We specialize in the supply of a full range of 304 stainless steel plates and support customized relays, accurately matching your application needs based on core properties.

By Manufacturing Process: Cold rolled 304 stainless steel plate, Hot rolled 304 stainless steel plate

By Connection Type Surface treatment: 304 Mirror SS Sheet(8k),304 Brushed Stainless Steel Sheet(Long /Short Grain), 304 Embossed Stainless Steel Sheet,304 Sandblasted Stainless Steel Sheet

Standard Sizes of 304 Stainless Steel Sheet

304 Stainless Steel Sheet

304 stainless steel is an austenitic stainless steel composed of 18–20% chromium (Cr) and 8–10.5% nickel (Ni), with small amounts of carbon (≤0.08%), manganese (≤2%), and silicon (≤1%).  This composition provides excellent resistance to corrosion in air, fresh water, and many mild chemical solutions, as well as good tensile strength (520–750 MPa) and yield strength (205–310 MPa).  It maintains ductility and formability across a wide temperature range.

Tip: Avoid prolonged exposure to chloride-rich environments (e.g., saltwater) to prevent localized corrosion.

304 Stainless Steel Sheet — Chemical Composition (%)

304 Stainless Steel Sheet — Mechanical Properties

304 Stainless Steel Sheet — Surface Finish Options

Heat Treatment of 304 Stainless Steel

1. Annealing (Solution Treatment)

Temperature range: 1010–1120°C

Process: Rapid cooling in water or air after heating

Purpose: Restores maximum corrosion resistance and ductility

2. Stress Relieving

Applied after heavy machining or forming

Helps minimize residual stresses and distortion

3. Hardening

304 stainless steel cannot be hardened by heat treatment

Strength improvement is achieved only through cold working

4. Performance Balance

Proper heat treatment restores the chromium carbide balance, preventing sensitization and intergranular corrosion.

Ensures stable performance during welding, pressure vessel operation, and high-temperature service.

Features of 304 Stainless Steel Sheet

Corrosion Resistance: Excellent resistance to a wide range of atmospheric environments and many corrosive media, particularly effective against oxidation and mild chemical exposure.

Mechanical Properties: Provides a balance of high tensile strength and good ductility, allowing for reliable forming, bending, and deep drawing.

Weldability: Suitable for most welding techniques without requiring pre- or post-weld heat treatment, minimizing the risk of sensitization when properly handled.

Temperature Tolerance: Maintains structural stability up to ~870°C (1600°F) in intermittent service and ~925°C (1700°F) in continuous service.

Applications of 304 Stainless Steel Sheet

Kitchen Equipment : countertops, sinks, and work tables;  recommended: 1/2 inch (12.7 mm) sheet.

Decorative Panels : wall cladding, ceiling panels, furniture surfaces;  recommended: thin sheets, 0.5–1.0 mm.

Construction and Cladding : building facades, partitions, exterior panels;  recommended: large sheets, 4x8 ft (1219x2438 mm) or 5x10 ft (1500x3000 mm).

Chemical and Food Industry : tanks, piping, processing equipment;  recommended: 1–3 mm thickness.

Automotive and Machinery Parts : structural components requiring strength and corrosion resistance;  recommended: 2–6 mm thickness.

304 Stainless Steel Sheet — FAQ

Q1: What is 304 stainless steel sheet made of?

A1: 304 stainless steel sheet is an austenitic stainless steel containing 18–20% chromium (Cr) and 8–10.5% nickel (Ni), with small amounts of carbon, manganese, and silicon.  This composition ensures excellent corrosion resistance, ductility, and mechanical stability for 304 stainless steel sheets used in kitchen counters, decorative wall panels, and industrial 304 sheet applications.

Q2: What thicknesses are available for 304 stainless steel sheets?

A2: 304 stainless steel sheets are available in thicknesses ranging from 0.3 mm to 20 mm.  Common long-tail options include 0.5 mm thin 304 stainless steel sheet for decorative panels, 1 mm 304 sheet for kitchen equipment, and 2–4 mm 304 stainless steel sheet for construction cladding and industrial use.

Q3: What sizes can I order for 304 stainless steel sheets?

A3: Standard widths range from 1000 mm to 1500 mm, and lengths from 2000 mm to 6000 mm.  Popular long-tail sizes include 4x8 ft (1219x2438 mm) 304 stainless steel sheet for facades, 5x10 ft (1500x3000 mm) large 304 sheet for partitions, and custom large-size 304 stainless steel sheets for industrial applications.

Q4: What surface finishes are available for 304 stainless steel sheets?

A4: Available surface finishes include 2B smooth matte 304 sheet, BA bright annealed 304 stainless steel sheet, No.4 brushed finish, No.8 mirror finish, HL (hairline), sandblasted, etched, and embossed 304 sheets.  These finishes are suitable for applications like kitchen counters, decorative panels, and industrial equipment.

