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Thumbnail Filmstrip of TE-G653-37 Glass Fiber Filter 37mm Diameter for Air Sampling Applications (100/pk) Images
The TE-G653-37 is a high-quality glass fiber filter designed for laboratory and environmental air sampling applications. Pore size is typically specified in micrometers (µm) and the smallest available pore size rating for the glass fiber filters is 0.3µm, making these filters suitable for capturing fine particles and maintaining excellent filtration performance.
Technical Characteristics
Glass fiber filter media is made from 100% micro-fine borosilicate glass fibers. Due to their large void volume, they capture significant amounts of particulate within their pore structure. These filters are engineered to provide fine particle retention and high flow rate, as well as good loading capacity.
Key Specifications
- Diameter: 37mm
- Material: Borosilicate glass fiber
- Pore structure: Depth filtration with tortuous pathways
- Pack quantity: 100 filters per package
- Operating temperature: High thermal stability suitable for laboratory applications
Compatibility and Applications
The TE-G653-37 filters are compatible with standard 37mm filter holders and air sampling equipment commonly used in environmental monitoring and laboratory analysis. Used for high-efficiency general purpose laboratory filtration. These filters are particularly well-suited for:
- Ambient air particulate sampling
- Indoor air quality assessments
- Stack emission monitoring
- Environmental compliance monitoring
- Research and analytical applications requiring particle collection
Performance Characteristics
As a result of the manufacturing process, one side of the glass fiber filters is indeed slightly rougher than the other side. This difference does not affect performance and users need not be concerned with filter orientation. The filters will exhibit similar retention and throughput regardless of which surface is facing upstream.
Glass fiber filters are used where high flow rate and micron/sub-micron filtration is required. The depth filtration structure provides excellent particle loading capacity while maintaining consistent flow characteristics throughout the sampling period.