Brazing of Thin-Walled Stainless Steel Using Environmentally Friendly Ni-Cr-P Electrodeposition: Degradation Mechanism of Brazed Joint and Corresponding Improvement Strategy
Shubin Liu, Yuqi Luan, Ikuo Shohji

TL;DR
A new eco-friendly method for brazing thin stainless steel uses Ni-Cr-P electrodeposition, improving joint strength and understanding impurity effects.
Contribution
The study reveals impurity incorporation mechanisms and proposes a step-wise brazing strategy to enhance joint quality.
Findings
Oxygen in Ni-Cr-P interlayers comes from Cr(III)–hydroxy complexes formed near the cathode.
Glycine decomposes on the anode, producing carbonyl compounds incorporated into interlayers.
Step-wise brazing with hydrogen reduces impurities, achieving a joint shear strength of 63.0 MPa.
Abstract
A new brazing process for thin-walled stainless steel was proposed by combining green and efficient Ni-Cr-P electrodeposition with brazing technology. Novel information was attained by analyzing the electrodeposited Ni-Cr-P interlayers and the brazed joints and characterizing them using a combination of advanced techniques. The incorporation mechanisms of impurities (i.e., oxygen and carbon) in the Ni-Cr-P interlayers electrodeposited from a Cr(III)–glycine solution were revealed. The oxygen mainly came from the Cr(III)–hydroxy complexes formed by the hydrolysis and olation between Cr(III) complexes and OH− ions near the cathode. Glycine did not directly participate in the cathode reactions but decomposed on the anode surface. These byproducts (carbonyl compounds) were directly incorporated into the interlayers in a molecular pattern, forming a weak link to the metallic chromium.…
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Taxonomy
TopicsHydrogen embrittlement and corrosion behaviors in metals · Electrodeposition and Electroless Coatings · Corrosion Behavior and Inhibition