Q5: Can 304 stainless steel sheets be cut, bent, or welded?

A5: Yes. 304 stainless steel sheets have excellent formability and can be cut, bent, deep drawn, or welded, including 1/2 inch 304 stainless steel sheet for kitchen counters and thin 304 sheets for decorative panels, without losing corrosion resistance.  Cold working can further increase strength where needed.

Q6: How should 304 stainless steel sheets be maintained?

A6: Clean 304 stainless steel sheets regularly using mild detergent and water.  Avoid prolonged exposure to chlorides or strong acids, especially for thin 304 stainless steel panels and kitchen equipment sheets, to maintain optimal corrosion resistance.

Q7: What are typical applications of 304 stainless steel sheets?

A7: Common applications include kitchen equipment (1/2 inch 304 sheet for countertops and sinks), decorative panels (thin 304 sheet for walls, ceilings, and furniture surfaces), construction and cladding (large 4x8 ft or 5x10 ft 304 sheet for facades and partitions), chemical and food processing industry (1–3 mm 304 sheet for tanks and piping), and machinery components (2–6 mm 304 stainless steel sheet for structural parts).

Q8: Can 304 stainless steel sheets be customized?

A8: Yes.  Suppliers can provide custom thickness, width, length, and surface finish, such as thin 0.5–1 mm 304 sheet for decorative panels or large 4x8 ft 304 stainless steel sheet for construction cladding, to meet project or industrial requirements.

Specifications

316/316L stainless steel plates

Both 316 and 316L stainless steel plates are austenitic stainless steels, with their core alloys being chromium (Cr ≥ 16%) and nickel (Ni ≥ 10%). The key difference between the two lies in their carbon content: 316 stainless steel has a carbon content of ≤ 0.08%, while 316L stainless steel (the "L" stands for "Low Carbon") has a carbon content of ≤ 0.03%. This carbon content difference is not only the core difference between the two, but also directly affects their intergranular corrosion resistance and weldability, providing a clear basis for selection in different application scenarios.

Chemical Composition (%)

Mechanical Properties

Heat Treatment of 316 / 316L Stainless Steel Sheet

1. Annealing (Solution Treatment)

Temperature Range: 1010–1120°C

Process: Heat to the specified temperature, then rapidly cool in water or air.

Purpose: Restores full corrosion resistance and ductility by dissolving carbide precipitates and homogenizing the microstructure.

2. Stress Relieving

Application: Performed after heavy forming, bending, or machining operations.

Purpose: Reduces residual stress and minimizes distortion, maintaining dimensional accuracy for precision components.

3. Hardening

Note: 316 / 316L stainless steel cannot be hardened by heat treatment.

Alternative: Strength improvement can only be achieved through cold working, such as rolling or drawing.

4. Performance Balance

Proper heat treatment maintains the chromium-to-carbon balance, preventing sensitization and intergranular corrosion.

Ensures stable performance during welding, high-pressure vessel operation, and exposure to elevated temperatures or corrosive environments.

Features of 316/316L Stainless Steel Plates

1. Corrosion Resistance They offer superior corrosion resistance (surpassing 304), withstanding atmospheric/humid coastal environments and dilute sulfuric/nitric acid. The 2%-3% molybdenum content resists chloride-induced corrosion (e.g., saltwater). 316L (C≤0.03%) further enhances post-weld intergranular corrosion resistance.
2. Mechanical Properties Balances high strength and ductility: Tensile strength 515-750 MPa, yield strength 205-310 MPa (ensures load-bearing capacity); elongation ≥40% (enables forming, bending, deep drawing without cracking). 
3.  Weldability Compatible with TIG/MIG/arc welding, no pre/post-weld heat treatment required for most cases. 316L’s low carbon minimizes welding sensitization, ideal for welded structures.
4. Temperature Tolerance Maintains stability at up to 800°C (continuous service) and ~925°C (intermittent service), plus good low-temperature toughness (-196°C) for cryogenic applications.

Applications of 316 / 316L Stainless Steel Sheet

Marine & Offshore Equipment – Used for ship decks, seawater desalination tanks, and offshore platform structures.
Typically used in 6–12 mm thickness, offering excellent resistance to saltwater corrosion and sufficient load-bearing strength.

Medical & Pharmaceutical Industry – Ideal for surgical equipment housings, drug storage tanks, and sterile processing pipelines.
Commonly supplied in 1–3 mm thickness; 316L is preferred for its superior cleanliness and compliance with medical-grade hygiene standards.

Chemical & Petrochemical Industry – Applied in acid and alkali reactor linings, corrosion-resistant piping, and chemical storage tanks.
Recommended 3–8 mm thickness, capable of withstanding strong chemical and chloride corrosion.

High-End Food Processing – Suitable for dairy fermentation tanks, soy sauce brewing equipment, and seafood processing tables.
Typically 1.5–4 mm thickness, with 316L providing the best resistance to contamination and preventing impurity precipitation.

