SUS321 is a Japanese standard stainless steel that is equivalent to AISI 321 or UNS S32100 in American standards. It is a titanium stabilized austenitic stainless steel that features improved resistance to intergranular corrosion and high-temperature applications. In this blog post, we will introduce the chemical composition, mechanical properties, physical properties, processing method, characteristics, and applications of SUS321 stainless steel.

What is the Chemical Composition of SUS321?

The chemical composition of SUS321 stainless steel is listed in the following table based on JIS G4303 standard.

ElementWeight %
C≤ 0.08
Si≤ 1.00
Mn≤ 2.00
P≤ 0.045
S≤ 0.030
Cr17.0-19.0
Ni9.0-12.0
Ti≥ 5× (C+N), ≤ 0.70

The addition of titanium stabilizes the carbon and prevents the formation of chromium carbide at the grain boundaries, which can cause intergranular corrosion when the steel is heated to a temperature within the sensitization range (such as during welding).

What are the Mechanical Properties of SUS321?

The mechanical properties of SUS321 stainless steel are given in the following table based on JIS G4303 standard.

PropertyValue
Density, g/cm3 (lb/in3)7.9 (0.29)
Melting point, °C (°F)1400-1425 (2550-2600)
Specific heat capacity, J/kg·K (Btu/lb·°F)500 (0.12) at 20 °C
Electrical resistivity, μΩ·m0.72 at 20 °C
Magnetic permeability1.02 (Approximate)
Elastic modulus, GPa (10^6 psi)193 (28)

SUS321 stainless steel has good strength and ductility at room temperature and can be hardened by cold working. It also has good creep and stress rupture properties at high temperatures.

What are the Characteristics of SUS321?

The characteristics of SUS321 stainless steel are the properties that make it suitable for various applications and environments. Some of the main characteristics of SUS321 stainless steel are:

Excellent resistance to intergranular corrosion in the chromium carbide precipitation range (800-1500°F, 427-815°C) . This means that SUS321 stainless steel can withstand exposure to high temperatures without losing its corrosion resistance due to the formation of chromium carbide at the grain boundaries, which can cause cracking and failure. This is achieved by the addition of titanium, which stabilizes the carbon and prevents it from reacting with chromium .

Good resistance to oxidation and general corrosion in various environments . This means that SUS321 stainless steel can resist the attack of oxygen and other corrosive agents in different media, such as air, water, acids, alkalis, salts, etc. This is due to the high chromium and nickel content, which form a protective oxide layer on the surface of the steel .

Good resistance to stress corrosion cracking and pitting corrosion . This means that SUS321 stainless steel can resist cracking and pitting caused by tensile stress and chloride ions in corrosive environments, such as seawater, salt spray, etc. This is due to the high nickel content, which enhances the resistance to chloride stress corrosion cracking .

Good weldability and formability . This means that SUS321 stainless steel can be easily welded and processed by standard shop fabrication practices, such as forging, rolling, extrusion, drawing, bending, forming, etc. It does not require post-weld annealing to restore its corrosion resistance, but it is recommended to use low carbon filler metal such as ER347 or ER316L to avoid intergranular corrosion . It also has good ductility and can be formed with ease .

Good creep and stress rupture properties at high temperatures . This means that SUS321 stainless steel can maintain its strength and durability under prolonged exposure to high temperatures and pressures. It has higher creep and stress rupture properties than alloys 304 and 304L, which are commonly used austenitic stainless steels 14. This is due to the addition of titanium, which enhances the creep resistance by forming stable titanium carbides in the steel matrix .

Non-magnetic and heat resistant . This means that SUS321 stainless steel does not exhibit magnetic properties when subjected to a magnetic field. It also resists oxidation up to 1500°F (816°C), which is higher than most austenitic stainless steels . This is due to the high chromium content, which forms a protective oxide layer on the surface of the steel.

These characteristics make SUS321 stainless steel a versatile and durable material for various applications that require high performance and reliability at high temperatures.

What is the Application of SUS321?

SUS321 stainless steel is widely used in various industries and applications, such as:

Aircraft exhaust stacks and manifolds

Chemical processing equipment

Welded equipment

Jet engine parts

Heat exchangers

Expansion joints

Food processing equipment

Automotive trim pieces

Architectural components

IndustryApplication
AerospaceAircraft exhaust stacks and manifolds
ChemicalChemical processing equipment
WeldingWelded equipment
Jet engineJet engine parts
Heat transferHeat exchangers and expansion joints
FoodFood processing equipment
AutomotiveAutomotive trim pieces
Architecture

Architectural components

The table explains the applications of SUS321 stainless steel based on its characteristics, such as corrosion resistance, heat resistance, weldability, and formability. SUS321 stainless steel is suitable for various industries and applications that require high performance and reliability at high temperatures.

 

Conclusion

SUS321 is a titanium stabilized austenitic stainless steel that features improved resistance to intergranular corrosion and high-temperature applications. It has good strength, ductility, weldability, formability, and corrosion resistance. It is suitable for many industrial and automotive applications that require high performance and reliability.