Cutting edge technology achieves extremely low tolerance manufacturing
MSJ Spring focuses on the production of extremely low tolerance springs for semiconductor and UHV components with cutting-edge manufacturing technology, fully supporting high-performance semiconductor applications in the industry. Whether it's starting a customized manufacturing project to obtain quotes or purchasing inventory parts online, we can meet your diverse needs. Relying on the latest equipment, we ensure that our products meet high standards in long travel, strict tolerances, and flexibility, providing solid support for mechanical motion in semiconductor and UHV applications.
Flexible design, customized with diverse core components
MSJ provides standard and customized components for semiconductor, ultra-high vacuum (UHV), and ultra-high purity (UHP) applications. Our springs and hardware are designed and manufactured with great flexibility, which can convert temperature and pressure into precise motion while effectively preventing leakage. They can be adapted to different application scenarios and can also be customized according to needs to meet special requirements such as installing stages and probes in pressurized containers. These springs and hardware components are widely used in chip manufacturing, high vacuum wafer processing, and other equipment to ensure stable operation with excellent performance.
MSJ Spring provides services covering the entire product development cycle, from conceptual design to precision machining, and then to quality assurance testing, providing professional support throughout the entire process. Whether you are pursuing airtight sealing springs for high vacuum applications or committed to improving semiconductor equipment performance, we can customize products based on new design or modification needs. Our professional team will work closely with you to accurately match the best components, design and manufacturing solutions, ensuring the production of highly reliable parts and helping equipment operate efficiently.