Coastal Construction & Decoration – Used in coastal building facades, outdoor sculptures, and spa or resort bathroom panels.
Decorative thin sheets (0.8–1.2 mm) are used for panels, while large-format sheets (4x8 ft / 1219x2438 mm or 5x10 ft / 1500x3000 mm) are ideal for facade cladding.

Industrial Machinery & Cryogenic Equipment – Suitable for low-temperature LNG storage components and high-temperature furnace linings.
Typically 4–10 mm thickness, maintaining mechanical stability from -196°C to 800°C.

316/316L Stainless Steel Sheet — FAQs

1. What is the difference between 316 and 316L stainless steel sheet?
316L contains lower carbon content (≤0.03%) compared to 316 (≤0.08%), which improves weldability and resistance to intergranular corrosion. 316L stainless steel sheet is often used in welded structures, chemical processing, and marine environments.

2. Is 316 stainless steel sheet magnetic?
Both 316 and 316L stainless steel sheets are non-magnetic in annealed condition. However, slight magnetism may appear after cold working or bending.

3. What thicknesses and sizes are available for 316/316L stainless steel sheet?
Common thicknesses include 0.5 mm, 1 mm, 2 mm, 3 mm, 6 mm, and 10 mm. Standard sizes are 4x8 ft (1219x2438 mm) and 5x10 ft (1500x3000 mm). Custom cutting and polishing are available.

4. Can 316L stainless steel sheet be used for food and medical equipment?
Yes. 316L is food-grade and medical-grade compliant, making it ideal for dairy tanks, kitchen counters, pharmaceutical vessels, and surgical instruments.

5. How corrosion-resistant is 316 stainless steel sheet in seawater?
316 and 316L offer excellent resistance to saltwater, chloride, and acid corrosion, making them suitable for marine structures, desalination systems, and coastal applications.

6. Can 316 stainless steel sheet be welded or formed easily?
Yes. Both grades have good weldability and formability. After welding, solution annealing is recommended for 316 to restore corrosion resistance; 316L usually does not require this step.

7. What is the surface finish of 316/316L stainless steel sheet?
Available finishes include 2B, BA (bright annealed), No.4 (brushed), HL (hairline), and mirror finish, depending on the application — decorative, industrial, or hygienic.

8. How does 316/316L stainless steel compare to 304 stainless steel?
316/316L contains molybdenum, giving it higher corrosion resistance, especially in chloride or acidic environments. 304 is more cost-effective but less durable in harsh conditions.

Specification

We offer a wide range of stainless steel pipes, categorized as follows:

By Manufacturing Process: Seamless pipes / Welded pipes

By Connection Type: Threaded pipes / Flanged pipes / Grooved pipes

By Application & Function: Exhaust pipes / Perforated pipes / Coated pipes / Customized pipes

409 Stainless Steel Pipe

409 stainless steel pipe is a ferritic stainless steel product that offers good oxidation and corrosion resistance, especially in high-temperature environments. It has lower chromium content than 304 or 316, which makes it more economical, while still providing adequate durability. With good weldability and thermal stability, 409 stainless steel pipe is widely used in automotive exhaust systems, heat exchangers, and other applications where moderate corrosion resistance and excellent heat resistance are required.

409 Stainless Steel Pipe – Chemical Composition (%)

409 Stainless Steel Pipe – Mechanical Properties

Hot Processing

Seamless Pipes: Hot piercing + multiple mandrel mill or rotary piercing steps.

Welded Pipes: Plate is rolled into a cylinder, welded, and then sized/straightened.

Features:

Seamless pipes are axially stretched from the billet, with strict control of wall thickness and diameter.

Heat processing of pipes requires extra attention to roundness and uniform wall thickness.

Welded pipes need careful control of weld seam position and stress in the heat-affected zone.

Stress Characteristics:

The circular cross-section generates hoop and axial stresses during heating and cooling, which must be relieved by annealing.

Heat Treatment

Annealing: After hot rolling or welding, 409 stainless steel pipes are annealed at approximately 800–900°C to relieve internal stresses, improve ductility, and enhance corrosion resistance.  The pipe is then cooled under controlled conditions to stabilize dimensions and shape.

Stress Relief Annealing: For formed or welded pipes, a short low-temperature anneal below 400–450°C is often applied to remove residual stresses caused by welding or bending.

Notes:

Annealing is essential for 409 ferritic stainless steel due to its lower ductility and corrosion resistance.

Processes such as solution treatment, precipitation hardening, or high-temperature tempering are not applicable to 409 stainless steel pipes.

Features of 409 Stainless Steel Pipe

Ferritic Structure: 409 stainless steel has a ferritic crystal structure, providing moderate strength and good resistance to oxidation at high temperatures.

Corrosion Resistance: Suitable for mildly corrosive environments, such as automotive exhaust systems;  less resistant than austenitic grades like 304 or 316.

