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Covestro has developed a sustainable cast polyurethane elastomer solution that enables the offshore industry to reduce its environmental impact and carbon footprint
.
In search of a more sustainable solution for the offshore industry, molding company Polarttech chose a Desmodur® elastomer system containing cardyon® polyols
.
● Parts produced using this system exhibit very good resistance to hydrolysis, as expected for marine applications, and are more durable than other elastomers such as rubber
.
● This polyurethane system is capable of producing high-performance elastomers with even better mechanical properties, such as tensile strength and tear resistance, than the corresponding conventional cast polyurethane systems made from fossil raw materials
.
● This solution offers the possibility to reduce carbon footprint and dependence on fossil feedstocks
.
Thomas Braig, head of Covestro's Elastomers business, said: "The use of carbon dioxide in chemical feedstocks is a ground-breaking innovation that fits perfectly with our recycling vision
.
Arthur Brouwers, CTO of Polarttech, added: "Our goal is to provide our customers with the quality products they need
.
Covestro has developed a sustainable cast polyurethane elastomer solution that enables the offshore industry to reduce its environmental impact and carbon footprint
.
In search of a more sustainable solution for the offshore industry, molding company Polarttech chose a Desmodur® elastomer system containing cardyon® polyols
.
This cast polyurethane elastomer offers the following advantages:
● Parts produced using this system exhibit very good resistance to hydrolysis, as expected for marine applications, and are more durable than other elastomers such as rubber
.
● This polyurethane system is capable of producing high-performance elastomers with even better mechanical properties, such as tensile strength and tear resistance, than the corresponding conventional cast polyurethane systems made from fossil raw materials
.
● This solution offers the possibility to reduce carbon footprint and dependence on fossil feedstocks
.
Thomas Braig, head of Covestro's Elastomers business, said: "The use of carbon dioxide in chemical feedstocks is a ground-breaking innovation that fits perfectly with our recycling vision
.
Of course, what is important to us is the actual use Successful application
.
We are delighted that manufacturers have chosen this sustainable solution and thank them for their trust in our innovations, especially our Desmodur® elastomer system, which includes cardyon® polyols
.
”
Arthur Brouwers, CTO of Polarttech, added: "Our goal is to provide our customers with the quality products they need
.
The tests we carried out confirmed the characteristics and processing conditions of the system developed by Covestro
.
The newly developed solution is back in Outperforms Polarttech's previous systems in terms of stretch and abrasion resistance
.
Additionally, processing is easier due to longer pot life and good separation properties when the part is demolded
.
The use of cardyon® polyols in our system enables this project Completed successfully and made it the perfect solution for all involved, especially for the environment!"
Covestro has developed a sustainable cast polyurethane elastomer solution that enables the offshore industry to reduce its environmental impact and carbon footprint
.
Polyurethane elastomers are based on cardyon® brand polyols, which contain carbon dioxide and have the same good properties as the corresponding petrochemical-based elastomers
.
Covestro has developed a new technology that makes it possible to produce these precursors from carbon dioxide at up to 20% by weight, replacing some of the fossil feedstocks used so far
.
This development contributes to carbon recycling and underlines Covestro's intention to focus all its activities on the circular economy
.
In search of a more sustainable solution for the offshore industry, molding company Polarttech chose a Desmodur® elastomer system containing cardyon® polyols
.
This cast polyurethane elastomer offers the following advantages:
● Parts produced using this system exhibit very good resistance to hydrolysis, as expected for marine applications, and are more durable than other elastomers such as rubber
.
● This polyurethane system is capable of producing high-performance elastomers with even better mechanical properties, such as tensile strength and tear resistance, than the corresponding conventional cast polyurethane systems made from fossil raw materials
.
● This solution offers the possibility to reduce carbon footprint and dependence on fossil feedstocks
.
Thomas Braig, head of Covestro's Elastomers business, said: "The use of carbon dioxide in chemical feedstocks is a ground-breaking innovation that fits perfectly with our recycling vision
.
Of course, what is important to us is the actual use Successful application
.
We are delighted that manufacturers have chosen this sustainable solution and thank them for their trust in our innovations, especially our Desmodur® elastomer system, which includes cardyon® polyols
.
”
Arthur Brouwers, CTO of Polarttech, added: "Our goal is to provide our customers with the quality products they need
.
The tests we carried out confirmed the characteristics and processing conditions of the system developed by Covestro
.
The newly developed solution is back in Outperforms Polarttech's previous systems in terms of stretch and abrasion resistance
.
Additionally, processing is easier due to longer pot life and good separation properties when the part is demolded
.
The use of cardyon® polyols in our system enables this project Completed successfully and made it the perfect solution for all involved, especially for the environment!"
Covestro has developed a sustainable cast polyurethane elastomer solution that enables the offshore industry to reduce its environmental impact and carbon footprint
.
Polyurethane elastomers are based on cardyon® brand polyols, which contain carbon dioxide and have the same good properties as the corresponding petrochemical-based elastomers
.
Covestro has developed a new technology that makes it possible to produce these precursors from carbon dioxide at up to 20% by weight, replacing some of the fossil feedstocks used so far
.
This development contributes to carbon recycling and underlines Covestro's intention to focus all its activities on the circular economy
.
In search of a more sustainable solution for the offshore industry, molding company Polarttech chose a Desmodur® elastomer system containing cardyon® polyols
.
This cast polyurethane elastomer offers the following advantages:
● Parts produced using this system exhibit very good resistance to hydrolysis, as expected for marine applications, and are more durable than other elastomers such as rubber
.
● This polyurethane system is capable of producing high-performance elastomers with even better mechanical properties, such as tensile strength and tear resistance, than the corresponding conventional cast polyurethane systems made from fossil raw materials
.
● This solution offers the possibility to reduce carbon footprint and dependence on fossil feedstocks
.
Thomas Braig, head of Covestro's Elastomers business, said: "The use of carbon dioxide in chemical feedstocks is a ground-breaking innovation that fits perfectly with our recycling vision
.
Of course, what is important to us is the actual use Successful application
.
We are delighted that manufacturers have chosen this sustainable solution and thank them for their trust in our innovations, especially our Desmodur® elastomer system, which includes cardyon® polyols
.
”
Arthur Brouwers, CTO of Polarttech, added: "Our goal is to provide our customers with the quality products they need
.
The tests we carried out confirmed the characteristics and processing conditions of the system developed by Covestro
.
The newly developed solution is back in Outperforms Polarttech's previous systems in terms of stretch and abrasion resistance
.
Additionally, processing is easier due to longer pot life and good separation properties when the part is demolded
.
The use of cardyon® polyols in our system enables this project Completed successfully and made it the perfect solution for all involved, especially for the environment!"
