High performance plastic solutions | Ensinger
Ensinger offers products from over 100 different plastics. Besides all standard thermoplastics, Ensinger develops and extrudes a multitude of special materials according to customersdemands. Round rods, sheets and tubes are offered in a range of small dimensional increments and with special properties to meet your requirements. Products Details.
High performance plastics | Ensinger
High performance plastics typically have a permanent operating temperature of more than 302°F. It is this material class that brings the superior properties of polymers - such as sliding friction characteristics, weight saving and chemical resistance - to bear, especially at high permanent operating temperatures.
Performance Plastics | Saint-Gobain North America
Performance Plastics Technical Textiles Products and Services Abrasive Grains Adhesives Architectural Membranes Automotive Barrier Films Bearings Ceilings Ceramic Media Ceramic Powders Coated Abrasives Coating Solutions Construction Countertops Crystals Custom Products Decking & Railing Doors Electrochromic Glass Exterior Cladding Fence
High-performance plastics
High-performance plastics can be divided in amorphous and semi-crystalline polymers, just like all polymers. Polysulfone (PSU), poly (ethersulfone) (PES) and polyetherimide (PEI) for example are amorphous; poly (phenylene sulfide) (PPS), polyetheretherketone (PEEK) and polyether ketones (PEK), however are semi-crystalline .
High-Performance Plastics Industry Trend | High Performance
The global High Performance Plastic market size reached USD 22.84 Billion in 2025 and is expected to reach USD 49.33 Billion in 2030 registering a CAGR of 8.96%. High Performance Plastic industry report classifies global market by share, trend, growth and based on type, end-use, and region.
- What is a plasticizer chemistry?
- Plasticizers are the most used additives in the plastics industry. They are generally available as non-volatile, colorless liquids. They improve the properties of the polymer. With several plasticizer chemistries available in the market choosing the right one can be daunting. In this guide, you will read more about:
- Are biopolymers a good substitute for conventional plasticizers?
- The use of natural and/or biodegradable plasticizers, with low toxicity and good compatibility with several plastics, resins, rubber and elastomers in substitution of conventional plasticizers, such as phthalates and other synthetic conventional plasticizers attracted the market along with the increasing worldwide trend towards use of biopolymers.
- What are plasticizers & how do they work?
- Plasticizers are non-volatile organic substances (mainly liquids) added into a plastic or elastomer. They are also usually cheaper than other additives. They improve the following properties of the polymers: Plasticizers increase the flow and thermoplasticity of a polymer.
- What are natural based plasticizers?
- Nowadays, there is increasing interest in the use of natural-based plasticizers that are characterized by low toxicity and low migration. This group includes epoxidized triglyceride vegetable oils from soybean oil, linseed oil, castor-oil, sunflower oil, and fatty acid esters (FAEs) .
- What is the most used additive in plastics?
- Plasticizers are the most used additive in plastics. DOP is currently the most widely used plasticizer, ~70% of the total consumption of plasticizers. In China, the annual consumption is close to 1 million tons.
- What is a polymeric plasticizer?
- Polymeric plasticizers are typically made from aliphatic dibasic acids such as adipic acid and diols. They are primarily valued for their permanence. These plasticizers are generally classified as polyesters, not adipates. Many have low solvency for PVC and high viscosity. Both these factors can make processing f-PVC compounds difficult.
