In the field of aerospace, the design and manufacture of aircraft pursue extreme lightness and high strength. Due to the unique connection requirements of various aircraft components, standard screws cannot be fully adapted. Non-standard screws came into being, and engineers tailored non-standard screws according to the force characteristics, space limitations and material properties of different parts. These screws can not only accurately connect aviation materials tightly and withstand strong stress and complex vibrations during flight, but also reduce the overall weight through optimized design, improve the fuel efficiency and flight performance of aircraft, and provide reliable guarantees for every breakthrough in aviation exploration.
Non-standard screws are also crucial in the manufacture of deep-sea exploration equipment. The deep-sea environment has extreme characteristics such as high pressure, strong corrosion, and low temperature. Ordinary screws can hardly withstand such harsh conditions. Researchers have developed non-standard screws with special materials and structures for key parts such as shell sealing and sensor installation of deep-sea exploration equipment. These screws are made of corrosion-resistant alloy materials and have a special sealing structure to ensure that the equipment can still maintain good sealing and stability under the huge water pressure of the thousand-meter deep sea, so that deep-sea exploration equipment can successfully complete data collection and scientific research tasks, and help humans explore the depth of the mysterious ocean.
In the field of high-end medical equipment manufacturing, precision surgical instruments and diagnostic equipment require high-precision connection components. Non-standard screws, with their customized dimensional accuracy and special surface treatment process, meet the strict requirements of medical equipment for the connection of tiny components. For example, in optical equipment such as microscopes, non-standard screws can achieve stable installation of precision components such as lenses, ensuring the clarity and stability of equipment imaging; in minimally invasive surgical instruments, the fine design of non-standard screws helps the flexible operation of the instruments, reduces damage to patient tissues, and provides solid hardware support for the advancement of medical technology.
With the advancement of Industry 4.0 and intelligent manufacturing, special industrial scenarios have an increasing demand for personalized and high-precision parts. With its unique customization advantages, Non-Standard Screw is gradually becoming an important supporting force for innovation and development in special industrial fields.
