It has high dimensional stability and mechanical strength, good wear resistance, heat resistance, oil resistance, chemical resistance, and decreases water absorption and raw material shrinkage.
The mechanical qualities of nylon may be considerably improved by adding fillers like glass fibers and tougheners. However, the phenomenon of “floating fibers” frequently happens …
Nylon Ultra Low Temperature Toughener can be utilized with various fillers and additives that are frequently included in nylon compositions.
A standard technique for assessing the tensile strength of materials, including nylon, is izod impact testing. The energy needed to shatter the sample is measured by this test. When a pendulum strikes a sample with a notch, the energy absorbed by the sample is determined. The substance becomes more durable the more energy it absorbs. The low-temperature impact resistance of nylon reinforced with ultra-low temperature tougheners may be evaluated at lower temperatures.
Nylon Ultra Low Temperature Toughener provides the manufacturing sector with a wide range of advantages, including better toughness and impact resistance, improved low-temperature qualities, good chemical resistance, and expanded design capabilities
Nylon Ultra Low Temperature Toughener can be utilized with various fillers and additives that are frequently included in nylon compositions.
The Nylon Ultra Low Temperature Toughener is utilized in a variety of industries. It is employed in the automobile industry to create parts like fuel lines, air intake systems, and engine covers that are exposed to subfreezing temperatures.
The inclusion of a cable material compatibilizer has a considerable impact on the flame retardancy of cables.
결론적으로, 자유 라디칼 반응 메커니즘을 통해 말레산 무수물 분자와 폴리에틸렌 사슬 사이에 에스테르 결합이 생성되면 말레산 무수물이 HDPE에 접목되는 공정의 기초가 됩니다.
