GB2440-F2 Four Workstations Glove box

Overview

The GB2440-F2 Four Workstations Glove Box is a multi-user inert-atmosphere workstation designed for lithium battery fabrication, moisture-sensitive material handling, and controlled sample preparation. It provides a sealed working environment where operators manipulate materials through integrated gloves while maintaining an ultra-low oxygen and moisture atmosphere. This helps protect reactive powders, electrodes, electrolytes, and assembled cells from degradation during research and pre-production workflows.

Principle of Operation

This glove box works by isolating the internal chamber from ambient laboratory air and supporting controlled gas handling through a sealed enclosure, filtered gas inlet and outlet, and low-leakage construction. In battery and electrochemistry laboratories, this type of system is commonly used to reduce oxygen- and water-driven side reactions during electrode preparation, cell assembly, electrolyte filling, and transfer of air-sensitive components. Comparable TOB glove-box systems are designed around inert-gas handling and low-moisture, low-oxygen operation for battery research environments.

Key Features and Specifications

• Four workstation configuration for improved throughput and shared operation
• Box size: 2440 × 1000 × 900 mm
• Chamber material: 3 mm thick SS304 stainless steel
• Front windows: tilt design with 8 mm glass
• Glove ports: polyoxymethylene construction with O-ring sealing
• Gloves: butyl rubber, 0.4 mm thickness, 8-inch diameter, 32-inch length
• Water/oxygen index: less than 0.1 ppm
• Leakage rate: 0.001 vol%/h
• Filter: 0.3 micron, with one gas inlet and one gas outlet
• Internal shelving: stainless steel, two layers
• Lighting: LED lights positioned in front of each viewing window
• Connector: DN40 KF, with 220 V power interface
  
  

Applications and Compatibility

Suitable for lithium-ion, sodium-ion, and solid-state battery research, as well as handling air-sensitive chemicals, precursors, separators, and electrochemical components. It can be integrated into broader battery R&D workflows alongside mixers, coaters, crimpers, sealers, battery cyclers, and selected electrochemical testing systems.

Why Choose ScienceGears

ScienceGears supports researchers in Australia and New Zealand with practical guidance on configuring glove-box workflows for battery testing, electrochemistry, and materials research. Beyond supply, we help match the glove box with complementary laboratory equipment and application needs, making it easier to build a reliable and research-ready inert processing platform.