China (Mainland)
Polyethylene competitive product CAS NO.9002-88-4
- FOB Price: USD: 0.10-0.10 /Kilogram Get Latest Price
- Min.Order: 1 Kilogram
- Payment Terms: T/T,Other
- Available Specifications:
High quality(1-25)Kilogram
- Product Details
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- reliable quality and fast delivery
- Advanced technology and favourable payment terms
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Quick Details
- ProName: Polyethylene competitive product
- CasNo: 9002-88-4
- Molecular Formula: C2H4
- Appearance: according to email quotation
- Application: pharmaceutical raw materials
- DeliveryTime: Within 3 days after payment
- PackAge: foil aluminium bag/vacuum packing
- Port: Shanghai
- ProductionCapacity: 100 Kilogram/Week
- Purity: 99%
- Storage: Keep in dry and cool condition
- Transportation: by air or by sea
- LimitNum: 1 Kilogram
- CAS No.: 9002-88-4
- Synonyms: pad522
- Formula: C2H4
- Molecular Weight: 28.05316
Superiority
Coreychem competetive product
High quality and favourable price
Perfect logistics system
Advanced and completed testing facilities
High Cost-Effective and stable supplying
Coreychem focus on high complex new type intermediates and fine chemical custom synthesis,scale-up production and rare chemicals trade.Product category including Intermediates&API,Catalyst and Electronic Chemicals.Covering 811 square meters R&D center,with 45 person R&D team,our synthesis level is well-known to the industry,which are exported to France,Poland,Czech,Ukraine,Spain,Switzerland,etc...
Details
| Product Name: | Polyethylene |
| Synonyms: | pad522;pe512;pe617;pen100;pep211;pes100;pes200;petrothene |
| CAS: | 9002-88-4 |
| MF: | C2H4 |
| MW: | 28.05316 |
| EINECS: | 618-339-3 |
| Product Categories: | Industrial Raw MaterialsCertified Reference Materials (CRMs);IRMM/BCR Certified Reference Materials;Non-metalsAlphabetic;POLB - POLY;Reference/Calibration Standards;EnvironmentalCertified Reference Materials (CRMs);Application CRMs;Certified Reference Materials (CRMs);Industrial Raw Materials;Industrial Raw MaterialsApplication CRMs;Matrix CRMs;Non-metalsCertified Reference Materials (CRMs);Polymer Standards;Polymers;-;Alphabetic;Organic Soluble Polymers;P;POLB - POLYPolymer Standards;Polyethylene;Ethylene;Hydrophobic Polymers;Olefins;Hydrophobic Polymers;Materials Science;Polymer Science |
| Mol File: | 9002-88-4.mol |
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| Polyethylene Chemical Properties |
| Melting point | 92 °C |
| density | 0.962 g/mL at 25 °C |
| Fp | 270 °C |
| storage temp. | 20°C |
| form | powder |
| color | White |
| Specific Gravity | 0.95 |
| Water Solubility | Soluble in acetone and benzene. Insoluble in water. |
| Merck | 14,7567 |
| Stability: | Stable, but breaks down slowly in uv light or sunlight. Incompatible with halogens, strong oxidizing agents, benzene, petroleum ether, aromatic and chlorinated hydrocarbons, lubricating oils. |
| NIST Chemistry Reference | Polyethylene(9002-88-4) |
| EPA Substance Registry System | Ethene, homopolymer(9002-88-4) |
| Safety Information |
| Safety Statements | 22-24/25 |
| WGK Germany | 3 |
| RTECS | TQ3325000 |
| TSCA | Yes |
| HS Code | 39041090 |
| Hazardous Substances Data | 9002-88-4(Hazardous Substances Data) |
| MSDS Information |
| Provider | Language |
|---|---|
| Poly(ethylene) | English |
| SigmaAldrich | English |
| ACROS | English |
| ALFA | English |
| Polyethylene Usage And Synthesis |
| Chemical Properties | solid; appearance depends upon method of forming; |
| Uses | Injection and blow molded toys, housewares and lids. |
| Uses | Injection molded car seats, mower parts and pails. |
| Uses | Hot melt coating for paper, additive in cast moldings, candles, oil-based inks and hot melt adhesives. |
| Uses | Typical applications included specialty injection molded parts. |
| Uses | Additive to unsaturated polyesters, epoxides and other polymers to impart the unique properties of UHMWPE. Used in industrial parts, coatings and wear surfaces at 10-40 wt. %. |
| Uses | Injection molded, thin-walled containers and housewares. |
| Uses | Film applications having good drawdown and toughness. |
| Uses | Mold release additive, lubricant in rubber processing, extrusion and calendering aid for PVC and dispersing aid for color concentrates. |
| Uses | Bearings, gears, bushings and other moving parts. |
| Uses | Laboratory tubing; in making prostheses; electrical insulation; packaging materials; kitchenware; tank and pipe linings; paper coatings; textile stiffeners. |
| Uses | polyethylene is used to regulate viscosity, suspension properties, and general stability in cosmetic formulations. It is derived from petroleum gas or dehydration of alcohol. |
| Uses | Polyethylene (PE) is a thermoplastic polymer consisting of long hydrocarbon chains. PE is used in a number of applications including flexible film packaging produced by the blown film process. Polyethylene is used to regulate viscosity, suspension properties, and general stability in cosmetic formulations. |
