Sentence examples for most engineering thermoplastics from inspiring English sources

Temperature is an important, but not overwhelming, variable in the weathering of most engineering thermoplastics.

Polyethylene terephthalate is one of the most important engineering thermoplastic materials and polymers.

Thermomechanical behavior is most probably the most widely exploited property of engineering thermoplastics.

Engineering thermoplastics can be amorphous or crystalline.

Thus, for accelerated weathering of engineering thermoplastics, the best possible match for sunlight is required, but increasing the intensity and decreasing or eliminating the dark period are permissible for most aromatic thermoplastic resins.

This chapter focuses on aliphatic polyamides, particularly as engineering thermoplastics.

The copolymers behaved in many respects as engineering thermoplastics.

Amorphous engineering thermoplastics include acrylics, polycarbonates, and polyurethanes.

Semicrystalline engineering thermoplastics include polyacetals, polyesters, and polyamides.

Engineering thermoplastics and advanced engineering thermoplastics or ultrapolymers comprise a special, high-performance segment of synthetic plastic materials that offer premium properties.

This chapter presents a historical overview of the development of engineering thermoplastics covers the early pioneers in the field up to recent advances in engineering thermoplastics.