AIR HOSE & RADIATOR HOSE
This engine air intake hose was designed as a direct replacement for the original equipment intake hose. Engineered for a perfect fit and easy installation, it includes all necessary fittings. Made of quality materials for a long service life.
Direct replacement – fits and functions like original equipment
Quality construction – manufactured from premium materials for a long service life
Excellent value – original equipment quality at a lower price
Quality tested – has undergone testing to ensure proper fit and performance
Our Radiator hose solutions are designed to circulate high temperature fluids in high capacity industrial and automobile equipment heating and cooling systems. Colour coded for easy identification and flexible for easy routing and installation, our coolant tubes are precision engineered to deliver the highest standards of safety and reliability. Available in a variety of high-grade materials, these flexible coolant hoses provide unparalleled heat and chemical resistance. They also provide protection against ageing, kinks, cold leaks, cracking, delamination, electrochemical striations, heat and ozone. This maximises performance in elevated temperatures.
Direct replacement – fits and functions like original equipment
Quality construction – manufactured from premium materials for a long service life
Excellent value – original equipment quality at a lower price
Quality tested – has undergone testing to ensure proper fit and performance
Our Radiator hose solutions are designed to circulate high temperature fluids in high capacity industrial and automobile equipment heating and cooling systems. Colour coded for easy identification and flexible for easy routing and installation, our coolant tubes are precision engineered to deliver the highest standards of safety and reliability. Available in a variety of high-grade materials, these flexible coolant hoses provide unparalleled heat and chemical resistance. They also provide protection against ageing, kinks, cold leaks, cracking, delamination, electrochemical striations, heat and ozone. This maximises performance in elevated temperatures.
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