Hastelloy C-276 Heat Exchangers Manufacturers and Suppliers

Hastelloy Heat Exchanger is widely accepted by maintenance specialists and plant operation management who appreciate toughness and ability to easily withstand in aggressive fluids. These heat exchangers are offered to customers in different length and weight as per customers demand and requirement. Furthermore, to check the quality of heat exchangers, various tests and inspections are performed including non-destructive test, corrosion resistance test, hydrostatic test and more.

Hastelloy Heat Exchanger is cost-effective and is easy to install and maintain. They can be operated for long service. They provide extended service life as compared to other construction material. Not only this, it even eliminates expensive downtime, offering superior corrosion resistance. In addition to it, they deliver heat transfer efficiency and eliminate breakage during installation, handling, and operation. Each and every material used for manufacturing these heat exchangers is tested while including international specifications to it.

Types Of Hastelloy C276 Heat Exchangers :-

  • Hastelloy C22 Shell & Tube Heat Exchanger

  • Hastelloy C276 U Tube Bundle Heat Exchanger

  • Hastelloy C22 Coil Type Heat Exchanger

  • Hastelloy C276 Double Type Heat Exchanger

  • Hastelloy B3 Double Tube Heat Exchanger

  • Hastelloy B3 Floating Heat Exchanger

  • Hastelloy C276 Lined Heat Exchanger

  • Hastelloy B2 Cladded Heat Exchanger

  • Hastelloy C276 Process Heat Exchanger

  • Hastelloy C22 Swimming Pool Heat Exchanger

Chemical Composition of Hastelloy C276 Heat Exchangers :-

Chemical Composition
Element Min % Max %
Mo 15.00 17.00
Cr 14.50 16.50
Fe 4.00 7.00
W 3.00 4.50
Co 2.50
C 0.01
Si 0.08
Mn 1.00
V 0.35
P 0.04
S 0.03
Ni Balance

Mechanical Properties Hastelloy C276 Heat Exchangers :-

Mechanical Properties
Tensile (ksi)
.2% Yield (ksi)
Elongation %
Hardness (HRb)

Physical Properties of Hastelloy C276 Heat Exchangers:-

Physical Properties
Density 8.89 g/cm³ 0.321 lb/in³
Melting Point 1370°C 2500°F
Coefficient of Expansion 11.2 μm/m °C (20 – 100°C) 6.2 x 10-6 in/in °F (70 – 212°F)
Modulus of Rigidity 78.6 kN/mm² 11400 ksi
Modulus of Elasticity 205.5 kN/mm² 29806 ksi