In the electronics industry, plastic enclosures and connectors not only enhance safety through electrical insulation, but thermally and electrically conductive plastics provide heat transferring, cooling, antistatic, electrostatic discharge, and electromagnetic shielding performance for critical applications including integrated circuit chip packaging. Our operations are affected by various risks inherent in conducting operations worldwide. We depend on integrated information systems to conduct our business.

The data provided is for sites in High and Extremely High stress areas [Fixed row] (9.2.7) Provide total water withdrawal data by source. This is valuable information that can help to influence our initiatives and encourage continuous monitoring in areas of high and extremely high stress. Nevertheless, we still make a conscious effort to monitor our water consumption, conduct annual reviews of sites in high water risk areas and assign our manufacturing sites with the task to create and execute a water or waste reduction project annually.

FL.Datasheet Belt&Hose Reinforcement.indd FIBER OPTICAL CABLES Key Features • Flexible & lightweight reinforcements • Limited elongation & high strength • Various twisted & corded constructions available • Significantly reduce fraying during processing • Metered lengths available FIBER-LINE® FIBERS FOR BELT & HOSE REINFORCEMENT • Kevlar® Para-Aramid • Vectran® Liquid Crystal Polymer (LCP) • Carbon Fiber • PET Polyester • Technora® FIBER-LINE® PERFORMANCE ADDING COATINGS • Bondcoat™: Adhesion promotion to urethanes Overview • FIBER-LINE® produces various twisted and corded products for re-inforcement in drive/timing belts and hoses. These products have high-strength, low stretch, and excellent fatigue properties. • FIBER-LINE® twisted and corded products are properly torque- balanced for optimal performance. • FIBER-LINE® BondcoatTM products were created for applications where an untreated fiber does not have the ability to provide the appropriate amount of bonding characteristics to another material. For over 25 years, FIBER-LINE® has provided science- driven expertise that improves the performance and the end-use processing of high performance fibers.

°C 425-480 KEVLAR® PARA-ARAMID (HM) BARE FIBER PERFORMANCE KEVLAR® PARA-ARAMID DATA Standard Modulus High Modulus * Equilibrium moisture regain @ 55% RH ** Creep @ 40%-58% ultimate tensile strength *** Shrinkage in dry air @ 177 C for 30 minutes CHEMICAL COMPATIBILITY Chemical Resistance to Acid: Degrades in Formic, Hydrochloric, and Sodium Hydroxide acid. Chemical Resistance to Alkali: Strong alkalis will attack at high temperature or concentration. For over 25 years, FIBER-LINE® has provided science- driven expertise that improves the performance and the end-use processing of high performance fibers.

FL.Datasheet IndustrialFabricYarn.indd FIBER OPTICAL CABLES Key Features • Available Flat or Twisted • Material can be “Rolled flat” to remove false or producers’ twist • Metered lengths and various spool sizes available FIBER-LINE® FIBERS FOR INDUSTRIAL FABRIC YARN • Kevlar® Para-Aramid • Nomex® Meta-Aramid • Vectran® Liquid Crystal Polymer (LCP) • Carbon Fiber • Fiberglass • Technora® FIBER-LINE® PERFORMANCE ADDING COATINGS • FIBER-LINE® Colorcoat™: Vibrant Colors for Aesthetic Applications • FIBER-LINE® Wearcoat™: Abrasion & High-Temperature Resistance • FIBER-LINE® Bondcoat™: Adhesion Promotion • FIBER-LINE® Repelcoat™: Water Repellancy • FIBER-LINE® Protexcoat™: UV Degradation Prevention Overview • FIBER-LINE®’s offering of Industrial Fabric Yarn are utilized in a wide range of applications. FIBER-LINE®’s marriage of high-performance fibers and additional processing create unique products that extend the life of our customer’s end use product. • Our yarn have been processed in a variety of different ways utilizing: Knitting, weaving, braiding. For over 25 years, FIBER-LINE® has provided science- driven expertise that improves the performance and the end-use processing of high performance fibers.

Clarifiers and impact resistant additives for high clarity packaging that performs Impress™ High Gloss Colorants - Product Bulletin (Chinese) OnColor™ Impress™ High Gloss Metallic Effect Colorants (English)

Clarifiers and impact resistant additives for high clarity packaging that performs Impress™ High Gloss Colorants - Product Bulletin (Chinese) OnColor™ Impress™ High Gloss Metallic Effect Colorants (English)

Most TPE compounds have fairly high mold shrinkage in the flow direction with minimal shrinkage in the cross flow direction. Depending on the wall thickness of the elastomer and the substrate, the production rate can be very high. Figure 3: Rheological behavior of Over-molding TPEs The viscosity is in the lower end of the spectrum as shown in the figure 3. in high shear rate regimes.

One of the most commonly cited advantages of TPEs is the ability to produce products via high-volume injection molding, which is an extremely cost-effective process. Sure, you can grind up a tire into a material for the track around a high school, but the material itself can’t be changed or transformed into a completely new and recyclable product.

Lightweighting: Engineered polymer materials designed with a high strength-to-weight ratio, have similar structural integrity as traditional materials, but can be lighter in weight. While it can be a complex process, designing for sustainability can have a high environmental impact and bring value to eco-conscious consumers.