BETATECH
Products (7)

BETATECH
BETATECH™ 2120
Chemical Family: Epoxy & Epoxy Derivatives, Polyurethanes (PU)
BETATECH™ 2120 is a two component epoxy based thermal interface material with a high thermal conductivity. BETATECH™ 2120 is based on aluminum trihydroxide fillers that lead to a high thermal conductivity accompanied by a low density. The two component material is mixed 1:1 by volume and it can be efficiently applied so that the parts can be joined quickly due to a low press-in force. The material is free of silicones.

BETATECH
BETATECH™ 2030
Chemical Family: Polyurethanes (PU)
BETATECH™ 2030 is a two component thermal interface material based on a polyurethane technology with a very high thermal conductivity. BETATECH™ 2030 is based on aluminum oxide fillers that lead to a very high thermal conductivity accompanied by a medium density. The material can be efficiently applied and the parts can be joined quickly due to a low press-in force. The material is free of silicones.

BETATECH
BETATECH™ 2029
Chemical Family: Polyurethanes (PU)
BETATECH™ 2029 is a two component thermal interface material based on a polyurethane technology with a very high thermal conductivity. BETATECH™ 2029 is based on aluminum trihydroxide fillers that lead to a very high thermal conductivity accompanied by a low density. The material can be efficiently applied and the parts can be joined quickly due to a low press-in force. The material is free of silicones.

BETATECH
BETATECH™ 2028
BETATECH™ 2028 is a two component thermal interface material based on a polyurethane technology with a high thermal conductivity. BETATECH™ 2028 is based on aluminum trihydroxide fillers that lead to a very high thermal conductivity accompanied by a low density. The material can be efficiently applied and the parts can be joined quickly due to a low press-in force. The material is free of silicones.

BETATECH
BETATECH™ 2022
Chemical Family: Polyurethanes (PU)
BETATECH™ 2022 is a two component thermal interface material based on a polyurethane technology with a high thermal conductivity and a low viscosity. The pasteous thermal interface material has a high thermal conductivity. The material shows a very low viscosity which leads to low press-in forces even when modules are joined quickly. The material is free of silicones.

BETATECH
BETATECH™ 1037
Chemical Family: Polyurethanes (PU)
BETATECH™ 1037 is a one component polyurethane based thermal interface material that is free of silicones. The pasteous thermal interface material has a very high thermal conductivity. The material can be easily applied with a one component application equipment and offers low press-in forces that allow an efficient assembly.

Brand Summary
Identification & Functionality
Features & Benefits
Applications & Uses
Brand Highlights
- Non-abrasive formulation – no equipment wear
- Fast dispensing
- Fast joining
- No sagging in vertical aging test
- Retention of thermal conductivity
- Long working time
- No physical change over aging
- Low pull-out force supports battery repair
- To support thermal management in the battery pack assembly
Control Battery Heat with BETATECH™ Thermal Interface Material
Thermal management for battery modules is essential to safety and long service life. As a market leader in adhesive and sealing technology, DuPont has applied its materials science know-how to solving battery pack thermal management issues. The result is a game-changing solution, BETATECH™ thermal interface material, for use in battery pack assembly between the battery cells and the cooling plate.
BETATECH™ Battery Pack Solutions
BETATECH™ is used to support thermal management in the battery pack assembly