1/2x60YD 361 GLASS CLOTH

3MT7000123299 MFG #: 7000123299
$57.49 / RL
  • Adhesion Strength: 38 in-oz
  • Adhesive Material: Silicon
  • Backing Material: Glass Cloth
  • Color: White
  • Length: 60 yd
  • Maximum Operating Temperature: 450 deg F
  • Minimum Operating Temperature: -65 deg F
  • Specifications Met: ASTM D3330
  • Tensile Strength: 146 in-lb
  • Thickness: 6.4 mil
  • Width: 1/2 in
Constructed with a woven fiberglass backing, 3M™ glass cloth tape 361 features a pressure sensitive silicone adhesive for applications requiring high temperature resistance, high adhesion and clean removal. It is often used for high temperature applications such as sealing ducts and as a back-up strip for submerged arc welding. Used in a variety of industries, 3M™ glass cloth tape 361 is a strong and durable, fiberglass backed tape designed to perform at high temperatures. This tape is used in a variety of aerospace, automotive, military, roofing, specialty vehicle and ship building industries for seaming and sealing panels, high temperature masking, bundling, holding and harness wrapping. It is able to withstand temperatures ranging from -65 deg F/-54 deg C to 450 deg F/232 deg C and intermittent temperatures up to 550 deg F/288 deg C or higher, depending on the type and duration of the heat source. It can be certified to meet F.A.R. 25.853, flame resistant specifications.
QTY
  • Application
  • Item Features
  • Standards
Transportation, Specialty Vehicle, Construction, Automotive, Military, Government, General Industrial, MRO and Aerospace Applications
  • Strong abrasion-resistant backing provides strength for bundling, harnessing and protection applications requiring high tensile strength
  • Silicone adhesive provides good holding power and clean removal across a wide range of temperatures
  • Withstands temperatures from -65 to 450 deg F and intermittent temperatures up to 550 deg F or higher, depending on the type and duration of the heat source
  • Used for permanent sealing of high temperature ducts or chambers
FAR 25.853