๊ธ€ ์ฐพ๊ธฐ
์ž๋™์ฐจ ์‘์šฉ ๋ถ„์•ผ์—์„œ ๋‚˜์ผ๋ก  ํด๋ฆฌ๋จธ ๊ฐœ์งˆ์ œ๋ฅผ ์‚ฌ์šฉํ•˜๋ฉด ์–ด๋–ค ์ด์ ์ด ์žˆ์Šต๋‹ˆ๊นŒ?

The material qualities required by the automobile industry are quite strict, therefore nylon polymer modifiers are crucial in automotive applications.The production of vehicle parts including engine covers, coolant pumps, and even some body sections frequently employs nylon polymer modifiers. These modifiers are often added to the base polymer to enhance it in a variety of ways, such as by increasing its resistance to harsh conditions including high temperatures, UV rays, impacts, and other environmental factors.

Strength and durability are considerably improved by nylon polymer modifiers, which makes nylon more appropriate for automotive applications. These modifiers can extend the useful life of auto parts by enhancing the tensile and impact strength of nylon materials, as well as the wear resistance and weather resistance of materials.

The longevity and dependability of the vehicle can be considerably increased by utilizing nylon polymer modifiers in automotive applications, which is one of their main advantages. This is crucial for high-performance cars since their parts must withstand harsh circumstances. For example, an engine cover made of nylon polymer designed to endure greater temperatures and pressures is less likely to crack or deteriorate with time.

Using nylon polymer modifiers can reduce the weight and price of vehicle components, which is another benefit. The vehicle’s fuel efficiency can be increased by reducing component weight, which saves money and lowers emissions. Additionally, because nylon polymer materials are reasonably priced, they provide vehicle makers with a cost-effective solution.

 

 

Enhance heat resistance: Because automotive components are constantly exposed to high temperatures, nylon materials’ heat resistance is a key factor in automotive applications. The heat resistance of nylon materials can be improved by nylon polymer modifiers, enabling them to bear stress and pressure at high temperatures while maintaining stable performance.

Enhance chemical resistance: Fuel, lubricants, and chemical cleaners are just a few of the chemicals that auto parts may be subjected to. Modifiers for the nylon polymer can make nylon items more resistant to chemical corrosion and disintegration while preserving their original functionality and appearance.

Reduce friction and noise: These are prevalent issues in automobiles. Nylon polymer modifiers lower noise levels and friction between parts. This is crucial to enhancing the car’s comfort while driving and minimizing component wear and tear.

Lightweight construction: Automakers are putting more and more emphasis on lightweight construction in their quest for greater fuel economy and lower emissions. When compared to metallic materials, nylon polymer modifiers allow for lighter designs, lowering the vehicle’s overall weight and enhancing performance and fuel efficiency.

Cost-effectiveness: Nylon polymer modifiers are more cost-effective than other high-performance materials, which helps them compete in the automotive industry. Better cost-effectiveness can be achieved by using nylon polymer modifiers, which can lower material prices while providing the necessary performance and reliability.

Consequently, nylon polymer modifiers have many advantages in automotive applications. They increase material strength, durability, heat resistance, chemical stability, and noise reduction. They also make it possible to create lightweight designs and offer cost-effective solutions. Since automakers can rely on nylon polymer modifiers to meet rising performance and sustainability standards, they are widely used in the car sector.

์ตœ๊ทผ ๊ธฐ์‚ฌ

๋‚˜์ผ๋ก  ์ธ์„ฑ ํ–ฅ์ƒ์„ ์œ„ํ•ด ์ ์ ˆํ•œ POE ์ ‘๋ชฉ ๋ฌด์ˆ˜ ๋ง๋ ˆ ์‚ฐ์—ผ์„ ์„ ํƒํ•˜๋Š” ๋ฐฉ๋ฒ•์€ ๋ฌด์—‡์ž…๋‹ˆ๊นŒ?

ํŠนํžˆ ๋ณด๊ฐ• ๋ฐ ์ถฉ์ง„์ด ํ•„์š”ํ•œ PA6, PA66 ๋ฐ ํด๋ฆฌ์•„๋ฏธ๋“œ ์‹œ์Šคํ…œ์„ ์œ„ํ•œ ์ถฉ๊ฒฉ ์™„ํ™”์ œ๋กœ ์„ค๊ณ„๋œ Coaceยฎ W1A-F๋Š” ํŠน๋ณ„ํ•œ ํŠน์„ฑ์œผ๋กœ ์ธํ•ด ํ–ฅ์ƒ๋œ ๋‚ด์ถฉ๊ฒฉ์„ฑ๊ณผ ์ธ์„ฑ์ด ๊ฐ€์žฅ ์ค‘์š”ํ•œ ์šฉ๋„์— ์™„๋ฒฝํ•œ ์„ ํƒ์ด ๋  ์ˆ˜ ์žˆ์Šต๋‹ˆ๋‹ค.

์ž์„ธํžˆ ๋ณด๊ธฐ โ†’

PBT ๊ฐœ์งˆ์˜ ์ƒˆ๋กœ์šด ๋ŒํŒŒ๊ตฌ: POE-g-GMA ๊ฐ•ํ™”์ œ์˜ ํ˜์‹ ์ ์ธ ์ ์šฉ

PBT ๊ฐœ์งˆ์— POE-g-GMA ๊ฐ•ํ™”์ œ๋ฅผ ์‚ฌ์šฉํ•˜๋ฉด PBT ์†Œ์žฌ์˜ ์ทจ์„ฑ์„ ํ•ด๊ฒฐํ•  ๋ฟ๋งŒ ์•„๋‹ˆ๋ผ ์ƒˆ๋กœ์šด ํ”Œ๋ผ์Šคํ‹ฑ ์‚ฐ์—… ๋ฐœ์ „ ๋ฐฉํ–ฅ์„ ์ œ์‹œํ•  ์ˆ˜ ์žˆ์Šต๋‹ˆ๋‹ค.

์ž์„ธํžˆ ๋ณด๊ธฐ โ†’

PP/PE ๋ณตํ•ฉ ์†Œ์žฌ์— ํ•„๋Ÿฌ๋ฅผ ์ถ”๊ฐ€ํ•  ๋•Œ ํ˜ธํ™˜์ œ๋ฅผ ์ถ”๊ฐ€ํ•ด์•ผ ํ•˜๋‚˜์š”?

PP-g-MAH ํ˜ธํ™˜์ œ์˜ ์‚ฌ์šฉ๋ฒ•์„ ์กฐ์‚ฌํ•˜๊ณ  ์‹ถ๋‹ค๋ฉด ์ „๋ฌธ ํ™”ํ•™๋ฌผ์งˆ ๊ณต๊ธ‰์—…์ฒด์— ๋ฌธ์˜ํ•˜๋ฉด ์ƒ˜ํ”Œ๊ณผ ๊ธฐ์ˆ  ์ง€์›์„ ๋ฐ›์„ ์ˆ˜ ์žˆ์Šต๋‹ˆ๋‹ค. COACE์™€ ์ƒ๋‹ดํ•˜๋ฉด ํŠน์ • ์• ํ”Œ๋ฆฌ์ผ€์ด์…˜ ์š”๊ตฌ ์‚ฌํ•ญ์„ ์ถฉ์กฑํ•˜๋Š” ๋งž์ถคํ˜• ๋ฏน์Šค๋ฅผ ๋งŒ๋“ค ์ˆ˜ ์žˆ์Šต๋‹ˆ๋‹ค.

์ž์„ธํžˆ ๋ณด๊ธฐ โ†’

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