-
NCV06 Flame Retardant...
NCV Standard Weight Flame retardant conduit, FR Polyamide 6
High flexibility, self extinguishing conduit used in applications requiring repeated flexing coupled with flame retardant resistance.
-
CTPA08 8mm CTPA...
CTPA Lightweight Extra flexible conduit, Modified Polyamide 6
CTPA general purpose, lightweight loom conduit suitable for automotive harness applications. It can withstand extremes of temperatures and resists automotive oils and solvents. It is extremely tough and has a high impact strength and fatigue life. CTPA conduits provide protection against mechanical shock and ingress of water whilst maintaining their form through tight bend radii.
-
NCV08 Flame Retardant...
NCV Standard Weight Flame retardant conduit, FR Polyamide 6
High flexibility, self extinguishing conduit used in applications requiring repeated flexing coupled with flame retardant resistance.
-
CTPA08-S 8mm CTPA...
CTPA Lightweight Extra flexible conduit, Modified Polyamide 6
CTPA general purpose, lightweight loom conduit suitable for automotive harness applications. It can withstand extremes of temperatures and resists automotive oils and solvents. It is extremely tough and has a high impact strength and fatigue life. CTPA conduits provide protection against mechanical shock and ingress of water whilst maintaining their form through tight bend radii.
-
NCV12 Flame Retardant...
NCV Standard Weight Flame retardant conduit, FR Polyamide 6
High flexibility, self extinguishing conduit used in applications requiring repeated flexing coupled with flame retardant resistance.
-
CTPA08-S 8mm CTPA...
CTPA Lightweight Extra flexible conduit, Modified Polyamide 6
CTPA general purpose, lightweight loom conduit suitable for automotive harness applications. It can withstand extremes of temperatures and resists automotive oils and solvents. It is extremely tough and has a high impact strength and fatigue life. CTPA conduits provide protection against mechanical shock and ingress of water whilst maintaining their form through tight bend radii.
-
NCV20 Flame Retardant...
NCV Standard Weight Flame retardant conduit, FR Polyamide 6
High flexibility, self extinguishing conduit used in applications requiring repeated flexing coupled with flame retardant resistance.
-
CTPA08/OR 8mm CTPA...
CTPA Lightweight Extra flexible conduit, Modified Polyamide 6
CTPA general purpose, lightweight loom conduit suitable for automotive harness applications. It can withstand extremes of temperatures and resists automotive oils and solvents. It is extremely tough and has a high impact strength and fatigue life. CTPA conduits provide protection against mechanical shock and ingress of water whilst maintaining their form through tight bend radii.
-
NCV25 Flame Retardant...
NCV Standard Weight Flame retardant conduit, FR Polyamide 6
High flexibility, self extinguishing conduit used in applications requiring repeated flexing coupled with flame retardant resistance.
-
CTPA10 10mm CTPA...
CTPA Lightweight Extra flexible conduit, Modified Polyamide 6
CTPA general purpose, lightweight loom conduit suitable for automotive harness applications. It can withstand extremes of temperatures and resists automotive oils and solvents. It is extremely tough and has a high impact strength and fatigue life. CTPA conduits provide protection against mechanical shock and ingress of water whilst maintaining their form through tight bend radii.
-
NCV28 Flame Retardant...
NCV Standard Weight Flame retardant conduit, FR Polyamide 6
High flexibility, self extinguishing conduit used in applications requiring repeated flexing coupled with flame retardant resistance.
-
CTPA10-S 10mm CTPA...
CTPA Lightweight Extra flexible conduit, Modified Polyamide 6
CTPA general purpose, lightweight loom conduit suitable for automotive harness applications. It can withstand extremes of temperatures and resists automotive oils and solvents. It is extremely tough and has a high impact strength and fatigue life. CTPA conduits provide protection against mechanical shock and ingress of water whilst maintaining their form through tight bend radii.
