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Cambridge Technologies |
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Part Number: D38999/26WF32SA
Aero-Electric/Conesys D38999/26WF32SA Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
Part Number: D38999/26WF32SD
Aero-Electric/Conesys D38999/26WF32SD Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
Part Number: D38999/26WF32SN
Aero-Electric/Conesys D38999/26WF32SN Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
Part Number: D38999/26FF32SA
Aero-Electric/Conesys D38999/26FF32SA Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
Part Number: D38999/26FF32SB
Aero-Electric/Conesys D38999/26FF32SB Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
Part Number: D38999/26FF32SN
Aero-Electric/Conesys D38999/26FF32SN Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
Part Number: D38999/26ZF32PN
Aero-Electric/Conesys D38999/26ZF32PN Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
Part Number: D38999/26ZF32SA
Aero-Electric/Conesys D38999/26ZF32SA Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
Part Number: D38999/26ZF32SB
Aero-Electric/Conesys D38999/26ZF32SB Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
Part Number: D38999/26ZF32SN
Aero-Electric/Conesys D38999/26ZF32SN Cylindrical Connector designed for General Purpose and Severe Environment Applications MIL-DTL-38999 Series III connectors feature an improved “one-turn” coupling system, utilizing self-locking acme thread. Acme threads provide coupling durability, while thicker wall sections and greater coupling surface area improve strength and shock...
