Results for "PLA"
146 materials found
A tough engineering thermoplastic widely used in automotive, consumer products, electronics and 3D printing.
A transparent, high-impact engineering plastic used in glazing, electronics and safety equipment.
A clear, food-safe, easy-to-print thermoplastic combining PET's strength with excellent formability.
A tough, wear-resistant nylon widely used for gears, bushings, and under-the-hood automotive parts.
A semi-crystalline high-performance polymer with outstanding thermal, chemical, and mechanical properties.
A biodegradable, plant-based thermoplastic and the most popular 3D printing filament.
A rigid, chemical-resistant polyethylene used for bottles, pipes, and industrial containers.
A lightweight, fatigue-resistant polymer ubiquitous in packaging, textiles, and living hinges.
A rigid, glass-clear thermoplastic offering excellent UV resistance and optical clarity.
A stiff, low-friction acetal polymer engineered for precision gears and mechanical parts.
Low water absorption, good dimensional stability, excellent chemical resistance.
Bio-based, excellent flexibility, good impact strength and chemical resistance.
Lower moisture absorption than PA6/PA66, good chemical and dimensional stability.
Excellent electrical properties, good chemical resistance, low warpage.
Good stiffness, strength, and barrier properties. Often used in packaging and fibers.
Exceptional thermal stability, chemical resistance, and inherent flame retardancy.
High strength and stiffness at elevated temperatures, good chemical resistance.
Excellent hydrolytic stability, dimensional stability, and electrical properties.
Combines the impact strength of PC with the processability of ABS.
Good toughness, chemical resistance, and dimensional stability.
High stiffness, strength, excellent fatigue resistance and low friction.
Good chemical resistance, fatigue strength, and creep resistance.
High temperature resistance, good mechanical strength, and transparency.
Higher continuous use temperature and creep resistance than PSU.
Exceptional thermal stability, high strength, broad chemical resistance.
Exceptional flowability in thin walls, high thermal and chemical resistance.
Excellent impact strength and toughness, good heat resistance.
Good balance of impact strength, stiffness, and processability.
Good heat resistance and dimensional stability for a styrene-based polymer.
Good transparency, stiffness, and chemical resistance compared to polystyrene.
Excellent weatherability and UV resistance, good impact strength.
Clear, tough, and good chemical resistance.
High stiffness, strength, and thermal resistance, excellent barrier properties.
Improved toughness and ductility compared to standard PA6.
Enhanced stiffness, dimensional stability, and reduced shrinkage.
Increased strength, stiffness, and thermal performance.
Excellent dimensional stability and stiffness with reduced anisotropy.
High stiffness, improved dimensional stability, and controlled shrinkage.
Enhanced stiffness, dimensional stability, and reduced thermal expansion.
Optimized balance of impact strength, toughness, and heat resistance.
Enhanced toughness, good chemical resistance, and dimensional stability.
Enhanced stiffness, strength, and creep resistance at elevated temperatures.
Good balance of stiffness, toughness, and dimensional stability.
Improved stiffness and strength with lower moisture absorption than PA6/PA66.
Excellent electrical properties, stiffness, and heat resistance.
Exceptional thermal stability, chemical resistance, and high mechanical strength.
High strength, stiffness, and thermal resistance for demanding applications.
Excellent dimensional stability, strength, and heat resistance.
Excellent impact strength, especially at low temperatures.
Improved impact strength while maintaining low moisture absorption.
Improved impact strength and toughness.
High stiffness combined with improved impact strength.
Good impact strength and chemical resistance.
Exceptional stiffness, strength, light weight, and electrical conductivity.
High stiffness, strength, and electrical conductivity.
Exceptional stiffness, strength, thermal performance, and conductivity.
Extremely high stiffness, strength, and thermal resistance.
Flexible, transparent, and easy to process polyolefin for films, bags, and packaging.
High tensile strength and puncture resistance for demanding film applications.
Good rigidity and stress crack resistance for pipe applications.
Rigid, strong, and chemically resistant material for crates, caps, and household goods.
Durable and chemically resistant for bottles, drums, and tanks.
Exceptional wear resistance and low friction for demanding mechanical applications.
Excellent electrical insulation with enhanced thermal and mechanical properties.
Rigid, tough, and excellent chemical resistance for containers, caps, and automotive parts.
Improved impact strength and flexibility compared to homopolymer PP.
Tough and dimensionally stable film with good barrier properties.
High clarity, good flexibility, and low sealing temperature for clear containers and packaging.
Lightweight, energy-absorbing foam with excellent thermal insulation and chemical resistance.
Transparent, rigid, and easily processed material for disposable cutlery, packaging, and CD cases.
Tougher than GPPS, with good processability for appliance housings, toys, and packaging.
Lightweight, excellent cushioning and thermal insulation for protective packaging.
High compressive strength and moisture resistance for thermal insulation.
Transparent, rigid sheets for displays, signage, and protective barriers.
Durable, corrosion-resistant, and cost-effective for water and drainage pipes.
Durable, flexible, and flame-retardant for electrical cable insulation and jacketing.
Higher temperature and pressure rating than PVC for hot water systems.
Excellent barrier to oxygen and moisture for food packaging.
Flexible, tough, and low temperature sealable film with improved clarity over LDPE.
Elastic, tough, and soft material for shoe soles, gaskets, and flexible parts.
Adhesive polymer with excellent tack and flexibility for bonding applications.
Excellent oxygen barrier properties, especially at low humidity, for food packaging.
Superior gas barrier properties, excellent melt strength for demanding packaging.
