Complēt™ MT Long Glass Fiber Blower Vacuum Complēt™ MT Long Glass Fiber Reinforced Piranha Propeller Complēt™ MT Long Glass Fiber Reinforced Nylon 6 used in watercraft propeller blade

Material Data Sets • A number of material characterization data sets are available in .udb, moldex 3D, xChange data cards, and SIPOE format Mold Filling Simulation (see examples below) • Serves to validate part design (e.g., gate location, fill/pack/warp/cool) & material solution • Evaluates component design viability with preferred Avient material solution • Fiber analysis determines fiber orientation and length • Predicts part quality and manufacturability (shrink, warp, weld line location) FILLING PART QUALITYFIBER ORIENTATION Finite Element Analysis (FEA) • Virtually simulates how an application will perform in real-world conditions with a high level of precision • Able to represent a variety of problems, test methods, models and outputs to evaluate the design, process and material combination for validation or optimization • Dynamic - Acceleration - Impact - Break/no break - Transmitted force - Energy absorption • Thermal Mechanical - Temperature Computational Fluid Dynamics (CFD) - Heat path - Dominant heat transfer - Temperature mapping - Coupling with mechanical simulations FEA Simulation Capabilities • Static - Displacement/rotations - Stress and strains - Contact pressure - Reaction forces/moments - Factors of safety • Vibration - Eigen frequencies - Harmonic response ○ Harmonic displacement, acceleration and stress Software Used • Autodesk Moldflow • Digimat • Simulia/Abaqus • MSC Cradle • CAD/CAE - MSC Apex - SolidWorks Failure Mode Effect Analysis (FMEA) Support By leveraging mold filling simulation, multiphysics simulation, and the understanding of the link between design, process and material, we can help inform your decision-making process for product development.

Material Data Sets • A number of material characterization data sets are available in .udb, moldex 3D, and SIMPOE format Mold Filling Simulation (see examples below) • Serves to validate part design (e.g., gate location, fill/pack/warp/cool) & material solution • Evaluates component design viability with preferred Avient material solution • Fiber analysis determines fiber orientation and length • Predicts part quality and manufacturability (shrink, warp, weld line location) FILLING PART QUALITYFIBER ORIENTATION Finite Element Analysis (FEA) • Virtually simulates how an application will perform in real-world conditions with a high level of precision • Able to represent a variety of problems, test methods, models and outputs to evaluate the design, process and material combination for validation or optimization FEA Simulation Capabilities • Static - Displacement/rotations - Stress and strains - Contact pressure - Reaction forces/moments - Factors of safety • Vibration - Eigen frequencies - Harmonic response ○ Harmonic displacement, acceleration and stress Software Used • Autodesk Moldflow • Simulia/Abaqus • MSC Cradle • CAD/CAE - MSC Apex - SolidWorks • Failure mode effect analysis (FMEA) support By leveraging mold filling simulation, data software, and physical simulation capabilities, we can help inform your decision-making process.

The Edgetek PKE series includes short glass-reinforced formulations with 10-40 percent short glass fiber.     Barrier technologies that preserve the shelf-life and quality of food, beverages, medicine and other perishable goods through high-performance materials that require less plastic •    Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation •    Breakthrough technologies that minimize wastewater and improve the recyclability of materials and packaging across a spectrum of end uses

Formulations are available with glass, carbon or specialty fiber reinforcements, including glass/carbon hybrids, in engineering polymers ranging from polypropylene to PEEK. Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation

LT.SILVER GLASS BEADS DK.SILVER GLASS BEADS PP FR 8-6 LMS-1000

PART NUMBER MATERIAL DESCRIPTION SIZE WEIGHT/LENGTH in mm lb/ft kg/m EM01002986 Glass/Vinyl Ester .250 x 3.0 6 x 76 0.60 0.89 EM01003564 Glass/Vinyl Ester .250 x 2.5 6 x 64 0.49 0.73 EM01002990 Glass/Vinyl Ester .266 x 2.5 7 x 64 0.58 0.86 EM01002994 Glass/Vinyl Ester .312 x 2.0 8 x 51 0.51 0.76 GC-67-UB Glass/Epoxy .235x 1.5 6 x 38 0.29 0.43 GC-67-UB Glass/Epoxy .235 x 1.75 6 x 44 0.34 0.50 GC-67-UB Glass/Epoxy .235 x 2.0 6 x 51 0.38 0.57 GC-67-UB Glass/Epoxy .235 x 2.5 6 x 64 0.48 0.71 GC-67-UB Glass/Epoxy .250 x 1.5 6.4 x 38 0.31 0.46 GC-67-UB Glass/Epoxy .250 x 1.75 6.4 x 44 0.36 0.53 GC-67-UB Glass/Epoxy .250 x 2.0 6.4 x 51 0.38 0.57 GC-67-UB Glass/Epoxy .250 x 2.5 6.4 x 64 0.51 0.76 GC-67-UB Glass/Epoxy .300 x 1.5 8 x 38 0.37 0.55 GC-67-UB Glass/Epoxy .300 x 1.75 8 x 44 0.43 0.64 GC-67-UB Glass/Epoxy .300 x 2.0 8 x 51 0.49 0.73 GC-67-UB Glass/Epoxy .300 x 2.5 8 x 64 0.61 0.91 PRODUCT SELECTION GUIDE COMMON SIZES Table represents examples of common spring sizes. Glass/epoxy endurance limit: 80 ksi (552 MPa) • Glass/vinyl ester endurance limit: 50 ksi (345 MPa) 20 25 30 35 40 Glass/Epoxy High Temp Glass/Vinyl ester 1409040-10-60 0 300 600 900 1200 1500 Glass/Epoxy High Temp Epoxy/Glass Glass/Vinyl Ester 1901409040-10-60 200 400 600 800 1000 1200 14801280108088068048028080 20 25 30 35 40 Glass/Epoxy High Temp Glass/Vinyl ester 1409040-10-60 0 300 600 900 1200 1500 Glass/Epoxy High Temp Epoxy/Glass Glass/Vinyl Ester 1901409040-10-60 200 400 600 800 1000 1200 14801280108088068048028080 FLEXURAL STRENGTH VS. TEMPERATURE, MPa Temperature (C) Fl ex ur al S tr en gt h (M Pa ) Fl ex ur al M od ul us (G Pa ) 20 25 30 35 40 Glass/Epoxy High Temp Glass/Vinyl ester 1409040-10-60 0 300 600 900 1200 1500 Glass/Epoxy High Temp Epoxy/Glass Glass/Vinyl Ester 1901409040-10-60 200 400 600 800 1000 1200 14801280108088068048028080 FLEXURAL MODULUS VS.

Because of their inherent dielectric properties, glass fiber reinforced composites have long been used in electrical transmission and distribution applications such as insulators, arresters and other pole line hardware. More recently, traditional wood and metal utility poles and cross arms are increasingly being replaced by polymer composites, typically made with glass reinforcements and produced using pultrusion or filament winding.

Because the trays were regularly handled by consumers and filled with food, it was very important that any changes made to the material would not jeopardize the packaging’s FDA compliance. It can also be an ideal choice to help reduce picking errors with auto and manual fill machines, decreasing waste and limiting production downtime.

TPE BLUE FILL HOLE COVER GREEN 3308 PP SC RED 7420 PP SC