Biodegradable & Compostable Polymer

Resin biodegradable refers to a type of plastic that can be broken down by microorganisms such as bacteria and fungi. These types of resins are made from renewable resources such as cornstarch, sugarcane, and other plant-based materials. Unlike traditional plastics, biodegradable resins can be decomposed in the environment and break down into natural substances such as water, carbon dioxide, and biomass. Biodegradable resins are used in a variety of applications, including packaging, agriculture, and consumer goods.

Biodegradable resin is a type of plastic that can break down into natural materials through the action of microorganisms, such as bacteria and fungi. Biodegradable resins are typically made from renewable resources, and are designed to decompose into water, carbon dioxide, and biomass. Biodegradable resin is used for a variety of applications, including packaging, agriculture, and consumer goods.

Starch-modified blown plastic developed in accordance with EN13432, ASTM6400. It can be processed on various types of film blowing machines, printing machines, bag-making machines, and sealing machines.

Starch based biodegradable & Compostable resin is applicable for various kinds of bags, such as T shirt bags, Garbage bags, Produces bags, Draw Stringbags etc.

An analysis of a new market research report stated that â??starch blends are expected to account for the largest share in the marketâ?? from 2015 to 2020. Out of the 2.05 million tons of bioplastics produced in 2017 worldwide, starch blends accounted for 18.8%.

Starch can be used to reduce the carbon footprint of traditional resins because they can replace petroleum-based polymers with natural ones. It is also highly degradable, meaning it can be used alongside a compostable polymer without interfering with the degradation process. In fact, starch-based bioplastics are widely employed in the medical industry because of their biocompatibility, low toxicity, degradation properties and mechanical properties.

Advantages of biodegradable resins
Environmentally friendly: Biodegradable resins are made from renewable resources, and they break down into natural materials that do not harm the environment.

Reduced waste: Biodegradable resins can reduce the amount of plastic waste that ends up in landfills or the ocean.

Cost-effective: Biodegradable resins can be made from inexpensive raw materials, making them a cost-effective alternative to traditional plastics.

Versatility: Biodegradable resins can be used for a variety of applications, including packaging, agriculture, and consumer goods.

Some common applications of biodegradable resins
Packaging: Biodegradable resins can be used to make packaging materials, such as bags, wraps, and containers, that can break down in the environment.

Agriculture: Biodegradable resins can be used to make mulch films, which are used to control weeds and retain moisture in soil.

Consumer goods: Biodegradable resins can be used to make products such as disposable razors, toothbrushes, and cutlery.

Medical: Biodegradable resins can be used to make implants and other medical devices that can be broken down in the body over time.

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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.

Polyacetal also called acetal or POM, is a popular crystalline engineering thermoplastic.
It is specified for high load mechanical applications and precision parts, where strength, stiffness, stability and reliability are important.
It has a continuous use temperature range of up to 180�°F (82�°C) or impact at low temperatures (down to -40�°C). It can also be processed by injection molding and extrusion methods.

Application:
gears
door system
safety restraint components
conveyor systems components
medical delivery devices
ski bindings
frames
thin line bushings
zip fasteners

Polyvinyl chloride (PVC) is the world's third most widely used plastic and is an attractive alternative to traditional materials such as glass, metal, wood, and other plastic materials because of its versatility, durability and cost competitiveness.
PVC is produced in powder form and then combined with other ingredients to create a compound with specific processing and end-use properties. It is widely used in flooring, wall covering and window profiles, pipes, film, automotive sealants and interior trim, cable sheathing, medical applications and technical coatings.

Polycarbonate (PC for short) is a high molecular polymer containing carbonate groups in its molecular chain. It is an amorphous, odorless and transparent thermoplastic engineering plastic. Its high strength makes it resistant to impact and fracture. It is lightweight so an excellent alternate to glass. PC is melted and forced into a mold with high pressure to give it the desired shape. It is widely used owing to its eco-friendly processing and recyclability. It can be processed by either injection moulding or extrusion.

Application:
Building materials industry
Automobile manufacturing industry
Medical devices
Aerospace
Packaging field
Electronics industry
Household appliances