Catálogo de productos
GENERAL APPLICATIONS
- Kuriyama Camlock Couplings are intended for use in many industrial applications. To learn more, please refer to pages 296-297 in this catalog.
- High quality design made to withstand rigorous applications found in industrial markets.
- Tri-Couple'm design available in 1 1/2", 2", 2 1/2", 3", 4", 6" sizes.
- Hose shanks especially designed for easy assembly with TigerflexTM type hoses.
- Kuriyama offers two 8" coupling styles in aluminum.*
- Aluminum alloy specially designed for high tensile strength and impact resistance.
- ASTM aluminum alloy.
- Complies with Mil-Spec A-A-59326 for interchangeability in relevant sizes.
Unit of Measure
Applications
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Aluminum 8" Coupling Options
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Material Specifications
|
Specifications
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California Proposition 65 Information
Aluminum 8" Coupling Options
Aluminum 8" Coupling Options |
N/A Aluminum is a lightweight metal with an excellent strength-to-weight ratio. At the same time, aluminum is more cost-effective than stainless steel or brass, so it is a good alternative for general industrial applications. This combination of strength of material and cost-effectiveness makes it the most popular camlock material. |
Material Specifications
Material Specifications |
N/A
|
Specifications
Brand |
N/A Kuriyama |
Size |
N/A 4 in |
Weight Each |
N/A 2.10 lb |
Standard Carton |
N/A 20 |
Package Type |
N/A Each |
PSI Rating at 70°F (+21°C) |
N/A 150 psi |
Type |
N/A Male Coupler x Hose Shank |
Style |
N/A Part E |
End Type A |
N/A Male Coupler |
End Type B |
N/A Hose Shank |
Material |
N/A Aluminum |
Handle Material |
N/A Forged Brass |
Handle Pins Material |
N/A Zinc-Plated Carbon Steel |
Pull Rings Material |
N/A Zinc-Plated Carbon Steel |
Safety Clips Material |
N/A Zinc-Plated Carbon Steel |
Gaskets Material |
N/A Buna-N |
California Proposition 65 Information
California Proposition 65 Information |
N/A This product can expose you to chemicals, including lead, which is known to the State of California to cause cancer or birth defects or other reproductive harm. For more information, go to www.P65warnings.ca.gov/ |