Welding Methods of Stainless Steel Sheet (0.1~3.0mm thickness)

After learning about stainless steel welding methods and techniques, let's further explore the welding methods for stainless steel sheets.

Stainless steel sheets or thin stainless steel plates, which have a thickness between 0.1mm and 3.0mm, are widely used in construction, decoration, furniture, appliances, automotive, and shipbuilding industries. These plates are known for their corrosion resistance, wear resistance, aesthetics, and ease of cleaning. However, they also present challenges such as high welding difficulty, easy deformation, and high risk of burn-through. Therefore, appropriate methods and process parameters must be selected, and welding heat input must be controlled to ensure the quality and appearance of the weld.

I. Welding Characteristics of Stainless Steel Sheet

Welding stainless steel sheets differs from welding regular steel plates in the following aspects:

1. Poor Thermal Conductivity: Stainless steel sheets have poor thermal conductivity, making heat dissipating during welding difficult. This can result in a huge heat-affected zone (HAZ), degrading the mechanical properties of the weld and base metal, and potentially causing defects such as cracks and pores.

2. High Melting Point: Stainless steel sheets require a higher current and voltage for welding, which increases the risk of burn-through and weld bead formation, affecting the flatness and aesthetics of the weld.

3. High Thermal Expansion Coefficient: Stainless steel sheets tend to develop significant residual stress and deformation during welding, impacting the dimensional accuracy and stability of the welded parts.

4. Thick Oxide Film: The surface of stainless steel sheets has a thick oxide film, which must be thoroughly removed along with any grease, rust, or other contaminants before welding to ensure weld quality and formation.

5. Inert Gas Protection: Welding stainless steel sheets requires the use of inert gas to protect the weld pool from reacting with oxygen, nitrogen, and water vapor in the air, which can lead to oxidation, nitriding, and hydrogen embrittlement of the weld.

II. Common Welding Methods for Stainless Steel Sheets

1）Gas Tungsten Arc Welding (GTAW):

GTAW uses inert gas (argon) as a shielding gas and an arc between a tungsten electrode and the workpiece to heat and melt the weld area.

• Advantages: Good welding stability, deep penetration, good weld formation, and excellent overall mechanical properties.

• Disadvantages: Large heat-affected area, prone to deformation and excessive HAZ, slow welding speed, high argon consumption, and high cost.

GTAW is suitable for welding stainless steel sheets with a thickness above 0.6mm.

2）Laser Welding:

Laser welding uses a high-energy density laser beam as a heat source to locally heat and melt the weld area.

• Advantages: Low welding temperature, small HAZ, flat welds, minimal deformation, fast welding speed, and high efficiency.

• Disadvantages: High equipment cost, high technical requirements, requires pure argon protection, high post-processing costs, and welding position limitations due to welding fixtures and worktable.

Laser welding is suitable for welding stainless steel sheets with a thickness between 0.1mm and 3.0mm.

3）Cold Welding:

Cold welding uses a low-temperature arc as a heat source to locally heat and melt the weld area.

• Advantages: Low welding temperature, small HAZ, silver-white welds without the need for grinding, minimal deformation, low argon consumption, low cost, simple operation, and no need for professional welders.

• Disadvantages: Shallow weld depth, low weld strength, and not suitable for structures bearing high loads.

Cold welding is suitable for welding stainless steel sheets with a thickness between 0.12mm and 2.0mm.

III. Welding Considerations for Stainless Steel Sheets

1）Choosing the Right Welding Method and Process Parameters:

Select the optimal welding method and process parameters based on the thickness, material, structure, and application of the stainless steel sheets. Generally, welding current, arc voltage, and welding speed should be minimized to reduce heat input and prevent burn-through and deformation.

2）Strictly Controlling the Assembly Size and Gap of the Weld Joint:

Ensure accurate assembly size and minimize the gap to no more than 0.5mm to prevent burn-through and weld bead formation. If the gap is too large, use filler wire or shims for compensation.

3）Using Proper Welding Sequence and Symmetrical Welding:

For symmetrical welds, use symmetrical welding from the center outwards to balance welding stress and deformation. For asymmetrical welds, weld the side with fewer welds first, then the side with more welds, so the latter's deformation compensates for the former, reducing overall deformation.

4）Employing Effective Protection Measures:

Thoroughly clean the welding joint surface of grease, rust, oxide film, and other impurities before welding. Use high-purity argon gas as the shielding gas during welding to prevent harmful gases from reacting with the weld pool. After welding, promptly remove surface oxides and slag to prevent corrosion and cracking of the weld.

IV. Advantages and Disadvantages of Welding Stainless Steel Sheets

• Advantages: Welding stainless steel sheets can achieve connection and shaping, improving the utilization and added value of the material, expanding its application range, and meeting various industrial and civil needs. It also enhances the strength and durability of stainless steel sheets, increasing safety, reliability, and lifespan.
  
  

• Disadvantages: Welding stainless steel sheets consumes significant energy and materials, increasing production costs and environmental burden. It requires specialized equipment and technology, raising production difficulty and risk. Additionally, welding can affect the appearance and surface quality, reducing decorative appeal and market competitiveness.

V. Conclusion

Welding stainless steel sheets is a highly technical process that requires understanding the characteristics of the material and the advantages and disadvantages of various welding methods. By selecting the appropriate welding method and process parameters, using effective protection measures, and controlling weld quality and results, efficient and high-quality welding of stainless steel sheets can be achieved. This article has introduced the welding characteristics, common methods, considerations, and advantages and disadvantages of welding stainless steel sheets, providing helpful guidance for learning and practicing stainless steel thin plate welding. For more welding techniques, visit the Megmeet Welding Technology News Center.

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