Heat and Oxidation Resistance: Maintains shape and strength at elevated temperatures, making it ideal for exhaust and high-temperature applications.

Formability: Good for rolling, bending, and welding, though ductility is lower than austenitic stainless steels.

Cost-Effective: Provides a balance of mechanical properties, heat resistance, and corrosion resistance at a lower cost compared with higher-grade stainless steels.

Specifications

210 Stainless Steel Sheets/Plates

Chemical Composition (Typical %)

Mechanical Properties

Heat Treatment of 210 Stainless Steel Sheets/Plates

1.Annealing (Solution Treatment)

Temperature: 1010–1090°C

Cooling: Rapid cooling in air or water

Purpose: Restores ductility and corrosion resistance after cold work

2.Stress Relieving

After bending or deep drawing

Reduces residual stresses and distortion

3.Hardening

Cannot be hardened by heat treatment

Strength improvement only through cold working

4.Performance Balance

Maintains internal structure stability

Ensures consistent performance in forming, welding, and polishing

Features of 201 Stainless Steel Plates 

Corrosion Resistance : It has moderate corrosion resistance (weaker than 316/316L), suitable for mild environments like dry atmospheric conditions, fresh water, or non-corrosive indoor spaces. Due to low nickel (3.5%-5.5%) and no molybdenum, it cannot resist chloride-induced corrosion (e.g., saltwater) or strong acids (e.g., dilute sulfuric acid). 

Mechanical Properties : Boasts relatively high strength with acceptable ductility: Tensile strength 520-750 MPa, yield strength 210-345 MPa (meets general load-bearing needs); elongation ≥35% (enables basic forming, bending, and stamping for common parts). 

Weldability : Compatible with TIG/MIG/arc welding, but no low-carbon variant (unlike 316L). Its carbon content (≤0.15%) may increase intergranular corrosion risk after welding, requiring proper control of welding heat input (e.g., avoiding overheating). 

Temperature Tolerance : Maintains stability at up to 400-500°C (continuous service) and ~600°C (intermittent service) – lower than 316/316L. Low-temperature toughness is ordinary, not suitable for cryogenic applications (e.g., below -20°C).

Applications of 201 Stainless Steel Sheets /Plates

Kitchen Equipment: Countertops, sinks, range hoods, and utensils (recommended thickness: 0.8–1.5 mm for decorative panels).

Interior Decoration: Wall panels, elevator doors, ceiling panels (thin sheets 0.6–1.2 mm for aesthetic use).

Furniture and Household Appliances: Refrigerator panels, table frames, cabinet doors (recommended thickness: 0.8–2 mm).

Transportation & Auto Parts: Trim strips, inner body panels, luggage racks (1.5–3 mm).

Building & Architecture: Interior cladding, handrails, and light structural parts (2–4 mm).

Commercial Displays: Signboards, decorative columns, shop fittings (custom mirror or hairline finish).

201 Stainless Steel Sheets/Plates ——FAQs

1. What is the main difference between 201 and 304 stainless steel sheet?
201 has lower nickel and higher manganese content, making it stronger and cheaper than 304. However, it offers lower corrosion resistance, so it’s more suitable for indoor or dry environments.

2. Can 201 stainless steel sheet resist rust?
It provides good resistance to mild corrosion and oxidation but is not suitable for marine or acidic environments. For saltwater resistance, 304 or 316 grades are recommended.

3. What are the available sizes and thicknesses of 201 stainless steel sheet?
Common thicknesses: 0.4 mm, 0.8 mm, 1.0 mm, 2.0 mm, 3.0 mm, and 5.0 mm.
Standard sheet sizes: 4x8 ft (1219x2438 mm) and 5x10 ft (1500x3000 mm).
Custom cutting, polishing, and surface finishing are available.

4. Can 201 stainless steel be welded easily?
Yes. It can be welded using TIG or MIG methods, though post-weld annealing is recommended for optimal corrosion resistance.

5. What surface finishes are available for 201 stainless steel sheet?
Options include 2B, BA (bright), No.4 (brushed), HL (hairline), and mirror finish, suitable for different decorative and industrial needs.

6. Is 201 stainless steel suitable for food processing?
It can be used for general food-contact surfaces like countertops or shelves, but 316L is preferred for strict hygiene and corrosion-resistant applications.

7. Why choose 201 stainless steel sheet?
It offers an ideal balance of strength, cost efficiency, and aesthetics, making it a popular choice for furniture, interior decoration, and commercial applications.

We supply a full range of 201 stainless steel sheets and plates with flexible customization and reliable quality. Available in various sizes, thicknesses, finishes, and processing options to meet both decorative and industrial needs.

Our 201 stainless steel sheets (typically ≤6 mm) and plates (>6 mm) come in a wide range of thicknesses, sizes, and surface finishes to suit decorative, architectural, structural, and general fabrication requirements.