Outstanding transparency, heat resistance, and low density.
Excellent toughness, sealability, and abrasion resistance for demanding packaging.
Elastomeric properties, good toughness, and processability for adhesives and modifiers.
Clear, strong, lightweight, and gas barrier for beverage bottles.
Strong, durable fibers for textiles, ropes, and industrial applications.
Impact resistant, stiff, and good surface finish for appliance housings, automotive parts, and toys.
A highly versatile thermoplastic elastomer offering excellent abrasion resistance, toughness, and flexibility.
A highly flexible and resilient thermoplastic elastomer with excellent hydrolysis and low-temperature performance.
A blend of polypropylene and EPDM or other elastomers, offering good flexibility and weatherability at a low cost.
A highly engineered TPV offering excellent compression set, chemical resistance, and a broad temperature range.
An unsaturated block copolymer offering good tack and flexibility, primarily used in adhesive formulations.
A thermoplastic elastomer combining the flexibility of rubber with the processability of thermoplastics and excellent fatigue resistance.
A lightweight thermoplastic elastomer based on polyether-block-polyamide, offering exceptional flexibility and energy return.
A TPU grade specifically formulated for high abrasion resistance and durability in footwear soles and components.
A polyether-based TPU with excellent resistance to hydrolysis, microbial attack, and sterilization, suitable for medical devices.
A TPV engineered for optimal compression set and resistance to automotive fluids and weathering, ideal for seals and gaskets.
A thermoplastic elastomer offering a unique blend of flexibility, toughness, and chemical resistance.
Excellent electrical insulating properties, dimensional stability, and heat resistance.
A standard grade of polylactic acid designed for general-purpose applications, offering good processability and biodegradability.
A modified PLA grade offering improved heat resistance for applications requiring higher service temperatures than standard PLA.
An amorphous and fast-crystallizing grade of PDLLA, used in medical applications requiring controlled degradation.
A stereocomplex grade of PDLA, offering enhanced thermal and mechanical properties through interaction with PLLA.
A flexible grade of PHA offering good toughness and biodegradability in various environmental conditions.
A rigid and brittle grade of PHB, characterized by its high crystallinity and rapid degradation.
A copolymer of PHB and PHV providing a balance of flexibility, toughness, and biodegradability.
A bio-based PBS grade offering excellent processability and biodegradability for film and packaging applications.
A biodegradable copolyester offering enhanced flexibility and toughness compared to standard PBS.
A biodegradable copolyester with excellent flexibility, toughness, and good processability, ideal for film applications.
A blend of starch and plasticizers, offering biodegradability and compostability with tunable properties.
A clear, rigid bioplastic derived from cellulose, with good dimensional stability and photographic properties.
A cellulose derivative with improved toughness and weatherability for injection molding applications.
A highly transparent, biodegradable film derived from purified cellulose, known for its gas barrier properties.
A high-density polyethylene produced from renewable sugarcane, chemically identical to conventional HDPE.
A bio-based version of PET, produced from plant-derived ethylene glycol, offering identical performance to conventional PET.
High-performance bio-based polyamide derived from castor oil, offering excellent chemical resistance and flexibility.
A bio-based polyamide with low moisture absorption and good flexibility, derived from renewable resources.
A 100% bio-based polyester with superior barrier properties to PET, suitable for packaging.
A bio-derived aromatic polymer extracted from wood, used as a filler or building block for biocomposites.
A biopolymer derived from chitin, known for its biodegradability, biocompatibility, and antimicrobial properties.
A protein-based bioplastic derived from milk, offering biodegradability and film-forming properties.
A sustainable material grown from fungal mycelium on agricultural waste, used for packaging and insulation.
An amorphous PDLLA grade with high molecular weight, offering increased strength and slower degradation for medical applications.
A standard injection molding grade of PLA optimized for cycle times and part quality in mass production.
A toughened PHA copolymer offering improved impact resistance and flexibility for durable applications.
A bio-based PET grade optimized for film extrusion, offering excellent clarity and printability.
A modified PBS grade offering enhanced tensile strength and rigidity for structural applications.
A PBAT grade with improved heat resistance for applications requiring higher service temperatures.
A softer, more flexible grade of bio-based PA11 for applications requiring high resilience and impact absorption.
Crosslinked chitosan for improved water resistance and mechanical stability in humid environments.
A higher stiffness grade of bio-PA610 for applications requiring good mechanical integrity and low moisture uptake.
Regenerated cellulose film with a barrier coating for enhanced protection.
PLLA component for creating stereocomplex PLA, offering superior thermal and mechanical properties when blended with PDLA.
A PHA grade meeting biocompatibility standards for medical and healthcare applications.
A highly flexible and extensible PBSA grade designed for films requiring superior drape and toughness.
A low-density polyethylene made from sugarcane, offering the flexibility and toughness of conventional LDPE.
Easy-to-print, biodegradable plastic ideal for general prototyping and decorative items.
PLA variant with additives for a glossy, silk-like surface finish without post-processing.
Improved PLA offering higher strength, impact resistance, and reduced brittleness compared to standard PLA.
Flexible and durable TPU filament with a Shore hardness of 95A, suitable for resilient parts and cushioning.
Highly flexible TPU filament with a Shore hardness of 85A, suitable for soft, compliant parts.
Flexible and resilient powder for SLS, ideal for producing soft, durable parts.
Flexible and resilient powder for MJF, producing tough, elastomeric parts with excellent detail.
Flexible black recycled TPU for demanding applications.