Self Locking, Which Ensures Fast & Easy Installation & Once
Provide an Appropriate & Elegant Solution for Specific Applications, Where
Designed to Accommodate Double Wrapping with No Sharp Edges &...
Polyester Coated Cable Ties are Self Locking with Multiple Locking
Piece Construction Design Eliminates the Use of Screw or Adhesive...
Self Locking with Multiple Locking Systems, Which are Designed for
Permits Easy Release & Reuse with Release Button Even, When
Polyester Coating are Halogen Free, Nontoxic Low Smoke for Better
With No Sharp Edges, Which also has Slots Till End
High Conductivity Seamless Copper Tubing
Color Coding are for Proper Matching of Dies & Cable
Provided Proper High Voltage Insulation Methods are Used & the...
Long Barrel Maximizes Number of Crimps for Added Mechanical Strength...
High Conductivity Seamless Copper Tubing
The Barrel Enchants Mechanical, Electrical Performance & Pin May be
Designed to Obtain the Highest Electrical Conductivity with Maximum Strength
The Presence of an Inspection Hole Assists the Full Insertion
Designed to Obtain the Highest Electrical Conductivity with Maximum Strength
The Presence of an Inspection Hole Assists the Full Insertion
Color Coded Insulation Identifies the Cable Size, Ring Tongue Assures
Brazed Seam Protects Terminal Barrel from Splitting During the Crimping
Provided Proper High Voltage Insulation Methods are Used & the...
Long Barrel Maximizes Number of Crimps for Added Mechanical Strength...
Designed to Obtain the Highest Electrical Conductivity with Maximum Strength
The Presence of an Inspection Hole Assists the Full Insertion
Long Barrel Maximizes Number of Crimps for Added Mechanical Strength...
Long Barrel Maximizes Number of Crimps for Added Mechanical Strength...
Provided Proper High Voltage Insulation Methods are Used & the...
Flared Entry Prevents Back Bend Strands, When Inserting Multi Strand
The Presence of an Inspection Hole Assists the Full Insertion
Designed to Obtain the Highest Electrical Conductivity with Maximum Strength
The Presence of an Inspection Hole Assists the Full Insertion
Short Barrel Lugs are Ideal for Confined Area
Color Coding are for Proper Matching of Dies & Cable
The Presence of an Inspection Hole Assists the Full Insertion
Designed to Obtain the Highest Electrical Conductivity with Maximum Strength
High Conductivity Seamless Copper Tubing
The Barrel Enchants Mechanical, Electrical Performance & Pin May be
Provided Proper High Voltage Insulation Methods are Used & the...
Long Barrel Maximizes Number of Crimps for Added Mechanical Strength...
Designed to Offer Maximum Efficiency in Heavy Duty Applications
Brazed Seam Protects Terminal Barrel from Splitting During the Crimping
Designed to Obtain the Highest Electrical Conductivity with Maximum Strength
The Presence of an Inspection Hole Assists the Full Insertion
Flared Entry Prevents Back Bend Strands, When Inserting Multi Strand
The Presence of an Inspection Hole Assists the Full Insertion
The Presence of an Inspection Hole Assists the Full Insertion
Designed to Obtain the Highest Electrical Conductivity with Maximum Strength
The Presence of an Inspection Hole Assists the Full Insertion
Designed to Obtain the Highest Electrical Conductivity with Maximum Strength
The Barrel Enchants Mechanical, Electrical Performance & Pin May be
High Conductivity Seamless Copper Tubing
The Presence of an Inspection Hole Assists the Full Insertion
Designed to Obtain the Highest Electrical Conductivity with Maximum Strength
Offers Permanent Identification of Cables, Hoses, Conduits & Pipes
Color Coding of the Insulation is According to the Wire
Reliable Electrical Connectors, When Terminating Conductors in Screw Clamp Terminal
Designed with Seamless Barrel to Contain Loose Wire Strands for...
Reliable Electrical Connectors, When Terminating Conductors in Screw Clamp Terminal
Short Barrel are Used for Limited Space Applications, Which Features...
High Conductivity Seamless Copper Tubing
Designed with Seamless Barrel to Contain Loose Wire Strands for...
Color Coding of the Insulation is According to the Wire