https://www.avient.com/resources/safety-data-sheets?page=496
RUBINE RED C
PX-V-121 BLACK NON PHTHALATE HOT MELT
https://www.avient.com/resources/safety-data-sheets?page=3359
162CGNS SP PANTONE(R) 162 C SIMULATION
Geon(TM) MM535 HOT MELT PLASTISOL
https://www.avient.com/resources/safety-data-sheets?page=2490
PX-C-192 NEUTRAL HOT MELT
https://www.avient.com/resources/safety-data-sheets?page=2699
PX-C-200 NEUTRAL HOT MELT
https://www.avient.com/resources/safety-data-sheets?page=3599
YELLOW C
Geon(TM) MM545 HOT MELT PLASTISOL
https://www.avient.com/resources/safety-data-sheets?page=1134
PX-V-267 CLEAR HOT MELT BASE
YELLOW C
https://www.avient.com/products/long-fiber-technology/complet-long-glass-fiber
This toughness is retained in demanding environments, such as cold temperatures (-60°F/-51°C).
Long glass fiber composites start as continuous filaments of fiber, which we melt-impregnate with thermoplastic polymer in our pultrusion process to create a high performance bond.
https://www.avient.com/resource-center?document_type=59&page=0
Hot Melt Adhesive Film
Versaflex™ Thermoplastic Elastomers Customized a soft (Shore A) TPE solution that passed strict tests, including thermal deformation (80°C for 2 hours), UV resistance, and assembly resistance
https://www.avient.com/sites/default/files/2020-12/excelite-one-pager-pallet-manufacturer.pdf
A M E R I C A & A S I A • Eliminate voids in plastic that create quality issues • Reduce high scrap rates due to sink marks • Improve low strength-to-weight ratio due to voids • Reduce long cycle times • Run more fractional melt / low melt flow resins • Improved cell structure and physical properties • Removed sink marks to reduce scrap rates • Improved gas retention when used with N2 physical foam • Reduced short shots for lower scrap rates • Improved melt flow and created a more controllable foaming process • Provided greater ability to process low melt flow resins Excelite™ IM Chemical Foaming Additives KEY REQUIREMENTS* WHY AVIENT?
https://www.avient.com/resource-center/knowledge-base/article/injection-molding-mold-design?rtype%5B0%5D=1164
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.