Recycling Welding Fluxes: A Case Study into Manganese-Silicate System

Huiyu Tian, Yanyun Zhang, Shuai Shi, Guanyi Wang, Cong Wang
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Abstract

Recycling presents a waste-free solution to substantial disposal of welding slags which retain most components originated from the original fluxes. However, uncertainties in weld appearance and element contents render it unjustified to reuse welding slags as fluxes. In the present study, a manganese-silicate flux has been demonstrated to be fully recyclable subject to submerged arc welding (SAW) for three times. The weld appearance is assessed against the initial weld metal (WM), while alloying element contents are evaluated according to AWS (American Welding Society) requirements. Flux composition and structure, two decisive factors affecting welding performance, are quantified. It is manifested that compositional changes mainly occur in the contents of MnO (39.50 to 34.66 wt pct), SiO2 (38.46 to 34.25 wt pct), and FetO (1.55 to 6.78 wt pct). Moreover, crystalline structures of MgMnSiO4, and Mg0.6Mn1.4SiO4 appear in the initially amorphous flux. The crystallinity is enhanced to 32.7 wt pct through flux recycling. Slight depolymerization is found in the amorphous structure, as the NBO/Si (non-bridging oxygens per silicon atom) is elevated by 0.2. Overall, this study demonstrates the capability of recycling welding fluxes and is poised to offer insight into further sustainable applications.

Abstract Image

回收焊接助焊剂:锰硅酸盐系统案例研究
回收利用为大量处理焊渣提供了一种无废物解决方案,因为焊渣中保留了来自原始焊剂的大部分成分。然而,由于焊缝外观和元素含量的不确定性,将焊渣作为焊剂再利用是不合理的。在本研究中,一种锰硅酸盐焊剂经三次埋弧焊(SAW)证明可完全回收利用。根据初始焊接金属(WM)对焊缝外观进行了评估,同时根据 AWS(美国焊接协会)的要求对合金元素含量进行了评估。对焊剂成分和结构这两个影响焊接性能的决定性因素进行了量化。结果表明,成分变化主要发生在 MnO(39.50 至 34.66 wt pct)、SiO2(38.46 至 34.25 wt pct)和 FetO(1.55 至 6.78 wt pct)的含量上。此外,在最初的无定形通量中出现了 MgMnSiO4 和 Mg0.6Mn1.4SiO4 结晶结构。通过流量循环,结晶度提高到 32.7 wt pct。由于 NBO/Si(每个硅原子的非桥氧原子数)增加了 0.2,非晶结构中出现了轻微的解聚现象。总之,这项研究证明了焊剂回收利用的能力,并有望为进一步的可持续应用提供启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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