Founded in 1962 in Miaoli, Taiwan, Kun Huang Enterprise Co., Ltd. has established itself as a leading manufacturer of Polyurethane (PU) foam materials. Specializing in innovative products such as Open Cell Polyurethane Foam, Two Component Polyurethane Foam, High Density Polyurethane Foam Sheets, Custom Polyurethane Foam, and Composite Foam, Kun Huang has remained at the forefront of foam technology for over six decades. With the introduction of a 100% breathable and comfortable recycled PU foam insole in 1987, Kun Huang's innovation revolutionized the footwear industry. This material gained immediate acclaim and was quickly adopted by prominent brands including NIKE, REEBOK, PUMA, and JACK WOLFSKIN, setting a new benchmark for quality and innovation. Kun Huang’s commitment to research and development has led to a range of patented products, including the eco-friendly POLIYOU foam, the durable POLIMAX, and the versatile POLISPORT.

In the world of automobile and diesel engine manufacturing, where precision and reliability are paramount, AOK Valve Stem Seals has emerged as a leading provider of valve stem seals, bonded seals, rubber-metal parts, and other types of oil seals. Since its establishment in 1995 in Nantou, Taiwan, AOK has gained a global reputation for producing high-quality products and exceptional service. As a supplier to nearly all major automobile and diesel engine manufacturers, AOK ensures compatibility with major manufacturers in the industry.

Engineering plastics refer to a class of plastics that can be used as engineering structural parts because of their low density, high specific strength, excellent wear resistance and low coefficient of friction, high heat resistance, electrical insulation, chemical stability, acid/alkali resistance, and with obvious advantages such as free coloring, easy modification, and good processability, it has been widely used in the fields of automobiles, electronics, electrical, communications, transportation, aerospace, machinery, etc., and has become one of the important symbols to measure a country's industrial development level. Modification of engineering plastics due to the limitation of the performance of a single resin, and people's requirements for low cost, high performance and diversified performance of materials are getting higher and higher, and various modified engineering plastics have emerged as the times require. Engineering plastics can be realized through physical, chemical or a combination of physical and chemical methods, including blending (alloying), copolymerization (grafting), and filling reinforcement. Modification can significantly improve the performance of engineering plastics. In addition, one polymer matrix can be used to produce a variety of products with different uses. The production operation is flexible, and it is easy to realize one machine with multiple functions, and realize the serialization and specialization of products.

The aviation industry has always been equipped with strict quality system certification and highly complex integration technologies. All countries in the world regard the aviation industry as an indicator of national industrial technical capabilities.

Carbon fiber composite materials need to be processed using a molding process from prepreg to the final part. With the development of carbon fiber technology, the molding process of carbon fiber composite materials is also constantly improving. However, various molding processes of carbon fiber composite materials do not exist in the way of updating and eliminating, and often a variety of processes coexist to achieve the best effect under different conditions and different situations.

Carbon neutrality, inflation, and rising energy costs will speed up the restructuring of the textile fiber supply chain. Suppliers with vertically consistent factories and green products are expected to win.

Soft matter is a subfield of condensates that includes a variety of physical states susceptible to thermal stress and thermal fluctuations. Nowadays, it is used in flexible substrates and has become a key material for the development of thinning and flexibility.