Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. This is because of the continuous manufacturing process in which the fiber-reinforced material is pulled through the forming die.  Oil and gas: oil and gas applications, such as wellheads, pipelines, sucker rods, and platforms.

Aliphatic polyketone, often referred to as just polyketone or PK, is a semi-crystalline engineering resin that is an alternating copolymer of carbon monoxide and ethylene with some propylene (1–10%). POM is based on polymerized formaldehyde, which makes the polymer sensitive to thermal degradation, releasing formaldehyde gas. In the chart above, samples were tested for 1,000 hours at 120°C against water/ethylene glycol mixtures, more commonly known as antifreeze.

Aliphatic polyketone, often referred to as just polyketone or PK, is a semi-crystalline engineering resin that is an alternating copolymer of carbon monoxide and ethylene with some propylene (1–10%). POM is based on polymerized formaldehyde, which makes the polymer sensitive to thermal degradation, releasing formaldehyde gas. In the chart above, samples were tested for 1,000 hours at 120°C against water/ethylene glycol mixtures, more commonly known as antifreeze.

Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. This is because of the continuous manufacturing process in which the fiber-reinforced material is pulled through the forming die.  Oil and gas: oil and gas applications, such as wellheads, pipelines, sucker rods, and platforms.

Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. This is because of the continuous manufacturing process in which the fiber-reinforced material is pulled through the forming die.  Oil and gas: oil and gas applications, such as wellheads, pipelines, sucker rods, and platforms.

Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. This is because of the continuous manufacturing process in which the fiber-reinforced material is pulled through the forming die.  Oil and gas: oil and gas applications, such as wellheads, pipelines, sucker rods, and platforms.

Here, continuous fibers, such as glass or carbon, are pulled through a thermoset resin bath, such as epoxy, polyester, or vinyl ester, and then formed into a desired shape using a die. This is because of the continuous manufacturing process in which the fiber-reinforced material is pulled through the forming die.  Oil and gas: oil and gas applications, such as wellheads, pipelines, sucker rods, and platforms.

They also wanted to be able to form the parts onsite without any of the costly finishing processes. If, in the process, the solution delivered a lighter-weight part that would be a great value add for Mars Otomotiv’s customers, which were always trying to cut weight to reduce the carbon emissions of the their vehicles. Mars Otomotiv owned the tooling used to form the metal heat sinks.

Shots Composite Panel Nominal Thickness Nominal Weight Level 1 9mm full metal copper jacket with lead core 1175 ft/sec 358 m/sec 3 GlasArmor™ Level 1 0.256 in 6.5 mm 2.7 lb/ft2 13.2 kg/m2 Level 2 .357 magnum jacketed head soft point 1250 ft/sec 381 m/sec 3 GlasArmor™ Level 2 0.384 in 9.8 mm 4.0 lb/ft2 19.5 kg/m2 Level 3 .44 magnum lead semi-wadcutter gas checked 1350 ft/sec 411 m/sec 3 GlasArmor™ Level 3 0.500 in 12.7 mm 5.2 lb/ft2 26.4 kg/m2 ThermoBallistic™ Level 3 0.440 in 11.2 mm 3.9 lb/ft2 19.0 kg/m2 PR OT EC TI O N L EV EL S Level 4–8: Customized solutions available, contact Avient to learn more. They also play a crucial role in protecting electrical substations and power plants, as highlighted in this Glasforms Case Study. gl=1*qdsy99*_ga*NjU3OTY5NDk3LjE3MzEzMzIyODg.

Manufacturing certificate overview for plants in Latin America (Portuguese  language version) Manufacturing certificate overview for plants in Latin America (Spanish language version)