PC/PBT BLUE SQUARE BLACK PC/PBT BLUESQUARE BLUE

WHITE PBT/PC FR CMPD BLACK PBT/PC FR CMPD

FIBER MANUFACTURER T E X T I L E S & F A B R I C S • Provide a Product Carbon Footprint (PCF) calculation to align with ISO 14067:2018 and to help in meeting sustainability goals • Procure feedstock from renewable resources • Maintain comparative performance to conventional carbon black • Achieve color stability under xenon arc and TUV testing • Offer solutions for rPET, PP, PE, PBT, and PA6 where a desire for environmentally responsible products exists • Offered sustainable platform approach supported by extensive fiber expertise • Helped meet sustainability targets while attaining all design and engineering goals • Supplied necessary PCF calculation certified by TÜV Rheinland and aligning with ISO 14067 requirements • Provided effective alternative to virgin carbon black • Achieved reductions in CO2e emissions vs. conventional technology, moving toward carbon- negative OnColor™ REC Polymer Colorants KEY REQUIREMENTS WHY AVIENT?

In a balanced runner system, the melt flows into each cavity at equal times and pressure. A good starting point for the gate width should be 1.0 - 1.5 times the gate depth. To prevent drool, the runner system should be minimized and the melt decompressed before the mold opens.

A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling. The point where conductivity begins is called the “percolation threshold.” Copper filler, often in powder or flake form, is also a good substitute for aluminum, as it has a much higher melting point and doesn’t corrode like aluminum will.

A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling. The point where conductivity begins is called the “percolation threshold.” Copper filler, often in powder or flake form, is also a good substitute for aluminum, as it has a much higher melting point and doesn’t corrode like aluminum will.

A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling. The point where conductivity begins is called the “percolation threshold.” Copper filler, often in powder or flake form, is also a good substitute for aluminum, as it has a much higher melting point and doesn’t corrode like aluminum will.

A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling. The point where conductivity begins is called the “percolation threshold.” Copper filler, often in powder or flake form, is also a good substitute for aluminum, as it has a much higher melting point and doesn’t corrode like aluminum will.

A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling. The point where conductivity begins is called the “percolation threshold.” Copper filler, often in powder or flake form, is also a good substitute for aluminum, as it has a much higher melting point and doesn’t corrode like aluminum will.

A filled compound can differ from an unfilled polymer in the way it melts and flows in an extruder or injection molding machine— but it has better heat transfer and may require less energy for melting and cooling. The point where conductivity begins is called the “percolation threshold.” Copper filler, often in powder or flake form, is also a good substitute for aluminum, as it has a much higher melting point and doesn’t corrode like aluminum will.