Available in thicknesses from 0.3mm to 30mm， and in common sizes such as 4×8 ft (1219 × 2438 mm) ；5×10 ft (1500 × 3000 mm) ；Custom Cut-to-Size: Available upon request

By Manufacturing Process:
Cold Rolled 201 Stainless Steel Sheet / Plate, Hot Rolled 201 Stainless Steel Plate

By Surface Treatment Type:
201 Mirror Stainless Steel Sheet (8K), 201 Brushed Stainless Steel Sheet (Long Grain / Short Grain), 201 Embossed Stainless Steel Sheet, 201 Sandblasted Stainless Steel Sheet

201 Stainless Steel Sheets/Plates

201 stainless steel is an austenitic stainless steel grade featuring a balanced blend of chromium (about 16–18%), manganese (5–8%), and reduced nickel (3.5–5.5%). Compared with higher-nickel grades like 304/316, 201 offers excellent cost efficiency while maintaining good corrosion resistance and strength, making it ideal for applications that do not demand extreme chemical resistance.

Chemical Composition of 201 Stainless Steel (wt%)

Mechanical Properties of 201 Stainless Steel Sheet / Plate

Heat Treatment of 201 Stainless Steel

201 stainless steel is an austenitic stainless steel and cannot be hardened by heat treatment. Heat treatment is mainly used to restore ductility, improve corrosion resistance, and relieve internal stress after cold working or welding.

Common Heat Treatment Methods:

1、Solution Annealing
Heating to 1010–1120°C, followed by rapid cooling (water quenching) to achieve a uniform austenitic structure/

2、Stress Relief Annealing
Used after heavy cold forming or welding to reduce residual stress and improve dimensional stability.

⚠️ Note: Excessive heat exposure or improper cooling may reduce corrosion resistance due to carbide precipitation.

Features of 201 Stainless Steel Plates 

1、Cost-Effective Austenitic Stainless Steel
Lower nickel content makes 201 stainless steel sheet a budget-friendly alternative to 304 stainless steel.

2、Good Strength & Formability
Higher manganese content improves tensile strength while maintaining acceptable ductility for bending and forming.

3、Moderate Corrosion Resistance
Suitable for indoor, dry, or mildly corrosive environments. Not recommended for marine or high-chloride conditions.

4、Good Weldability
Compatible with TIG, MIG, and arc welding. Proper post-weld treatment is recommended for corrosion-sensitive applications.

5、Decorative Surface Performance
Performs well in mirror, brushed, embossed, and sandblasted finishes for architectural and decorative uses.

Typical Applications

201 stainless steel sheet and plate are widely used for:

Kitchen & Food Equipment: Counters, sinks, range hoods, work surfaces (0.8 – 1.5 mm)

Interior Decoration: Wall panels, elevator doors, ceiling panels

Furniture & Appliances: Refrigerator panels, cabinet doors, table frames

Automotive & Transportation: Trim strips, inner panels, luggage racks

Architecture & Construction: Handrails, decorative cladding, light structural parts

Commercial Displays & Fixtures: Sign boards, shop fittings, aesthetic trims

201 Stainless Steel Sheet & Plate – FAQs

Q1: What is 201 stainless steel sheet?

201 stainless steel sheet is a low-nickel, austenitic stainless steel sheet containing higher manganese, offering good strength and cost efficiency for general and decorative applications.

Q2: Is 201 stainless steel better than 304?

201 stainless steel is more cost-effective than 304, but it has lower corrosion resistance. 304 stainless steel is preferred for harsher or corrosive environments.

Q3: What are common applications of 201 stainless steel sheets?

201 stainless steel sheets are commonly used in interior decoration, kitchen equipment, furniture, appliances, architectural panels, and general fabrication.

Q4: Can 201 stainless steel be used outdoors?

201 stainless steel can be used outdoors in mild environments but is not recommended for coastal, marine, or high-chloride conditions.

Q5: Is 201 stainless steel food grade?

201 stainless steel is generally used for non-critical food contact or auxiliary equipment. For strict food-grade applications, 304 or 316 stainless steel is recommended.

Q6: Can 201 stainless steel sheet be welded?

Yes, 201 stainless steel sheet can be welded using TIG, MIG, or arc welding. Proper welding procedures help maintain performance and corrosion resistance.

Q7: What thicknesses are available for 201 stainless steel plate?

201 stainless steel sheets and plates are available in thicknesses from 0.3 mm to 30 mm, with custom cut-to-size options available.

Q8: What surface finishes are available for 201 stainless steel sheet?

Common finishes include mirror (8K), brushed (long or short grain), embossed, sandblasted, BA, and 2B finishes.

Q9: Is 201 stainless steel magnetic?

201 stainless steel is generally non-magnetic in the annealed condition but may become slightly magnetic after cold working.

Q10: What is the difference between cold rolled and hot rolled 201 stainless steel?

