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Fabrication

Soldering Stainless Steel




Soldering is often used for joining stainless steel in applications such as roofing and water tubing (plumbing). Soldering, like brazing, uses filler alloys with lower melting points than the parent metal (i.e. the stainless steel) being joined. Temperatures are typically below 450 C for soldering stainless steel. The joint strength is generally lower than either brazed or welded joints. While the presence of a tenacious oxide film makes stainless steel more difficult to solder than carbon steel, stainless steel can be successfully joined by soldering, if the correct techniques are employed.

Surface preparation

Thorough cleaning of the steel surface in the joint area is the key to successful soldering. Oil and grease may be removed with solvents, and wire brushing (with stainless steel brushes) or abrading with emery cloth can be used to eliminate other forms of contamination, leaving a bright, metallic surface. A slightly rough finish from the abrasive is acceptable and will improve adherence of the solder. It is preferable to carry out the soldering operation immediately after cleaning. If this is not possible, the parts may be 'tinned' (pre-coated) with solder to protect them.

Fluxes

Aggressive fluxes are required to remove the oxide from the prepared surface. Phosphoric acid-based fluxes are generally suitable and have the advantage of being innocuous if any residues remain after the joining process has been completed. Hydrochloric acid is sometimes added to the phosphoric acid based flux where molybdenum containing stainless steel such as 1.4401/316 are being soldered. Hydrochloric acid based fluxes should however be avoided as corrosion can result to poorly cleaned joints, during service, after soldering.

Although rosin-type fluxes are ineffective, they may be employed when the surfaces have been pre-coated using the appropriate flux. This procedure allows the potentially corrosive flux to be removed completely before the joint is made and is particularly helpful if components contain recessed or blind areas.

Heating

All conventional methods of heating can be used for soldering stainless steel. However, the thermal conductivity of austenitic stainless steel is relatively poor and their coefficient of expansion is high, so that care must be taken to ensure that the whole joint area is brought uniformly to soldering temperature without overheating and distortion is a possibility in long joints. The latter may require jigging.

Solders

Conventional tin-lead solders may be used to solder stainless steel. It is recommended that the tin content should be more than 50% to give good bond strength and minimise the risk of galvanic corrosion to the soldered joint during service. High-tin solders also match the colour of stainless steel well and do not darken significantly in service.

A range of tin-silver solders is recommended for stainless steel, since they offer greater strength than the tin-lead solders, coupled with high ductility. Their corrosion resistance is also superior.

The appropriate solder should be selected for the expected service conditions. Factors to be considered include mechanical loading, potential corrosion, colour match, contact with foodstuffs or water etc.

Post-soldering treatment

Removal of all traces of flux residues immediately after soldering is essential, both to avoid discolouration and to prevent corrosion ensuing in service. Hot water is suitable, possibly with addition of a mild detergent. Flowing water is preferable and a non-metallic fibre brush can be used to speed the process.

Stainless Steel Tubing, Nickel Alloy Tubing, Brass Alloy Tubing, Copper Nickel Pipe Material Grades


Related References:
1. Welding Process and Letter Designations
2. Welding Stainless Steel to other Steel
3. Welding and Post Fabrication Cleaning for Construction and Architectural Application
4. Welded Stainless Steel Pipe
5. Post weld cleaning and finishing of stainless steel
6. Avoid PWHT Post Weld Heat Treatment
7. Fume Associated With Welding Stainless Steel
8. Avoiding Distortion During Welding Stainless Steel
9. Design Strength of Welded Connections
10. Processes for Welding Stainless Steel
11. Brazing Stainless Steel
12. Soldering Stainless Steel
13. Welding Stainless Steel
14. Selection of Welding Consumables Filler
15. Selection of Welding Consumable for Welding Stainless Steel
16. Filler Metals For Welding Stainless Steel
17. Schaeffler and Delong Diagrams for Predicting Ferrite Levels
18. Welding Properties of Stainless Steel
19. 308L 309L 316L 347 Filler Metal Introduction


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321 321H Stainless Steel
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17-4 PH 630 UNS S17400 Stainless Steel
253MA S30815 Stainless Steel Tube
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2507 Super Duplex Pipe
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EN 10216-5
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EN 10216-5 1.4462 1.4362 1.4162 1.4410 1.4501 Seamless Tubes
Nickel Alloy Tubing:

UNS N08020 Alloy 20 Tubing
UNS N02200 Alloy 200 Tube
UNS N02201 Alloy 201 Pipe
UNS N04400 Monel 400 Tubing
N06600 Inconel 600 Tube
N06601 Inconel 601 Tubing
N06625 Inconel 625 Tubes
N08800 Incoloy 800 Tube
N08810 Incoloy 800H Tube
N08811 Incoloy 800HT Tubing
UNS N08825 Incoloy 825 Pipe
ASTM B622 N10276 C276 Tubing
ASTM B622 N06022 Hastelloy C-22 Alloy Tubes
C28000 Brass Seamless Tubes C44300 Brass Seamless Tubes
C68700 Brass Seamless Tubes
C70600 Copper Nickel Tubes
C71500 Copper Nickel Tubes
DIN 2391 Seamless Precision Steel Tubes
EN 10305-1 E215 E235 E355 Seamless Precision Steel Tube Tubing Tubes
DIN 2393 St28 St34.2 St37.2 St44.2 St52.3 Welded Precision Steel Tubes
EN 10305-2 E195 E235 E355 Welded Cold Drawn Precision Steel Tube