RS PRO Nitrile Rubber Pipe Insulation, 22mm dia. x 19mm x 2m
Lagt till varukorgen
- Tillverkare / varumärke:
- RS PRO
- COO (Country of Origin):
|Enheter||Per unit||Per Pack*|
|5 - 20||121,718 kr||608,59 kr|
|25 +||114,154 kr||570,77 kr|
RS PRO Rubber Pipe Insulation Class 0
From the trusted RS PRO brand, this foam rubber pipe insulation is a fast and convenient way to improving heating efficiency within commercial and domestic plumbing systems. Supplied in two-meter lengths, and with a flexible nitrile rubber construction, the insulation strips can be quickly fitted onto pipes simply by slotting it into place. Once attached, the foam pipe lagging reduces heat loss around the pipe and protects it from cold temperatures. This is ideal to help prevent pipes from freezing and to keep heating within plumbing systems at optimum efficiency.
Features and Benefits
Fully flexible rubber pipe insulation
Supplied in 2m lengths
Manufactured without using CFC and HCFC gases
Meets the requirements of Byelaw 49
Suitable for frost protection, energy conservation and pipeline protection
Pipe insulation, sometimes known as lagging, can be used in almost any pipe system where water is transferred, providing it is of a compatible size. The tubular insulation fittings can be used to increase thermal energy conversation or to protect pipework from frost. For plumbing, heating and air conditioning systems, pipe insulation can help you cut costs and improve efficiency.
Why RS PRO?
RS PRO is our own brand range and brings you a wide range of high-quality, great value products offering you more choice. Trusted by engineers all over the world, every part of every RS PRO product has been rigorously tested against demanding industry standards; theyre only given the RS PRO seal of approval if were confident of their exceptional quality, which means you can be confident too.
Rubber Tube Insulation (Insultube) are supplied unslit
BS476 Part 6: 1989
BS476 Part 7: 1997, class 1
BS 476 part 6: 1989; BS 476 part 7:1987
|Thermal Conductivity||0.035 W/mK, 0.037 W/mK, 0.04 W/mK|