ABB Electrification

Ty-Rap Black Weather Resistant Ty27MX

858480 MFG #: TY27MX
$0.60 / EA
In Stock
  • CustomerPartNumber: 101067
  • Manufacturer: Thomas & Betts
  • Request For Quote: No
  • Type: Standard
  • Length: 13.4
  • Width: 0.27
  • Thickness: 0.06
  • Bundle Diameter: 0.236 to 3.54
  • Lock Mechanism: Stainless Steel Barb
  • Tensile Strength: 120
  • Temperature Rating: -40 to 185
  • Material: Nylon/Polyamide 6.6
  • Color: Black
  • Brand: Ty-Rap®
Ty-Rap® Cable Tie, Standard, 13.4 in Length, 0.27 in Width, 0.06 in Thickness, 0.236 to 3.54 in Bundle Dia, Lock Mechanism: Stainless Steel Barb, 120 lb Tensile, -40 to 185 deg F, Nylon/Polyamide 6.6, Black
QTY
  • Low profile head is designed to prevent snags on uneven surfaces and easier to pull through bulkhead
  • Non-magnetic stainless steel locking device insures both maximum strength and the right tightness ev
  • Smooth, notchless body reduces stress concentration points under tension, making the tie stronger an
  • Ribbed and stippled body grips the bundle and prevents slippage, rounded edges protect insulation, p
  • The no slip tail provides easy grip during tensioning
  • Ty-Rap® ties feature a unique friction surface designed to reduce slippage during installation
  • Provide an infinite number of locking positions while fastening the tie at the precise bundle diamet
Low profile head is designed to prevent snags on uneven surfaces and easier to pull through bulkheads
Non-magnetic stainless steel locking device insures both maximum strength and the right tightness every time
Smooth, notchless body reduces stress concentration points under tension, making the tie stronger and lower profile than notched body ties
Ribbed and stippled body grips the bundle and prevents slippage, rounded edges protect insulation, preventing sharp edges from damaging cables
The no slip tail provides easy grip during tensioning
Ty-Rap® ties feature a unique friction surface designed to reduce slippage during installation
Provide an infinite number of locking positions while fastening the tie at the precise bundle diameter needed