Technical Document
Specifications
Brand
TE ConnectivitySplice Type
Strap Butt
Wire Size
24 → 20 AWG
Overall Length
12.45mm
Diameter
2.67mm
Insulation
Uninsulated
Series
SOLISTRAND
Contact Material
Copper
Contact Plating
Tin
Thickness
0.58mm
Country of Origin
United States
Product details
TE Connectivity SOLISTRAND Closed Barrel Strap Butt Splices
SOLISTRAND closed barrel strap butt splices designed to terminate solid and stranded wire and irregular shaped conductors. These SOLISTRAND closed barrel strap butt splices are made from fine grade high conductivity copper and have closed barrels with brazed seams that create a uniform metal strength around the barrel. The inner surface of the barrels are either dimpled or serrated for maximum tensile strength and to maximise the electrical contact area after crimping
TE Connectivity SOLISTRAND Terminals and Splices
Stock information temporarily unavailable.
Please check again later.
₹ 2,339.10
Each (Supplied in a Bag) (Exc. GST)
₹ 2,760.138
Each (Supplied in a Bag) (inc. GST)
Production pack (Bag)
100
RS Components & Controls (I) Ltd
Distribution hub - B-89, Sector 67, Noida, Gautam Budh Nagar, (Uttar Pradesh), 201 301
₹ 2,339.10
Each (Supplied in a Bag) (Exc. GST)
₹ 2,760.138
Each (Supplied in a Bag) (inc. GST)
Production pack (Bag)
100
Technical Document
Specifications
Brand
TE ConnectivitySplice Type
Strap Butt
Wire Size
24 → 20 AWG
Overall Length
12.45mm
Diameter
2.67mm
Insulation
Uninsulated
Series
SOLISTRAND
Contact Material
Copper
Contact Plating
Tin
Thickness
0.58mm
Country of Origin
United States
Product details
TE Connectivity SOLISTRAND Closed Barrel Strap Butt Splices
SOLISTRAND closed barrel strap butt splices designed to terminate solid and stranded wire and irregular shaped conductors. These SOLISTRAND closed barrel strap butt splices are made from fine grade high conductivity copper and have closed barrels with brazed seams that create a uniform metal strength around the barrel. The inner surface of the barrels are either dimpled or serrated for maximum tensile strength and to maximise the electrical contact area after crimping