In heat transfer technologies, materials are a key factor for both the heat transfer coefficient, mechanical constraints and enironment context. In that regard, we work with a wide range of materials depeding on the heat exchanger properties you need.
P265GH, P295GH, P355NL, NH, NL1, NL2, etc.
SA516GR60/70, SA350LF2, SA179, SA333GR6
High and low-temperature carbon steels are valued for their excellent mechanical properties under varying thermal conditions. They provide exceptional strength, durability, and thermal resistance for heat exchangers operating in high or sub-zero temperatures. Their versatility and cost-efficiency make them ideal for a wide range of industrial applications.
Austenitic : 316L, 304L, 321L, 347, 321H, 310S, etc
Super austenitic : 254SMO, 904L
Ferritic austenitic : 409, 430, 444
Duplex and super duplex such as UNS31803, UNS32205, UNS750, UNS760
Stainless steels offer excellent corrosion resistance, making them ideal for harsh environments. Their high strength-to-weight ratio allows for efficient and durable heat exchanger designs, while superior thermal conductivity and resistance to high temperatures ensure reliable performance in demanding industrial applications.
C12200, C46400, C67500, C70600, C71500, etc.
Copper and its alloys offer excellent thermal conductivity, making them ideal for heat exchangers where efficient heat transfer is critical. They also provide strong corrosion resistance, particularly in water-based systems, and are highly malleable, allowing for precise fabrication.
Titanium Gr1, Gr2, Gr12
Titanium is highly valued for its exceptional corrosion resistance, particularly in aggressive environments such as seawater and acidic or chloride-rich solutions. Its excellent strength-toweight ratio and ability to withstand high temperatures make it ideal for heat exchangers exposed to extreme conditions. Additionally, titanium’s resistance to fouling and biofouling ensures long-lasting performance in demanding applications.
Nickel 200-201, monel 400, inconel, incoloy, hatselloy C22 & C276 & B2 & B3
Alloy 800, 800H, 600, 625
Nickel and nickel-based alloys are renowned for their outstanding resistance to corrosion, particularly in high-temperature and aggressive chemical environments. These alloys maintain their mechanical properties under extreme heat and pressure, making them ideal for heat exchangers used in industries like chemical processing, aerospace, and marine applications.
Cladding with materials like stainless steel, nickel alloys, or titanium is a highly effective solution for enhancing the corrosion resistance and longevity of heat exchangers in aggressive environments. By applying a thin layer of these high-performance materials over a more costeffective substrate, cladding ensures superior protection against corrosion, erosion, and chemical attack while maintaining the structural integrity of the base material. This technique is widely used in applications where durability, thermal efficiency, and resistance to harsh chemicals or extreme temperatures are critical, offering both cost savings and extended service life for industrial equipment.
Cladding par weld overlay, par explosion et par roll bounded clad plate
PP, PE, PVDF, ETFE, ECTFE, etc.
Polymers are particularly suited for highly corrosive or acidic environments where metals may fail. Their chemical resistance and design flexibility allow for complex equipment geometries, making them valuable in specific process and heat exchange applications.
Al1050, Al1060, Al1070, etc
Aluminium is valued for its mechanical properties and good thermal conductivity, making it ideal for heat exchangers in a range of industries. This material is easy to fabricate and shape, offering flexibility in design, and provides strong durability while being cost-effective.
P5, P11, P12, P22
15MO3, 16MO3
Alloy steels provide enhanced mechanical properties, including superior strength, toughness, and wear resistance, making them well-suited for demanding industrial applications. Their ability to withstand high pressures and temperatures ensures durability in extreme operating conditions, while their versatility allows for customized heat exchanger designs tailored to specific process requirements.
