To download an ISO certificate, right click on the certificate name and select "save target as".

Understanding Carbon Footprint: Strategies for designers, processors, and OEMs to help their customers be more eco-conscious during an entire product life cycle, from material selection to end-of-life considerations • Regulatory Navigation: Insights on navigating environmental standards, including PFAS and other chemicals, will be shared to help manufacturers stay compliant and competitive

ColorForward™ 2024: the 18th edition of Avient’s annual color forecasting guide, featuring a palette of 20 colors and effects selected by color, marketing, and social trend experts to help plastic product designers, brand managers, and marketing professionals make more informed color choices.

Product Selection Guide

I am privileged that the Board has selected me as the next CEO of this great company,” said Mr.

The material selection decision, however, will be dependent on which properties are most important for the specific application.

These materials have been formulated using select metallic fillers and engineered thermoplastic resins to have densities similar to actual metals, while also providing the design flexibility and processing ease of conventional thermoplastics. Gate type should be selected based on location and part geometry. 2.

Following are top reasons why many manufacturers and designers choose high-performance thermoplastics: • High-temperature resistance • Chemical resistance • Flame/smoke/toxicity (FST) performance • Chemically inert PLUS, ALL THE BENEFITS OF PLASTIC In addition to their elite-level properties, high-performance thermoplastics deliver the typical advantages of polymers over other material types such as metal, glass and ceramic, including: • Light weight • Design freedom/part consolidation • Easy colorability • Efficient, high-volume processing • Elimination of secondary operations • Enhanced product experience for the end user - quieter environment - improved tactile feel - better usability ADVANTAGES Going Above and Beyond • Amorphous structure • High marks for toughness, chemical resistance, hydrolytic stability, resistance to boiling water, and extreme thermal capabilities • Best for: aerospace interiors, hot water fittings, and medical and dental devices that are subjected to repeated steam sterilization • Also used in food equipment exposed to temperature extremes, such as coffeemakers or freezer-to-microwave cookware Polyaryletherketones Polysulfones Liquid crystal polymers Polyetherimides Polyphenylene sulfides There are five major families of high-performance thermoplastics P O LY AR YL ET H ER K ET O N ES P O LY SU LF O N ES• Semi-crystalline structure • High marks for thermal stability, chemical resistance and mechanical properties over a wide temperature range • Better-than-average levels of combustion resistance and electrical performance • Some PAEK materials, like polyetheretherketone (PEEK), are also extremely tough and have excellent impact strength • Best for: aerospace, automotive, industrial and medical components • May be used to create stock shapes such as rods, bars, and tubes All in the Family P O LY P H EN YL EN E SU LF ID ES • Semi-crystalline structure • Excellent temperature resistance with continuous service temperatures up to 230°C • High marks for modulus and resistance to creep, corrosion, and chemicals • Above-average electrical properties • Best for: complex parts with extremely tight tolerances; often used as an alternative to metals and thermosets in automotive underhood parts, appliances, electronics, and industrial applications Polyaryletherketones Polysulfones Liquid crystal polymers Polyetherimides Polyphenylene sulfides There are five major families of high-performance thermoplastics P O LY ET H ER IM ID ES LI Q U ID C R YS TA L P O LY M ER S • Semi-crystalline structure • High degree of anisotropy: strength, stiffness and thermal expansion will be greater in one direction vs. the other • High marks for temperature, chemical and electrical resistance • Exceptional mechanical strength and high flow rates; often used to fill extremely long parts with thin walls • Best for: electronic connectors, sensors, bullet-resistant vests, jet engine enclosures, brake and transmission friction parts, and gaskets • Amorphous structure • High marks for thermal, mechanical, and chemical properties • Often selected for demanding applications requiring ultra-high mechanical strength combined with high temperature, corrosion and wear resistance • Impact resistance may be lower than that of PSUs and PAEKs • Best for: aerospace interiors, automotive lighting, medical devices, and electrical and fiber optic connectors All in the Family Source: https://www.craftechind.com/standard-and-custom-parts-in-high-performance-plastics/ TEMPERATURE AND MATERIAL TYPE The two broad classifications of high-performance thermoplastics—amorphous and semi-crystalline— have different temperature characteristics. These materials can be 3D printed using selective laser sintering (SLS) and fused filament fabrication (FFF).

The predictions provided guidance in selecting the right temperatures to use in a 30-day compressive creep test that enabled PDI to more accurately estimate device performance over a 20-year span.

KEY CHARACTERISTICS • Lightweight • High strength & stiffness • Excellent fatigue & impact resistance • Exceptional strength-to-weight ratio • Strong adhesive properties • Chemical and corrosion resistance • Reduced NVH compared to metals • Rapid cycle times • Low VOCs VALUE SOLUTION • Replaces metal without sacrificing strength • Reduced vehicle weight improves fuel economy, reduces energy consumption • Selective reinforcement adds strength in high stress areas • Easily integrated & streamlined manufacturing process • Easy bonding to various materials • Increases structure & puncture resistance • Can be used in injection and compression overmolding operations • Enables thin-walling and material reduction by adding reinforcement to traditional materials • Able to be re-formed, reused, recycled USES & APPLICATIONS • Interior structural reinforcement such as walls, load floors, headliners, door panels, storage, storage lids, and trim pieces • External body panels • Front end and door module reinforcement • Service access cover reinforcement • Interior hatch covers GORDON COMPOSITES™ & GLASFORMS™ THERMOSET COMPOSITES Gordon Composites™ and Glasforms™ thermoset composites are made with proprietary resin/ fiber reinforcement technologies.