This type Chips that is designed to resist burning and melting at low temperatures. Low Melting Point Polyester Chip for Hot Melt Yarn Masterbatch Extrusion Grade Polymer for Hot-melt Adhesive Glue Coating Description: Generally speaking, the low melting point polyester chip refers to one specialty polymer with a melting point between 90 and 220. The melting point of polyester is the temperature at which a solid crystalline substance changes from a solid state to a liquid. So it reflects the purity of polyester. Generally speaking, pure polyester is a partially crystalline polymer with a melting point of 265. But during actual production, some impurities exist in the polyester due to various side reactions. At the same time, the defects of polymer crystals and the difference in crystallinity will also affect the melting point. The common type of low melt polymer is 110. But we can also offer a melting point of 90, 120, 160, and 180. Application: Low-melt polyester chips can produce low-melting point fiber, low-melting point synthetic fiber, and thermal-melting mucilage. Its primary usage is acting as bonding fiber in nonwoven fabrics. The end usage lies in clothing, articles for bed, shoe uppers, sleeping bags, sofas, and hygiene products. LM PET Chip is also the main raw material of masterbatch carriers. That is, low-melt PET chips, conventional chips, and dyes are mixed to produce the polyester color masterbatch according to a certain proportion. The production of this product is the introduction of polyester macromolecules into the modified copolymer unit. And its melting point is in the range of 100-120. Commonly used modifiers are phthalic acid, adipic acid, and trimethylolpropane. Recently, LM Polymer is also extruded into the back coating of nonwoven, automotive interiors, foam, injection molding, PET sheets, and hot-melt adhesive/glue. Low Melt Yarn is also called hot melt yarn or fusible yarn. There are sheath-core low-melt bicomponent yarn and full low-melt polyester yarn.
Supplier: Chemical/ raw materials such as melamine powder, melamine moulding compound, glazing powder, urea mounding compound, pvc resin, glacial acetic acid, calcium formate, sodium formate, formic acid, maleic anhydride, thiourea. mmc, umc, 2 ethyl hexanol, dotp/di, sulfamic acid, tdi, sodium metabisulfide, aluminum sulfate, sodium sulfide, citric acid, oxalic acid, adipic acid, sodium hydrosulfide, sodium gluconate, polyvinyl alcohol, propanoic acide, cyclohexanone.
Services: Export
Low Density Polyethylene. 1 FCL.
Supplier: Linear alkyl benzene sulphonic acid(labsa), sodium laurel ether sulphate(sles), sodium hexametaphosphate (shmp), sodium metabisulphite, sodium tripolyphosphate(sttp), sodium formate, formic acid, stearic acid, oxalic acid, glacial acetic acid, phosphoric acid, adipic acidpvc resin, hdpe/ldpe/pp, titanium dioxide, caustic soda, copper sulfate, paraffin wax
Supplier: Caustic Soda ( Liquid, Flakes, Pearls, Solid ), Liquid Chlorine, Hydrogen Peroxide, Macromolecular Products (pvc) Polyether Polyols, Synthesis Organic Products (oxo Alcohols, Phthalic Anhydride, Plastifiers Dop & Clorurated Poaraffin ), Mono Propyleneglicol, Organic Solvents : Methylene Chloride, Chloroform, Trichloroethylene, N Methyl Pirolydone, Inorganic Chloriders : Ammonium Chloride, Calcium Chloride, Ferric Chloride, Lime Chloride, Alkylamines : Metylamines, Monoisopropylamine, Fertilizers, Porous Ammoinum Nitrate , Ldpe & Hdpe, Polypropylene, Meg, Deg, Adipic Acid, Bisfenol, Isopropyl Alcohol (ipa), Perchloroethylene, Styrene Monomer
Polybutylene adipate terephthalate (PBAT) is a type of biodegradable and bio-based thermoplastic polymer. It is a copolyester made from the monomers 1,4-butanediol, terephthalic acid, and adipic acid. PBAT is often used as a component in biodegradable and compostable products, such as disposable tableware, shopping bags, and packaging materials. It can also be used as a component in other products, such as coatings and adhesives. Polybutylene Adipate Terephthalate (PBAT) is a biodegradable and compostable thermoplastic polymer. It is a copolymer of polybutylene adipate (PBA) and polyethylene terephthalate (PET). The Advantages of PBAT Biodegradability: PBAT can be broken down by microorganisms in the environment, making it a more sustainable alternative to traditional plastics. Compostability: PBAT can be broken down in industrial composting facilities, where it can be converted into nutrient-rich humus. Flexibility: PBAT can be processed using standard thermoplastic processing methods, making it suitable for a wide range of applications. Applications of PBAT Packaging: PBAT can be used to make bags, wraps, and other packaging materials that are biodegradable and compostable. Agriculture: PBAT can be used to make mulch films, which are laid over soil to help retain moisture and suppress weeds. Textile: can be used to make synthetic fibers, non-woven fabrics, and other textile products. PBAT is also used in various other field like automotive, Consumer goods, Agriculture.
