Sensitive material processing represented by lithium battery electrodes, semiconductor chips, active metal materials and precision chemical reagents has extremely high requirements on the operating environment. Many users often face material damage, sample scrapping and low product yield in the use of ordinary vacuum glove boxes. Tiny atmosphere fluctuations, trace air leakage, unstable purification effect and environmental pollution in the box will cause irreversible damage to sensitive materials, resulting in high defective rate and huge economic losses.
There are three main core problems leading to material damage and low yield. First, the tightness of ordinary equipment is unstable, and micro-air leakage leads to continuous oxidation and moisture corrosion of sensitive active materials, resulting in material performance degradation and scrapping. Second, the atmosphere purification capacity is insufficient, oxygen and moisture content cannot reach the ultra-high standard, and long-term accumulation of trace pollutants affects the purity and performance of materials. Third, the internal box body is easy to generate dust and residual pollutants, and the temperature and humidity are unstable, which interferes with the synthesis and assembly of precision materials and leads to inconsistent product performance.
Low product yield and frequent sample scrapping are the biggest hidden dangers for users’ production and research. In the field of new energy batteries, material oxidation and moisture erosion will lead to reduced battery cycle life, increased internal resistance and high defective rate of finished products. In the field of semiconductor and precision chemical research, environmental pollution will lead to experimental data deviation, failed product development and low batch qualification rate, which not only wastes high-cost raw materials but also delays project progress and causes huge economic losses.
Our high-precision anti-pollution vacuum glove box provides comprehensive protection for sensitive material processing and fundamentally improves product yield. The equipment adopts full-seam welding and multi-layer sealing technology to realize zero micro-leakage of the box body, completely isolating external air and moisture, and providing a stable closed inert environment for sensitive materials.
The upgraded high-efficiency purification system stably maintains the internal ultra-low oxygen and ultra-low moisture environment, eliminates trace pollutant interference, and ensures that active materials will not be oxidized and hydrolyzed during processing. The internal box body is made of high-purity anti-corrosion and dust-free materials, with smooth and easy-to-clean surface, no dust residue and no chemical precipitation, avoiding secondary pollution to samples. At the same time, the equipment is equipped with constant temperature and constant pressure control system to keep the internal environmental parameters stable, eliminating the interference of temperature and pressure fluctuations on precision processing.
Aiming at the whole process of material transfer, processing and storage, our equipment realizes full-link environmental protection. The intelligent front cabin transfer system avoids atmosphere impact caused by material in and out, and the continuous circulating purification system ensures real-time cleanliness of the working area. Mass user verification shows that the equipment can reduce the defective rate of sensitive materials by more than 95% and greatly improve the success rate of experiments and batch product qualification rate.
For new energy, semiconductor, fine chemical and material research users, our vacuum glove box completely solves the pain points of material damage and low yield, maximizes the utilization rate of high-cost raw materials, reduces waste loss, and creates higher economic value for users’ research and production.
