 1133 ASTM D1238 0.4
h2000PWI - - -

Description

EL-Lene™ h2000PWI is a white HDPE compound using bimodal technology to provide superior mechanical properties, processablity, and low heat absorption. In addition, it has UV stabilizer and anti-oxidant package which combined with good dispersion of the white pigment results in excellent long term UV resistance and thermal stability.

Related Finished Products

Low heat absorption grade. Exernal coating for above ground pipe

Properties Test Methods Value
Density (g/cm3) (ISO 1183) ISO 1183 0.972
Melt Index at 190 °C and 5.0 kg (g/10 min) ISO 1133 ASTM D1238 0.25
h2000PYL - - -

Description

EL-Lene™ h2000PYL is a yellow (no lighter than RAL 1033), bimodal technology, high density polyethylene compound that is specially designed for striping. EL-Lene h2000PYL consists of high UV stabilizer and anti-oxidant which are well dispersed and provides outstanding UVresistance and high thermal stability for long term using.

Related Finished Products

External coating grade and stripe lines for PE100

h203S 0.962 18 - -

Description

EL-Lene™ h203S is a high density polyethylene resin which provides very low gel, softness and anti gas-fading.

Related Finished Products

Hygiene products such as baby diapers, sanitary napkins and softness non-woven

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.962
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 18
h212PC - - -

Description

EL-Lene™ h212PC is a black high density polyethylene compound producing from high selective catalyst in the precise process control system, bimodal technology.It is classified as a MRS 11.2 material (PE112) which provides superior long - term hydro static strength balancing with high slow crack growth and rapid crack propagation resistance. It has been designed for better safety factor in long-term use. Besides, it can be produced in all range of pipe diameters, recommended for the production of very thick wall and large diameter pipe.

Related Finished Products

Drinking water, gas, industrial, slurry, minning pipes

Properties Test Methods Value
Density (g/cm3) (ISO 1183) ISO 1183 0.959
Melt Index at 190 °C and 5.0 kg (g/10 min) ISO 1133 ASTM D1238 0.2
h3001WC 0.963 0.13 -

Description

EL-Lene™ h3001WC is a black bimodal high density polyethylene compound for jacketing in fiber optic and power cable applications. It contains well-dispersed carbon black of nominal particle size less than 20 nanometer to provide excellent weathering resistance and UV resistance.

Related Finished Products

Jacketing of fiber optic cables, Jacketing of power cables

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.963
Elongation at break (%) ASTM D 638 @ Crosshead speed 50 mm/min 840
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.13
Tensile at break (Mpa) ASTM D 638 @ Crosshead speed 50 mm/min 34
h455JA 0.961 7.5 -

Description

EL-Lene™ h455JA is a high density polyethylene resin with good processability, mechanical property, and excellent organoleptic property. It is particularly designed for injection molding and continuous compression molding of caps and closures for the beverage packaging, especially for lightweight cap design.

Related Finished Products

Caps and closures for still and mineral water, juice, tea, and hot-filled beverages

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.961
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 7.5
h477C 0.961 7.5 -

Description

EL-Lene™ h477C is a bi-modal high density polyethylene resin for film casting and extrusion.

Related Finished Products

Extrusion coating, lamination or casting for various packaging (for blending with LDPE and LLDPE)

Properties Test Methods Value
Brittleness Temperature (°C) ASTM D 746
Dart Impact Strength (g) -
Density (g/cm3) ASTM D 1505 0.961
Elemendoft Tear Strength (g) ASTM D 1922 MD 24, TD 27
Gloss (%) ASTM D 2457 79
Haze (%) ASTM D 1003 9
Melt flow rate at 190 °C, 2.16 kg. (g/10 min) ASTM D 1238
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 7.5
Tensile Modulus, 2% Secant(kg/cm2) ASTM D 882 MD3981, TD4769
Tensile strength at Break(kg/cm2) ASTM D 882 MD 245, TD 290
Tensile Strength at Yield(kg/cm2) ASTM D 638 @ Crosshead speed 50 mm/min MD 234, TD 255
Thickness (micron) - 30
VICAT Softening Temperature (°C) ASTM D 1525 127
h555JA 0.958 4.5 -

Description

EL-Lene™ h555JA is a high density polyethylene resin with good processability, mechanical property, and excellent organoleptic property. It is particularly designed for injection molding and continuous compression molding of caps and closures for the beverage packaging.