| Definition | polyethylene: A flexible waxy translucentpolyalkene thermoplastic made in avariety of ways producing a polymerof varying characteristics. In the ICIprocess, ethene containing a trace of oxygen is subjected to a pressure inexcess of 1500 atmospheres and atemperature of 200°C. Low-densitypolyethene (r.d. 0.92) has a formulaweight between 50 000 and 300 000,softening at a temperature around110°C, while the high-density polythene(r.d. 0.945–0.96) has a formulaweight up to 3 000 000, softeningaround 130°C. The low-density polymeris less crystalline, being more atactic.Polyethene is used as aninsulator; it is acid resistant and iseasily moulded and blown. |
| Definition | ChEBI: A polymer composed of ethane units. |
| Agricultural Uses | LDPE is short for low density polyethylene. LDPE sheets are used for lining jute bags in which fertilizers are stored. LDPE acts as a waterproofing material. |
| Industrial uses |
Rigidity and tensile strength of the HDPE resins are considerably higher than those properties in the low- and medium-density materials. Impact strength is slightly lower, as is to be expected in a stiffer material, but values are high, especially at low temperatures, compared with those of many other thermoplastics. HDPE resins are available with broad, intermediate, and narrow molecular-weight distribution, which provides a selection to meet specific performance requirements. As with the other polyethylene grades, very-high-molecular- weight copolymers of HDPE resins are available with improved resistance to stress cracking. Applications of HDPE range from film products to large, blow-molded industrial containers. The largest market area is in blowmolded containers for packaging milk, fruit juices, water, detergents, and household and industrial liquid products. Other major uses include high-quality, injection-molded housewares, industrial pails, food containers, and tote boxes; extruded water and gas-distribution pipe, and wire insulation; and structural-foam housings. HDPE resins are also used to rotationally mold large, complex-shaped products such as fuel tanks, trash containers, dump carts, pallets, agricultural tanks, highway barriers, and water and waste tanks for recreational vehicles. |
| Industrial uses |
LDPE, the first of the polyethylenes to be developed, has good toughness, flexibility, low-temperature impact resistance, clarity in film form, and relatively low heat resistance. Like the higher-density grades, LDPE has good resistance to chemical attack. One of the fastest-growing plastics is linear LLDPE, used mainly in film applications but also suitable for injection, rotational, and blow molding. Properties of LLDPE are different from those of conventional LDPE and HDPE in that impact, tear, and heat-seal strengths and environmental stress-crack resistance of LLDPE are significantly higher. Major uses at present are grocery bags, industrial trash bags, liners, and heavy-duty shipping bags for such products as plastic resin pellets. |
| Industrial uses |
Polyethylene thermoplastic resins include lowdensity polyethylenes (LDPE), linear low-density polyethylenes (LLDPE), high-density polyethylenes (HDPE), and ethylene copolymers, such as ethylene-vinyl acetate (EVA) and ethylene- ethyl acrylate (EEA), and ultrahighmolecular- weight polyethylenes (UHMWPE). The basic properties of polyethylenes can be modified with a broad range of fillers, reinforcements, and chemical modifiers, such as thermal stabilizers, colorants, flame retardants, and blowing agents. Major application areas for polyethylenes are packaging, industrial containers, automotive, materials handling, consumer products, medical products, wire and cable insulation, furniture, housewares, toys, and novelties. Polyethylene is a water-repellent, white, tough, leathery, thermoplastic resin very similar in appearance to paraffin wax. Properties vary from a viscous liquid at low molecular weights to a hard waxlike substance at high molecular weights. It is used as a coating for glass bottles and fiberglass fabrics (special treatments for glass are required to obtain good adhesion between polyethylene and glass) and is also used as an injection-molding material for ceramics. TIn the polymerization process, the double bond connecting the carbon atoms is broken. Under the right conditions, these bonds reform with other ethylene molecules to form long molecular chains. Ethylene copolymers, EVA, and EEA are made by the polymerization of ethylene units with randomly distributed comonomer groups, such as vinyl acetate (VA) and ethyl acrylate (EA). |
| Safety Profile | Questionable carcinogen with experimental tumorigenic data by implant. Reacts violently with F2. When heated to decomposition it emits acrid smoke and irritating fumes. |
| Purification Methods | Crystallise it from thiophen-free *benzene and dry it over P2O5 under vacuum. |
| Polyethylene Preparation Products And Raw materials |