Cold rolled 201 stainless steel has a smoother surface and tighter tolerances, while hot rolled 201 stainless steel plate is typically used for thicker and structural applications.

Q11: Can 201 stainless steel rust?

201 stainless steel has moderate corrosion resistance. In humid or chloride-rich environments, surface corrosion may occur if not properly maintained.

Q12: Do you provide custom sizes and processing for 201 stainless steel sheets?

Yes, custom sizes, cutting, polishing, bending, and other processing services are available based on project requirements.

We supply a full range of 304 stainless steel pipes and tubes with reliable quality and flexible customization. Available in a wide range of sizes, thicknesses, finishes, and processing options to meet both industrial and architectural needs.

Our 304 stainless steel tubes come in various specifications to suit structural, mechanical, sanitary, and general fabrication requirements.

Available in wall thicknesses from 0.5 mm to 30 mm, and in common outer diameters such as 1/2″, 3/4″, 1″, or custom cut-to-size upon request.

By Manufacturing Process: Cold Drawn 304 Stainless Steel Seamless Pipe, Hot Rolled 304 Stainless Steel Seamless Pipe, ERW 304 Stainless Steel Pipe, Welded 304 Stainless Steel Tube
By Surface Treatment Type: 304 Pickled Stainless Steel Pipe, 304 Bright Annealed Stainless Steel Tube (BA), 304 Polished Stainless Steel Pipe, 304 Mirror Stainless Steel Tube, 304 Brushed Stainless Steel Tube

Chemical Composition of 304 Stainless Steel (wt%)

Mechanical Properties of 304 Stainless Steel Pipe / Tube

Heat Treatment of 304 Stainless Steel

304 stainless steel is an austenitic stainless steel and cannot be hardened by heat treatment. Heat treatment is mainly used to:

• Solution Annealing: Heat to 1010 – 1120 °C, then rapidly cool (water quenching)

• Stress Relief Annealing: Used to relieve work-hardening or welding stress

Features of 304 Stainless Steel Pipes / Tubes

• Excellent Corrosion Resistance — Performs well in most environments, including outdoors and mildly corrosive atmospheres.

• Superb Weldability — Compatible with TIG, MIG, arc welding, and other common methods.

• Good Formability & Fabrication — Easy to form, bend, and machine.

• Sanitary & Food-Grade Acceptability — Widely used where hygiene is required.

• Wide Range of Surface Finishes — Available in pickled, BA, polished, mirror, and brushed finishes.

Typical Applications

304 stainless steel pipe and tube are widely used in:

• Food processing and sanitary piping systems

• Chemical and petrochemical equipment

• Pharmaceutical manufacturing systems

• Architectural structural tubing and handrails

• Heat exchangers and machinery frames

• Automotive and transportation components

304 Stainless Steel Pipe & Tube – FAQs

Q1: What is 304 stainless steel pipe?
304 stainless steel pipe is a corrosion-resistant tubular product commonly used for fluid conveyance, structural, and sanitary applications.

Q2: Is 304 stainless steel pipe food grade?
Yes, 304 stainless steel pipe is widely used in food and beverage processing due to its corrosion resistance and cleanability.

Q3: What is the difference between seamless and welded 304 stainless steel pipe?
Seamless tubes have no welded seam, offering higher pressure resistance; welded pipes are more cost-effective for less critical applications.

Q4: Can 304 stainless steel tube be welded?
Yes, 304 stainless steel tube has excellent weldability with common methods like TIG and MIG.

Q5: What sizes are available for 304 stainless steel pipe?
Available in diameters from 6 mm to 630 mm and thicknesses 0.5 mm – 30 mm, with custom sizes available upon request.

Q6: What surface finishes are offered for 304 stainless steel tubes?
Finishes include pickled, BA, polished, mirror, and brushed to meet industrial and decorative needs.

We supply 316 stainless steel pipes and tubes with stable quality and consistent performance. With enhanced corrosion resistance from molybdenum content, 316 stainless steel pipe is suitable for chemical, marine, food processing, and industrial piping systems.

316 stainless steel tubes are available in various sizes, wall thicknesses, and surface finishes to meet demanding industrial and structural requirements.

Available in wall thicknesses from 0.5 mm to 30 mm, with standard lengths or custom cut-to-size options.

By Manufacturing Process: Cold Drawn 316 Stainless Steel Seamless Pipe, Hot Rolled 316 Stainless Steel Seamless Pipe, ERW 316 Stainless Steel Pipe, Welded 316 Stainless Steel Tube
By Surface Treatment Type: 316 Pickled Stainless Steel Pipe, 316 Bright Annealed Stainless Steel Tube (BA), 316 Polished Stainless Steel Pipe, 316 Mirror Stainless Steel Tube, 316 Brushed Stainless Steel Tube

Chemical Composition of 316 Stainless Steel (wt%)

Mechanical Properties of 316 Stainless Steel Pipe / Tube

Heat Treatment of 316 Stainless Steel

316 stainless steel is an austenitic stainless steel and cannot be hardened by heat treatment. Heat treatment is mainly applied to improve corrosion resistance and restore ductility.

