Air Products Home

Plastics Processing

Injection Molding

Air Products applications engineers can work with you to understand your injection molding processes and implement tailored systems to meet your specific needs. We can provide a variety of technical services, gas-based solutions and a full line of industrial gases—including nitrogen for small and large volume users. From high pressure nitrogen to cryogenic grinding solutions, our offerings can help you cool your molds faster, maximize productivity, and achieve finer and more uniform particle distribution. Plus, our engineers can recommend improvements that can help you optimize gas use and improve product quality.

Other Applications

Product NameDescription/BenefitsDownloads
Gases

Nitrogen

By injecting high pressure nitrogen into your melt as it starts to solidify you can enable faster cooling and reduced cycle times, material consumption, warpage, distortion, sink marks and other surface defects; more aesthetically pleasing packaging; and increased production rates. Ultracold, inert nitrogen can also help reduce heat produced in your grinding process, resulting in high-quality, very fine, uniformly sized particles.

By injecting high pressure nitrogen into your melt as it starts to solidify you can enable faster cooling and reduced cycle times, material consumption, warpage, distortion, sink marks and other surface defects; more aesthetically pleasing packaging; and increased production rates. Ultracold, inert nitrogen can also help reduce heat produced in your grinding process, resulting in high-quality, very fine, uniformly sized particles.

Equipment

High Pressure Nitrogen System

These systems provide an efficient, economical way to obtain high-volume, high-pressure gas for your injection molding process to achieve pressure uniformity throughout the molding process. They provide constant pressure, maintaining your houseline pressure while minimizing refrigerant losses. Our systems can help you maximize productivity and improve your bottom line.

These systems provide an efficient, economical way to obtain high-volume, high-pressure gas for your injection molding process to achieve pressure uniformity throughout the molding process. They provide constant pressure, maintaining your houseline pressure while minimizing refrigerant losses. Our systems can help you maximize productivity and improve your bottom line.

PolarFit® cryogenic grinding solutions

View our product website. There are many ways to make your cryogenic grinding/milling process more efficient. We can provide turnkey cryogenic grinding systems or components of the system to retrofit your existing process. Based on your current process, feed material and desired product goals, our cryogenic specialists can help you find and implement the optimal solution to grind more effectively and efficiently, particularly for heat sensitive or tough-to-mill materials.

View our product website. There are many ways to make your cryogenic grinding/milling process more efficient. We can provide turnkey cryogenic grinding systems or components of the system to retrofit your existing process. Based on your current process, feed material and desired product goals, our cryogenic specialists can help you find and implement the optimal solution to grind more effectively and efficiently, particularly for heat sensitive or tough-to-mill materials.

PolarFit® Cryogenic Liberation Process

Off-spec parts made from a polymer and a metal contain materials that can be valuable if they are recovered and recycled. Our process offers you an environmentally sustainable way to recover clean components for reuse and recycling. This liberation process uses liquid nitrogen to cool components to extremely low temperatures. At these low temperatures, the polymer portion contracts at a greater rate than the metal portion of the part, creating enough stress to break the bond between the polymer and the metal. This technology can be applied in your separation process to generate a stream of clean metal and a stream of metal-free polymers, making it easier to recover and recycle. Air Products applications engineers can help you evaluate the use of cryogenic liberation in your processes.

Off-spec parts made from a polymer and a metal contain materials that can be valuable if they are recovered and recycled. Our process offers you an environmentally sustainable way to recover clean components for reuse and recycling. This liberation process uses liquid nitrogen to cool components to extremely low temperatures. At these low temperatures, the polymer portion contracts at a greater rate than the metal portion of the part, creating enough stress to break the bond between the polymer and the metal. This technology can be applied in your separation process to generate a stream of clean metal and a stream of metal-free polymers, making it easier to recover and recycle. Air Products applications engineers can help you evaluate the use of cryogenic liberation in your processes.

Services

Consulting Services

With decades of laboratory and plant experience in cryogenics, our experienced staff can help you identify areas for potential improvements and recommend solutions that can help you improve your operation's efficiency, safety and profitability. We can run your product on production-scale equipment at our trial facility to determine the feasibility of using cryogenics in your process and help you quantify the benefits versus the cost.

With decades of laboratory and plant experience in cryogenics, our experienced staff can help you identify areas for potential improvements and recommend solutions that can help you improve your operation's efficiency, safety and profitability. We can run your product on production-scale equipment at our trial facility to determine the feasibility of using cryogenics in your process and help you quantify the benefits versus the cost.

X

This site uses cookies to store information on your computer. Some are essential to make our site work; others help us to better understand our users. By using the site, you consent to the placement of these cookies. Read our Legal Notice to learn more.

Close