Corrosion decomposition and mechanical behaviors of As‐cast Mg– x Zn–Zr alloys

Developing new‐type alloy materials with excellent decomposition properties and mechanical behaviors is a thorny issue for preparing fracturing balls in oil exploitation. As‐cast Mg– x Zn–Zr alloys designed by regulating Zn contents have been fabricated in this study. Compressive strength and immers...

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Published in:Materials and corrosion 2020-09, Vol.71 (9), p.1453-1461
Main Authors: Li, Xuewu, Zhou, Longlong, Shi, Tian, Li, Ben, Yu, Weining, Zhang, Chuanwei, Yan, Pan, Zhang, Qiaoxin, Tian, Haoliang, Lv, Yuan
Format: Article
Language:English
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Summary:Developing new‐type alloy materials with excellent decomposition properties and mechanical behaviors is a thorny issue for preparing fracturing balls in oil exploitation. As‐cast Mg– x Zn–Zr alloys designed by regulating Zn contents have been fabricated in this study. Compressive strength and immersion corrosion test have been investigated to assess their feasibility as decomposition materials. Scanning electron microscopy and X‐ray diffract meter have also been used to characterize surface morphologies and phase structures for determining their decomposition mechanism. Results show that matrix phases and secondary phases with discontinuous reticular features form on the alloys. They also achieve excellent mechanical properties to ensure stability and pressure‐maintaining capacity in the decomposition process in chloride environment. Meanwhile, with Zn content and immersion time increasing, galvanic corrosion effect strengthens leading to accelerated specific mass loss rates of the alloys. Rapid corrosion decomposition of the alloys mainly attributes to anodic dissolution of matrix phases, exfoliation of microparticles, and poor resistance of corrosion products to the decomposition process. This study provides positive insight into the preparation of new‐type Mg alloys for guaranteeing fast decomposition of fracturing balls and also ensuring their compressive strength stability.
ISSN:0947-5117
1521-4176
DOI:10.1002/maco.202011567