Solution Annealing: 1010 – 1120 °C, followed by rapid cooling

Stress Relief: Applied after cold forming or welding when required

Key Characteristics of 316 Stainless Steel Pipe / Tube

Excellent Corrosion Resistance
Molybdenum improves resistance to chlorides, acids, and marine environments.

Good Weldability
Suitable for TIG, MIG, and arc welding without major loss of corrosion resistance.

Stable Mechanical Properties
Maintains strength and toughness across a wide temperature range.

Good Formability
Easy to bend, cut, and fabricate for piping and structural systems.

Preferred for Harsh Environments
Widely used where 304 stainless steel is insufficient.

Typical Applications

316 stainless steel pipes and tubes are commonly used in:

Chemical and petrochemical processing systems

Marine and offshore piping

Food and beverage processing equipment

Pharmaceutical and sanitary pipelines

Heat exchangers and pressure vessels

Coastal and high-humidity architectural structures

FAQ – 316 Stainless Steel Pipe / Tube

Q1: What is 316 stainless steel pipe used for?

316 stainless steel pipe is used in corrosive environments such as chemical plants, marine systems, and food processing facilities.

Q2: What is the difference between 316 and 304 stainless steel pipe?

316 contains molybdenum, providing better resistance to chlorides and chemical corrosion than 304.

Q3: Is 316 stainless steel pipe suitable for marine use?

Yes, 316 stainless steel pipe is commonly used in marine and coastal environments.

Q4: Can 316 stainless steel tube be welded?

Yes, 316 stainless steel tube has good weldability using common welding methods.

Q5: Do you offer seamless and welded 316 stainless steel pipes?

Yes, both seamless and welded 316 stainless steel pipes are available.

Q6: Are custom sizes available for 316 stainless steel pipe?

Yes, custom diameters, wall thicknesses, and lengths are available upon request.

We specialize in the supply of a full range of 430 Stainless Steel Pipe / Tube and support customized , accurately matching your application needs based on core properties.

Material Grade: AISI 430 / EN 1.4016

430 stainless steel belongs to the ferritic stainless steel family. It is magnetic in all conditions and does not harden by heat treatment. Its chromium content provides basic corrosion resistance and good oxidation resistance, especially in dry or indoor environments.

By Production Method:

Welded 430 Stainless Steel Pipe / Tube

Seamless 430 Stainless Steel Tube (limited availability, mainly small sizes)

By Forming Process:

Cold Rolled 430 Stainless Steel Tube

Hot Rolled 430 Stainless Steel Pipe

Cold rolled tubes offer better surface finish and dimensional accuracy, while hot rolled pipes are more suitable for structural and general-purpose applications.

Specifications

430 Stainless Steel Pipe / Tube

430 stainless steel pipe and tube are ferritic stainless steel products containing approximately 16–18% chromium and no nickel. Compared with austenitic grades such as 304 and 316, 430 stainless steel offers good corrosion resistance in mild environments, stable mechanical properties, and excellent formability at a more economical cost.

430 stainless steel pipes are widely used in applications where corrosion resistance is required but exposure conditions are not highly aggressive, making them a cost-effective alternative for decorative, structural, and light industrial purposes.

Chemical Composition (Typical)

Mechanical Properties (Typical)

Heat Treatment of 430 Stainless Steel Pipe / Tube

1. Annealing

Temperature range: 760–815°C

Process: Heating followed by air cooling

Purpose: Relieves cold working and welding stresses, improves ductility and dimensional stability

2. Stress Relieving

Applied after cold forming or welding

Helps reduce residual stress and minimize deformation during service

3. Hardening

430 stainless steel cannot be hardened by heat treatment

Mechanical properties are mainly determined by chemical composition and forming process

4. Performance Stability

Proper annealing stabilizes the ferritic microstructure and improves consistency in welded areas.

Ensures reliable performance in decorative, structural, and general industrial applications.

*Note:430 stainless steel cannot be hardened by heat treatment. Heat treatment is used for structure stabilization and formability, not strength enhancement.

Features of 430 Stainless Steel Pipe / Tube

Corrosion Resistance:
Good resistance to atmospheric corrosion and mild chemical environments, suitable for indoor and low-corrosive applications.

Mechanical Properties:
Moderate strength with good formability, suitable for bending, forming, and general structural use.

Weldability:
Weldable by standard methods; post-weld heat treatment may be applied to improve weld zone stability.

Magnetic Property:
Magnetic in all conditions due to its ferritic structure, distinguishing it from austenitic stainless steels.

Cost Efficiency:
Low nickel content provides a cost-effective alternative to 304 stainless steel for non-critical corrosion environments.

