New sealing materials in bipolar fuel cell technology
Datwyler has expanded its capabilities to support customers transitioning to hydrogen fuel cell technology.
Datwyler has expanded its capabilities to support customers transitioning to hydrogen fuel cell technology.
Datwyler has developed thermal interface materials focusing on stand-alone gasket solutions for battery systems.
Datwyler has launched new, dedicated Technology & Innovation Labs in Schattdorf, Switzerland, comprising a series of specialist laboratories, to further support customers globally.
Datwyler’s production plant in Silao, Mexico, has become the latest facility to receive an upgrade in order to provide Liquid Silicone Rubber (LSR) components to its customers in Mexico and the wider North and South American Region.
Production of Liquid Silicone Rubber components to begin in Wuxi in early 2022.
At the beginning of 2021 Datwyler, Switzerland, started the transfer of Liquid Silicone Rubber (LSR) technology to Wuxi, in the Chinese Jiangsu Province and production of components can start in early 2022
As a leader in system critical components for advanced applications, Datwyler recognized the need to support its customers in China and the wider Asia Pacific area at a local level and commenced a transfer of Liquid Silicone Rubber (LSR) technology capabilities to Wuxi in Jiangsu province earlier this year.
As a leader in system critical components for advanced applications, Datwyler recognized the need to support its customers in China and the wider Asia Pacific area at a local level and commenced a transfer of Liquid Silicone Rubber (LSR) technology capabilities to Wuxi in Jiangsu province earlier this year.
As a leader in system critical components for advanced applications, Datwyler recognized the need to support its customers in China and the wider Asia Pacific area at a local level and commenced a transfer of Liquid Silicone Rubber (LSR) technology capabilities to Wuxi in Jiangsu province earlier this year.
Project ETEMI was launched in 2020 to address challenges in applications related to new mobility. The project has a material development scope that covers conventional elastomers, liquid silicone rubber and thermoplastics.