Related Finished Products

Caps and closures for still and mineral water, juice, and tea

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.958
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 4.5
H511W 0.949 0.9 -

Description

EL-Lene™ H511W is a high density polyethylene resin for solid insulation in cable application. It is also suitable for outer skin in "foam-skin" constructions. It provides good performance across the full range of tele-communication insulation applications, including aircore and petroleum jelly filled cable designs in both buried and aerial environments.

Related Finished Products

Insulation of communication cables

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.949
Elongation at break (%) ASTM D 638 @ Crosshead speed 50 mm/min 600
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.9
Tensile at break (Mpa) ASTM D 638 @ Crosshead speed 50 mm/min 34
H5211P - - -

Description

EL-Lene™ H5211P is a natural, bimodal technology, high density polyethylene resin designed as a general base resin of colour compound for pipe and stripe.

Related Finished Products

Drinking water pipe and stripe lines for PE80

Properties Test Methods Value
Density (g/cm3) (ISO 1183) ISO 1183 0.95
Melt Index at 190 °C and 5.0 kg (g/10 min) ISO 1133 ASTM D1238 0.4
H5211PBL - - -

Description

EL-Lene™ H5211PBL is a light blue (no darker than RAL 5012), bimodal technology, high density polyethylene compound that is specially designed for striping. It consists of high UV stabilizer and anti-oxidant which are well dispersed and provides outstanding UV resistance and high thermal stability for long term use.

Related Finished Products

Drinking water pipe and stripe lines for PE80

Properties Test Methods Value
Density (g/cm3) (ISO 1183) ISO 1183 0.95
Melt Index at 190 °C and 5.0 kg (g/10 min) ISO 1133 ASTM D1238 0.4
H5211PC - - -

Description

EL-Lene™ H5211PC is a black, bimodal technology, high density polyethylene compound classified as a MRS 8.0 material (PE80) providing superior in mechanical properties and processablity. In addition, it includes a good dispersion of carbon black pigment and anti-oxidant to ensure excellent long term in UV resistance and thermal stability.

Related Finished Products

Drinking water, gas, conduit, corrugated pipes

Properties Test Methods Value
Density (g/cm3) (ISO 1183) ISO 1183 0.96
Melt Index at 190 °C and 5.0 kg (g/10 min) ISO 1133 ASTM D1238 0.4
H5211PYL - - - -

Description

EL-Lene™ H5211PYL is a yellow (no darker than RAL 1018), bimodal technology, high density polyethylene compound that is specially designed for striping. It consists of high UV stabilizer and anti-oxidant which are well dispersed and provides outstanding UV resistance and high thermal stability for long term use.

Related Finished Products

External coating grade and stripe lines for PE80

H5480S 0.952 0.8 -

Description

EL-Lene™ H5480S is a high density polyethylene resin which provides high tenacity, good weathering, and easy processing.

Related Finished Products

Net & ropes, sun shading, tarpulin, and woven bag

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.952
Flexural Modulus (kg/cm2) ASTM D 790 10000
IZOD 23 °C (kg.cm/cm) ASTM D 256 17
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.8
H555J 0.953 1.8 -

Description

EL-Lene™ H555J is a high density polyethylene resin with good environmental stress cracking resistance, good processing performance, and organoleptic property. It is particularly designed for injection molding and continuous compression molding of beverage caps and closures. Also, slip agent is contained to ensure easy-to-open.

Related Finished Products

Caps and closures for carbonated soft drinks and hot fill beverages

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.953
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 1.8
H555JA 0.953 1.8 -

Description

EL-Lene™ H555JA is a high density polyethylene resin with good environmental stress cracking resistance, good processing performance, organoleptic property. It is particularly designed for injection molding and continuous compression molding of beverage caps and closures.

Related Finished Products

Caps and closures for carbonated soft drinks, hot fill beverages and water

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.953
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 1.8
H5604F 0.954 0.04 -

Description

EL-Lene™ H5604F is a high density polyethylene resin which provides high tensile strength.

Related Finished Products

General film

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.954
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.04
Tensile strength at Break(kg/cm2) ASTM D 882 MD 620, TD 310
H567J 0.952 1 -

Description

EL-Lene™ H567J is a high density polyethylene resin with excellent processing performance and mechanical properties, especially for environmental stress cracking resistance. It is particularly designed for injection molding and continuous compression molding of beverage caps and closures. It also contains slip agent ensuring easy opening.

Related Finished Products

Caps and closures for carbonated soft drinks and hot fill beverages

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.952
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 1
H567JA 0.952 1 -

Description

EL-Lene™ H567JA is a high density polyethylene resin with excellent processing performance and mechanical properties, especially for environmental stress cracking resistance. It is particularly designed for injection molding and continuous compression molding of beverage caps and closures.