Applications of 430 Stainless Steel Pipe / Tube

Decorative and Architectural Use:
handrails, railings, furniture frames, indoor structures;  recommended: thin to medium wall tubes.

Household Appliances:
appliance frames, exhaust components, structural supports;  recommended: small to medium diameter tubes.

Automotive Components:
exhaust trims, brackets, structural parts;  recommended: precision-formed tubes.

General Industrial Use:
support structures, enclosures, equipment frames;  recommended: standard wall thickness pipes.

Indoor Piping Systems:
non-pressure and low-corrosion fluid transport;  recommended: welded tubes with annealed condition.

They are especially suitable for indoor or low-corrosion environments where appearance and cost control are important.

FAQ – 430 Stainless Steel Pipe / Tube

Q1: Does 430 stainless steel pipe require heat treatment?
Yes. Heat treatment such as annealing is commonly used to relieve stress after cold forming or welding, although it does not increase mechanical strength.

Q2: Is heat treatment a critical step for 430 stainless steel pipe?
It depends on the application. For welded or heavily cold-worked pipes, heat treatment is important to ensure dimensional stability and consistent performance.

Q3: Can 430 stainless steel pipe be hardened by heat treatment?
No. 430 is a ferritic stainless steel and cannot be hardened by heat treatment. Strength is mainly determined by chemical composition and forming process.

Q4: How does heat treatment affect corrosion resistance of 430 stainless steel pipe?
Proper annealing helps stabilize the microstructure and can improve corrosion resistance, especially in welded areas.

Q5: Is post-weld heat treatment always necessary for 430 stainless steel tubes?
Not always. For general decorative or low-stress applications, it may not be required. For industrial or precision uses, post-weld heat treatment is recommended.

We specialize in the supply of a full range of 304 stainless steel coils and support customized processing services, accurately matching application requirements based on material performance and fabrication needs.

By Manufacturing Process:
Cold rolled 304 stainless steel coil, Hot rolled 304 stainless steel coil

By Surface Treatment Type:
304 Mirror Stainless Steel Coil (8K), 304 Brushed Stainless Steel Coil (Long / Short Grain), 304 Embossed Stainless Steel Coil, 304 Sandblasted Stainless Steel Coil

Specifications

304 Stainless Steel Coil

304 stainless steel coil is a widely used austenitic stainless steel product known for its excellent corrosion resistance, good formability, and stable mechanical performance. It is commonly supplied in cold rolled or hot rolled condition and is suitable for further processing such as slitting, cutting, stamping, and forming.

Chemical Composition (Typical)

Mechanical Properties (Typical)

Heat Treatment of 304 Stainless Steel Coil

1. Annealing (Solution Treatment)

Temperature range: 1010–1120°C

Process: Rapid cooling in water or air after heating

Purpose: Restores maximum corrosion resistance and ductility after cold rolling

2. Stress Relieving

Applied after heavy cold working or forming

Helps minimize residual stresses and maintain dimensional stability

3. Hardening

304 stainless steel coil cannot be hardened by heat treatment

Strength improvement is achieved only through cold working

4. Performance Balance

Proper heat treatment prevents chromium carbide precipitation and maintains resistance to intergranular corrosion.

Ensures stable performance during forming, welding, and subsequent fabrication.

Features of 304 Stainless Steel Coil

Corrosion Resistance:
Excellent resistance to atmospheric corrosion and a wide range of chemical environments.

Formability:
High ductility allows easy rolling, bending, stamping, and deep drawing.

Surface Quality:
Uniform surface finish suitable for decorative and precision applications.

Weldability:
Compatible with common welding processes without complex pre-treatment.

Processing Flexibility:
Ideal base material for sheet cutting, strip slitting, and component fabrication.

Applications of 304 Stainless Steel Coil

Sheet and Plate Processing:
cut-to-length sheets, laser cutting blanks;  recommended: cold rolled coils.

Appliance Manufacturing:
refrigerators, washing machines, kitchen equipment panels;  recommended: BA or 2B finish.

Construction and Decoration:
cladding panels, ceilings, trims;  recommended: thin gauge coils.

Food and Chemical Industry:
processing equipment, tanks, containers;  recommended: annealed coils.

Automotive and Machinery Parts:
formed components requiring corrosion resistance and strength;  recommended: medium thickness coils.

FAQ – 304 Stainless Steel Coil

Q1: What is the difference between stainless steel coil and sheet?
Stainless steel coil is supplied in continuous rolled form and can be further processed into sheets or strips, offering higher processing flexibility.

Q2: Is 304 stainless steel coil suitable for deep drawing?
Yes. Its austenitic structure provides excellent ductility, making it suitable for deep drawing and complex forming.

Q3: Can 304 stainless steel coil be welded directly?
Yes. Standard welding methods can be used without special heat treatment when proper procedures are followed.

Q4: Does 304 stainless steel coil rust easily?
No. It provides excellent corrosion resistance in normal atmospheric and mild chemical environments.