We can bend our coils from any commercially available alloy
304 Stainless Steel is the most common of the 300 series austenitic alloys. 304/L is a low carbon version of 304 which does not require post-weld annealing. This metal is used to prevent corrosive material from entering the liquid in heat transfer equipment.
Stainless Steel Coil
2205 SS Duplex combine many of the beneficial properties of ferritic and austenitic steels. Due to the high content of chromium and nitrogen, and often also molybdenum, these steels offer good resistance to localised and uniform corrosion. The duplex micro structure contributes to the high strength and high resistance to stress corrosion cracking. Duplex steels have good weldability
Copper is an element known for high ductility, thermal conductivity, and corrosion resistance. This, combined with its soft and malleable properties, makes copper a great material to fabricate and manufacture various types of heat transfer equipment.
316 Stainless Steel is the second most common austenitic stainless steel alloy. It is called the marine grade stainless due to its increased resistance to corrosion relative to 304 stainless steel. This has good applications with chemical and other corrosive materials.
Stainless Steel Coil
For all other type of stainless steel, please contact us for details.
Carbon Steel Tube Coil
Carbon steel is a steel alloy where the primary interstitial alloying component is carbon. A higher carbon content allows the steel to become harder and stronger during its heat treatment process. Due to its versatility and cost this is used in many components of heat transfer units.
Aluminum alloys are known for having a high resistance to corrosion and highly malleable. It is very light relative to other metals, and has a good thermal conductivity. At high temperatures aluminum starts to lose its strength. However, at very low temperatures the strength increases while retaining its ductility making aluminum great for low-temperature heat transfer applications.
Titanium Tube Coil
Titanium alloys contain a mixture of titanium and other chemical elements. They are known for their toughness and high tensile strength, especially at extremely high temperatures. Most notably they have a very high corrosion resistance despite their very light weight. Due to the high cost, Titanium is used as required in heat transfer equipment in areas like aerospace, power generation, and chemical processing.