Improving safety for those that protect us—law enforcement, first responders, and military service personnel.

OnFlex TPEs add the performance and safety needed for applications such as automotive components

Graphene is a flat, single layer of carbon atoms in sheet form that is significantly stronger than steel.3 It has a high surface area-to-volume ratio, high tensile strength (how much it can stretch before it breaks), and high electron mobility (the speed at which its electrons move when voltage is applied).4 Graphene is not a new material, but it recently became commercially available and is now being used as a polymer additive. Boyson, et al., “Graphene: Sheets of Carbon-based Nanoparticles,” http://www.dummies.com/education/science/nanotechnology/graphene-sheets-of-carbon-based-nanoparticles/ 5E. Compounds at the high end of the resistivity scale shield against electromagnetic interference (EMI) or radio-frequency interference (RFI).1 Faster data transmission and broader electromagnetic frequencies are driving the need for better EMI/RFI protection for electronic devices.2

Graphene is a flat, single layer of carbon atoms in sheet form that is significantly stronger than steel.3 It has a high surface area-to-volume ratio, high tensile strength (how much it can stretch before it breaks), and high electron mobility (the speed at which its electrons move when voltage is applied).4 Graphene is not a new material, but it recently became commercially available and is now being used as a polymer additive. Boyson, et al., “Graphene: Sheets of Carbon-based Nanoparticles,” http://www.dummies.com/education/science/nanotechnology/graphene-sheets-of-carbon-based-nanoparticles/ 5E. Compounds at the high end of the resistivity scale shield against electromagnetic interference (EMI) or radio-frequency interference (RFI).1 Faster data transmission and broader electromagnetic frequencies are driving the need for better EMI/RFI protection for electronic devices.2

Graphene is a flat, single layer of carbon atoms in sheet form that is significantly stronger than steel.3 It has a high surface area-to-volume ratio, high tensile strength (how much it can stretch before it breaks), and high electron mobility (the speed at which its electrons move when voltage is applied).4 Graphene is not a new material, but it recently became commercially available and is now being used as a polymer additive. Boyson, et al., “Graphene: Sheets of Carbon-based Nanoparticles,” http://www.dummies.com/education/science/nanotechnology/graphene-sheets-of-carbon-based-nanoparticles/ 5E. Compounds at the high end of the resistivity scale shield against electromagnetic interference (EMI) or radio-frequency interference (RFI).1 Faster data transmission and broader electromagnetic frequencies are driving the need for better EMI/RFI protection for electronic devices.2

Graphene is a flat, single layer of carbon atoms in sheet form that is significantly stronger than steel.3 It has a high surface area-to-volume ratio, high tensile strength (how much it can stretch before it breaks), and high electron mobility (the speed at which its electrons move when voltage is applied).4 Graphene is not a new material, but it recently became commercially available and is now being used as a polymer additive. Boyson, et al., “Graphene: Sheets of Carbon-based Nanoparticles,” http://www.dummies.com/education/science/nanotechnology/graphene-sheets-of-carbon-based-nanoparticles/ 5E. Compounds at the high end of the resistivity scale shield against electromagnetic interference (EMI) or radio-frequency interference (RFI).1 Faster data transmission and broader electromagnetic frequencies are driving the need for better EMI/RFI protection for electronic devices.2

Graphene is a flat, single layer of carbon atoms in sheet form that is significantly stronger than steel.3 It has a high surface area-to-volume ratio, high tensile strength (how much it can stretch before it breaks), and high electron mobility (the speed at which its electrons move when voltage is applied).4 Graphene is not a new material, but it recently became commercially available and is now being used as a polymer additive. Boyson, et al., “Graphene: Sheets of Carbon-based Nanoparticles,” http://www.dummies.com/education/science/nanotechnology/graphene-sheets-of-carbon-based-nanoparticles/ 5E. Compounds at the high end of the resistivity scale shield against electromagnetic interference (EMI) or radio-frequency interference (RFI).1 Faster data transmission and broader electromagnetic frequencies are driving the need for better EMI/RFI protection for electronic devices.2

Graphene is a flat, single layer of carbon atoms in sheet form that is significantly stronger than steel.3 It has a high surface area-to-volume ratio, high tensile strength (how much it can stretch before it breaks), and high electron mobility (the speed at which its electrons move when voltage is applied).4 Graphene is not a new material, but it recently became commercially available and is now being used as a polymer additive. Boyson, et al., “Graphene: Sheets of Carbon-based Nanoparticles,” http://www.dummies.com/education/science/nanotechnology/graphene-sheets-of-carbon-based-nanoparticles/ 5E. Compounds at the high end of the resistivity scale shield against electromagnetic interference (EMI) or radio-frequency interference (RFI).1 Faster data transmission and broader electromagnetic frequencies are driving the need for better EMI/RFI protection for electronic devices.2

Graphene is a flat, single layer of carbon atoms in sheet form that is significantly stronger than steel.3 It has a high surface area-to-volume ratio, high tensile strength (how much it can stretch before it breaks), and high electron mobility (the speed at which its electrons move when voltage is applied).4 Graphene is not a new material, but it recently became commercially available and is now being used as a polymer additive. Boyson, et al., “Graphene: Sheets of Carbon-based Nanoparticles,” http://www.dummies.com/education/science/nanotechnology/graphene-sheets-of-carbon-based-nanoparticles/ 5E. Compounds at the high end of the resistivity scale shield against electromagnetic interference (EMI) or radio-frequency interference (RFI).1 Faster data transmission and broader electromagnetic frequencies are driving the need for better EMI/RFI protection for electronic devices.2

Fiber-Line™ Swellcoat™ Water Blocking Yarns support 5G antennae, data centers, and backbone cable designs to prevent equipment damage and signal attenuation due to water ingression in the cables.