PBAT plastic is a type of biodegradable plastic that is made from a combination of adipic acid, terephthalic acid, and butanediol. These materials are derived from renewable sources, such as cornstarch or sugarcane. PBAT plastic has a similar structure to traditional petrochemical-based plastics, but it is designed to break down naturally in the environment. PBAT plastic is compostable, which means that it can be broken down by microorganisms into natural substances, such as carbon dioxide, water, and biomass. What is PBAT plastic used for? PBAT plastic has many applications in various industries, including packaging, agriculture, and textiles. Here are some of the most common uses of PBAT plastic: Packaging One of the most common applications of PBAT plastic is in packaging. PBAT plastic is used to make bags, food packaging, and other disposable products. Unlike traditional plastics, PBAT plastic can break down naturally in the environment, which reduces the amount of plastic waste that ends up in landfills and oceans. Agriculture PBAT plastic is also used in agriculture to make mulch films and biodegradable plant pots. Mulch films are used to cover soil, retain moisture, and control weeds. Biodegradable plant pots are made from PBAT plastic and other materials, such as wood chips or bamboo fibers. These plant pots can be planted directly into the soil, which eliminates the need to remove the pot and reduces waste. Textiles PBAT plastic can also be used in the textile industry to make biodegradable fibers and fabrics. These materials can be used to make clothing, bags, and other textile products. PBAT plastic fibers and fabrics can be composted at the end of their life cycle, which reduces waste and environmental impact. Medical PBAT plastic is used in the medical industry to make surgical sutures, mesh implants, and other medical devices. Biodegradable PBAT plastic can be used for temporary implants, such as surgical sutures, which eliminates the need for a second surgery to remove the implant. PBAT plastic is also used to make mesh implants that can be absorbed by the body over time, which reduces the risk of complications and the need for a second surgery. Other applications PBAT plastic has other applications, such as in the production of biodegradable toys, personal care products, and disposable cutlery. PBAT plastic can also be used to make biodegradable 3D printing filaments, which is becoming more popular as 3D printing technology becomes more widely available.
Biodegradable Plastic Film Often considered environmentally degradable, compostable plastics are made from starch/corn-based resins and compounds that are environmentally friendly and non-hazardous, completely replacing single-use plastics. Our biodegradable plastic film made from compostable raw materials based on corn starch, PLA (polylactic acid), and PBAT (polybutylene terephthalate adipate) through blow molding and cast film processes. Our innovative and environmentally friendly materials offer many advantages, including: Same strength and tensile properties as traditional plastics. No toxic by-products. Does not use heat, light or mechanical stress to decompose. No special treatments required (unlike PLA and oxo-degradable products). No heavy metals (unlike most oxo-degradable products). Specific FDA-compliant formulations.
