Anti-compacting finishing of BOM paper-making blankets Liu Jianyong Guo Bingchen Oxidation-denatured acrylic fiber morphology, characteristics and application in flame-retardant and heat-insulating protection Development of new fiber for protection products Shen Xinyuan Wang Shengdong Protective textiles feel the evaluation of architectural textiles in indoor environmental pollution The role of intelligent fiber fabric research and anti-compacting finishing of BOM papermaking blankets Liu Jianyong Guo Bingchen Oxidation-denatured acrylic fiber morphology, characteristics and application in flame retardant and thermal insulation protection New fiber development of Shen Xinyuan Wang Shengdong protective textiles The role of construction textiles in indoor environmental pollution protection Research and development of intelligent fiber fabrics Yu Zhenpan filter material new products and development trend Peng Meigui Guo Bingchen NT76 polypropylene strong fiber network performance research and application Wang Xiaofeng Zhang Shenglan chitin nonwoven fabric and application season Application and development of national standard chemical fiber new materials in China's medical and health field Sun Hui Guo Bingchen Geotextile and nursery cloth application in environmental protection and wastewater treatment engineering Yu Mingfang PEEK fiber material in medical application Geotextile application in infrastructure construction Development and application of materials and environmental protection in China Xiaorongxu filter material development of new monofilaments and products. Durability of geotextiles in reinforcement and drainage applications. The use of polypropylene on geotextiles, coated base fabrics and composite fabrics. Photooxidation of Geosynthetics Yang Xudong Ding Xin Xue Yulong Development of industrial textile products by means of rapid aging in environmental simulation. Grooved thin-walled beam--Development of textile-reinforced concrete products. Fabric-reinforced concrete in repairing structure and reinforcement. Development of sol-gel technology in architectural textiles. Application of waterproof and UV-resistant coatings in industrial textiles. Lightweight short-staple fiber super-isolated products. Supporting plates and lightweight components in automotive structural materials. 9rgMussigAxelS.Herrmann automotive interior fabrics The use of recyclable three-dimensional non-woven fabrics - an environmentally friendly substitute for polyurethane foam composites (continued from page 46) Germany developed a smart medical jacket electronic products surrounded by electromagnetic pollution has become a public concern, anti-electronic fog products market appears Intelligent medical clip developed by Hohenstein Institute, Germany The shirt integrates an electronic data device that is suitable for emergency personnel, allowing them to record patient data in seconds and transmit the data back to the ambulance and hospital via the GMS antenna, which can also be recorded with the camera via the USB interface on the garment. In the case of the injured, the doctor has more time and information to prepare before the injured arrive at the hospital. The Assist* laminated fabric of the surgical cover developed by the research institute has effective isolation and good breathability. There is also a solar cell 1.0 with 72 very efficient flexible solar cells. The generated electrical energy is stored in a rechargeable battery, which powers the integrated electronic device in the garment, and can also power the watch and portable computer.
Aerogel Insulation Felt/Panel is made of nano-silica aerogel as the main material and combined with glass fiber cotton or pre-oxidized fiber mat by special process.It is characterized by low thermal conductivity,certain tensile and compressive strength,and is a new type of thermal insulation material.
Swiss company developed anti-electromagnetic fabrics Swiss-held fabrics with electromagnetic protection developed by Swiss company Sheld are woven from the company's Swisssheld yarn, which uses a very fine wire as the core yarn through a special kind. The spinning process encloses fibers such as cotton or polyester. This fabric, like a mirror, reflects 99% of electronic or electromagnetic radiation and can be used in a wide range of applications from home to work and military. Nowadays, mobile phones have become popular all over the world. In many French universities, Lyon University invented high-pressure powder bonding. University of Lyon researchers have invented the powder bonding method and applied for a patent.
They use high-voltage electricity to charge the powder particles to form a "cloud". When the fiber mesh passes through the electrode, it fills the space of the mesh. The voltage may also generate free radicals (as in plasma processing) to increase the attraction between the powder and the fiber. The fiber (adhesive strength) specification of 50g/m2~2000g/m2 can be filled with powder to 100%. The size of the powder is smaller than that between the fibers. It should be between 50Pm and 300m, using far infrared. A heater is used to melt the powder. An example of application is a glass fiber mat layer of 000 g/m 2 which is injected into a polypropylene powder and bonded.
200 g/m2, injected with epoxy/poly thermosetting resin powder and bonded.
With 10% of the bonding powder, the household crepe is bonded, and the weight of 50 powder is scattered on the net with a sieve mesh to form a non-joining bonding point. The production line speed is adjusted according to the product, and the glass woven fabric is 3 m/min and the lightweight fabric is used. Up to 40m/min. The length of the pilot plant in France is now 1m.http://news.chinawj.com.cn Edit: (Hardware Business Network Information Center) http://news.chinawj.com.cn
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