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#CW66085Roll 36"x40 Dark Gray Dual Layer Rubber T2Durable rubber material, dissipative on one side and conductive on the otherVersatile and long-lasting product; use as a dissipative worksurface table mat. Bottom conductive layer provides reliable path to ground, compatible for use with continuous monitors Dissipative worksurface - 10E6 - 10E8 ohms RTTSlows charge removal; meets minimum recommended worksurface requirements of ANSI/ESD S20.20 and recommendations of ESD 4.1 Lightly embossed surfaceEasier to clean than vinyl mats; excellent coefficient friction for handling electronic products 100% Premium Nitrile Butadiene RubberExcellent value providing long-lasting, good-looking life; consistent electrical properties; will never delaminate; can also be taped or glued down Superior heat, chemical and wear resistanceExcellent choice in soldering and other challenging manufacturing environments.Top of mat kits laser engraved with ESD protective symbol & manufacturerIdentifies ESD protective product for control & auditing purposes Non-humidity dependenceProvides consistent electrical performance regardless of ambient humidity Dimensionally stable and lays flatMinimal shrinkage and curling Lead-free RoHS compliant Superior limited lifetime warrantyElectricals guaranteed for the life of the mat Grounding Hardware not included Made in AmericaRTT: 10E6 - 10E8 (Dissipative Side) and RTG: 10E6 - 10E8 (Dissipative Side) and Thickness: 0.060" (1.5mm)Per ESD Association: "The most important functional consideration for worksurfaces is the RTG resistance from the top of the surface to the groundable point." ANSI/ESD S20.20 Table 1 recommends a requirement of less than 1 x 10E9 ohms. "If Charged Device Model damage is a concern then setting a lower resistance limit should be considered. Typically, 1 x 10E6 ohms." "Durability factors that should be considered are hardness, abrasion resistance, tear resistance, etc. Worksurfaces may require special heat resistant materials. Light reflection may be an important ergonomic consideration." (Ref: TR 20.20 section 5.3.1).
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