This category is structural components of the wiper, such as blades, scraper arms, etc. The metal parts are made of stainless steel, which has good anti-rust effect, high-quality raw materials, mature processing technology, and product quality in line with industry standards.
Jilin Zexin Industrial Development Co., Ltd. was founded in 2001 with a registered capital of 5 million RMB and is a high-tech enterprise in Jilin Province. There are about 100 employees, and the company's sales volume reached 20 million RMB in 2022. The company has more than 30 sets of various equipment including 2 NC laser cutting machines, 6 NC machining centers, 8 welding machines for different purposes, NC cutting machines, NC bending machines and others. After more than 20 years of construction and development, it has formed a comprehensive enterprise of electrical system, carbon steel, stainless steel and aluminum alloy stamping, welding, machining and surface coating. The company has passed the ISO9001:2015 quality management system certification, EN15085 CL1 welding system certification, American standard AWS welding certification, and ISO/TS22163:2017 quality management system certification. It is a high-quality supplier cooperated by CRRC Changchun Railway Vehicles Co., Ltd., the core manufacturer of China's urban rail transit equipment and high-speed train.
Wiper Structural Parts,Wiper Fluid Tank,Electric Wiper Motor Conversion Kit,Wiper Motor Assembly Jilin Zexin Industry Development CO., LTD. , https://www.jilinzexin.com
Peter Burke, an assistant professor of electrical engineering and computer science who participated in the research, said that nanotube devices can be used in high-speed electronic devices, computers, wireless networks or telephone systems in the world, and people will benefit from this technology.
Peter Burke revealed that previous studies have shown that nanotube transistors can operate at very high frequencies, but the interface between transistors uses slow copper to become a speed bottleneck. This study shows that nanotubes can transmit electrical signals from one transistor to one. Another transistor that eliminates bottlenecks.
New nanotechnology enables electrical signal transmission to break through existing bottlenecks
Scientists at the University of California Irvine have announced breakthroughs in the use of nanotechnology. This breakthrough allows electrical signals to travel at speeds up to 10 GHz without the current bottleneck.