No freedom from any patents or other industrial or intellectual property rights is granted or to be inferred. They also add important characteristics, such as SWELLCOAT® water-blocking, water repellence, adhe- sion, color, and wear and UV-resistance to these and many other applications.

Based on this relationship, the designers decided to meet with Avient to determine how a joint team could change the game when it came to mitigating recoil. The new material, a GLS™ thermoplastic elastomer (TPE) from Avient, met the rigorous needs of the high-end rifle manufacturer, and then some.

They are based on management’s expectations that involve a number of business risks and uncertainties, any of which could cause actual results to differ materially from those expressed in or implied by the forward-looking statements. Use of Non-GAAP Measures This presentation includes the use of both GAAP (generally accepted accounting principles) and non-GAAP financial measures. In 2021, we expect substantial earnings growth and strong cash flow generation as we emerge from the COVID-19 pandemic.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use. These oxides have high thermal and electrical conductivity (although hematite can conduct more heat), can block radiation, and can dampen sound.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use. These oxides have high thermal and electrical conductivity (although hematite can conduct more heat), can block radiation, and can dampen sound.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use. These oxides have high thermal and electrical conductivity (although hematite can conduct more heat), can block radiation, and can dampen sound.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use. These oxides have high thermal and electrical conductivity (although hematite can conduct more heat), can block radiation, and can dampen sound.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use. These oxides have high thermal and electrical conductivity (although hematite can conduct more heat), can block radiation, and can dampen sound.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use. These oxides have high thermal and electrical conductivity (although hematite can conduct more heat), can block radiation, and can dampen sound.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Biobased fibers and fillers come from renewable resources, such as the waste from harvesting and processing agricultural products or sometimes from nonfood crops, such as hemp, grown specifically for industrial use. These oxides have high thermal and electrical conductivity (although hematite can conduct more heat), can block radiation, and can dampen sound.