Related Finished Products

Caps and closures for carbonated soft drinks and hot fill beverages

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.952
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 1
H568JA 0.956 0.8 - - -

Description

H568JA is high density polyethylene resin with excellent environmental stress cracking resistance and good mechanical property

balance. It is particularly designed for light-weight carbonated soft drink caps. This resin have excellent processability for both

injection molding and continuous compression molding.

Related Finished Products

Beverage caps and closures : Carbonated soft drink, Sparkling water

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.956
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.8
H5814J 0.958 - - -

Description

EL-LeneTM H5814J is a general purpose high density polyethylene resin suitable for using in injection molding process, this good flow ability grade designed for high productivity with good toughness product.

Related Finished Products

  • General injection parts
  • Household product
  • Bottle cap and closure
  • Toy
Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.958
Flexural Modulus (kg/cm2) ASTM D 790 12,500
Melt flow rate at 190 °C, 2.16 kg. (g/10 min) ASTM D 1238 14
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238
H5840B 0.955 0.4 -

Description

EL-Lene™ H5840B is a high density polyethylene resin which provides excellent ESCR, good surface appearance, good processability and good printability.

Related Finished Products

Chemical bottles, personal and homecare bottles, lube oil bottles

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.955
Flexural Modulus (Mpa) ASTM D 790 12000
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.4
H6140B 0.960 0.3 -

Description

EL-Lene™ H6140B is a high density polyethylene resin which provides excellent surface appearance, good impact strength, processability and printability.

Related Finished Products

Personal and homecare bottles, lube oil bottles.

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.960
Flexural Modulus (Mpa) ASTM D 790 13000
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.3
H619F 0.965 0.7 -

Description

EL-LeneTM H619F is a high stiff homopolymer HDPE designed to improve film stiffness and barrier properties when co-extruded with LLDPE & LDPE. It also provides good film clarity and processability when used in the core layer with an excellent compatibility with LLDPE & LDPE.

Properties Test Methods Value
Dart Impact Strength (g) -
Density (g/cm3) ASTM D 1505 0.965
Elemendoft Tear Strength (g) ASTM D 1922 MD 7, TD 495
Melt flow rate at 190 °C, 2.16 kg. (g/10 min) ASTM D 1238
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.7
Tensile Modulus, 2% Secant(kg/cm2) ASTM D 882 MD8300, TD10100
Tensile strength at Break(kg/cm2) ASTM D 882 MD 470, TD 330
Thickness (micron) - 25
VICAT Softening Temperature (°C) ASTM D 1525 127
H6430BM 0.964 0.4 -

Description

EL-Lene™ H6430BM is a high density polyethylene resin which provides excellent stiffness, odorless, good processability, and printability.

Related Finished Products

Drinking water bottles, milk bottles

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.964
Flexural Modulus (Mpa) ASTM D 790 15000
IZOD - 25
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.4
H655JA 0.955 0.4 -

Description

EL-Lene™ H655JA is a high density polyethylene resin with good processing performance and excellent mechanical properties. It is particularly designed for injection molding and continuous compression molding of beverage caps and closures.

Related Finished Products

Caps and closures for carbonated soft drinks

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.955
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 0.4
H6670B 0.965 -

Description

EL-Lene™ H6670B is a high density polyethylene resin which provides good flowability, excellent stiffness, odorless, and good printability.

Related Finished Products

Milk bottles, juice bottles.

Properties Test Methods Value
Density (g/cm3) ASTM D 1505 0.965
Flexural Modulus (Mpa) ASTM D 790 15000
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238
Melt Index at 230 °C and 2.16 kg (g/10 min) ASTM D1238 0.7
S10 0.945 3.5 - -

Description

S10 is a color compound high-density polyethylene (HDPE) for rotational moulding applications. S10 is designed for parts that require excellent stiffness and impact strength. It is fully heat and UV stabilized resulting in a wide processing latitude, good colour retention, and durability.

Related Finished Products

Underground water tanks, kayaks, superior rigidity, pallets, manholes

Properties Test Methods Value
ARM Impact Strength @ -40 °C, 5.5 mm rotomolded sample (J/mm) ARM Method 29
Density (g/cm3) ASTM D 1505 0.945
Flexural Modulus (Mpa) ASTM D 790 912
Melt Index at 190 °C and 2.16 kg (g/10 min) ASTM D1238 3.5
VICAT Softening Temperature (°C) ASTM D 1525 120

www.scgchemicals.com


Смотрите также