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No Cracking Cellular Glass Board Thermal Insulation Good Dimensional Stability

Place of Origin Changzhou, Jiangsu,China
Brand Name Kaff Rees
Certification SGS
Minimum Order Quantity 20 Cubic Meters
Price Negotiable
Packaging Details Carton packaging/Wooden case packaging/according to the requirements
Delivery Time Negotiable
Payment Terms EXW/FOB/CIF
Supply Ability According to products
Product Details
Name Cellular Glass Board Thermal Insulation Feature No Crackin
Dimensional Stability ≤0.3 Tensile Strength Vertical To The Plane ≥0.15
Combustibility A1 Application Petroleum Industry
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Product Description
No Cracking Cellular Glass Board Thermal Insulation with Good Dimensional Stability
Cellular glass insulation withstands loads that crush most other insulating materials. In properly designed piping systems, it eliminates special treatment requirements at pipe cradles. It serves as a fire-resistant base for roof membranes, jacketing, or vapor retarders, extending their lifespan.
Cellular glass is an inorganic rigid insulation material that is non-toxic, environmentally friendly, and suitable for both cryogenic and high-temperature environments. It represents the optimal comprehensive solution for low-temperature thermal insulation.
Key Features
  1. Low density, low thermal conductivity, and high compressive strength
  2. No water absorption, moisture permeability, or leakage
  3. Small thermal expansion coefficient with excellent dimensional stability (no deformation or cracking)
  4. Fireproof, non-combustible, and corrosion resistant
  5. Resistant to mildew, rodents, pests, and microorganisms
  6. Suitable for harsh environments including high temperature, deep cold, and constant humidity
  7. Easy to cut, process, and install
  8. Inorganic composition ensures no aging or performance degradation (service life matches buildings)
  9. Recyclable, non-toxic, safe, and environmentally friendly
Performance Specifications
Item Performance Index Test Mode
I | II | III | IV
Volume density (Kg/m3) ≤120 | ≤140 | ≤160 | ≤180 JC/T 647
Density range >100 ≤120 | >120 ≤140 | >140 ≤160 | >160 ≤180
Conductivity (W/(m*k)) ≤0.042 | ≤0.045 | ≤0.058 | ≤0.062 GB/T 10294
Compressive strength (MPa) ≥0.5 | ≥0.6 | ≥0.6 | ≥0.7 GB/T 5486
Flexural strength (MPa) ≥0.3 | ≥0.5 | ≥0.5 | ≥0.6
Tensile strength vertical to plane (MPa) ≥0.15 JG149
Water Absorption by Vol. (v/v,%) ≤0.5 JC/T 647
Dimensional stability (%) ≤0.3 GB/T 8811
Combustibility A1 GB 8624
Radionuclide limit Internal exposure index (Ira) ≤1.0 | External exposure index (Ir) ≤1.0 GB 6566
Property Unit Grade 800 Grade 1000 Grade 1200 Grade 1600
Ave. Density kg/m3 120±8 130±8 140±8 160±10
Thermal Conductivity Ave. Value (W/(m*K)) 0.043 0.044 0.046 0.048
Highest Single Value (10℃) 0.045 0.046 0.048 0.05
Compressive Strength Ave. Value (MPa) 0.8 1 1.2 1.6
Lowest Single Value 0.55 0.69 0.83 1.1
Water Absorption by Vol. % ≤0.5
Thermal Expansion Coefficient 1/℃ 9×10-6
Service Temp. -196~+450
Property Unit Grade 500 Grade 700 Grade 1400 Grade 2400
Ave. Density kg/m3 110±8 115±8 150±10 220±20
Thermal Conductivity Ave. Value (W/(m*K)) 0.038 0.04 0.047 0.056
Highest Single Value (10℃) 0.04 0.042 0.049 0.058
Compressive Strength Ave. Value (MPa) 0.5 0.7 1.4 2.4
Lowest Single Value 0.35 0.48 0.97 1.66
Water Absorption by Vol. % ≤0.5
Thermal Expansion Coefficient 1/℃ 9×10-6
Service Temp. -196~+450
Applications
As an advanced thermal insulation material, cellular glass is widely used in:
  • Petroleum and chemical industries
  • Underground engineering projects
  • Shipbuilding and defense works
  • Cryogenic insulation systems in pharmaceutical applications
  • Hydrocarbon processing systems
  • Low temperature piping, equipment, and storage tanks
  • Cold storage facilities and buildings
  • Steel liquid oxygen and nitrogen storage tanks/pipelines
  • Exterior wall, roof, and basement insulation
Production Flow
Cellular glass insulation production process diagram