Fracturing of Gray Iron Door-Closer Cylinder Castings Caused by Lack of Foundry Control Over Chemistry

ASM Failure Analysis Case Histories: Processing Errors and Defects Pub Date : 2019-06-01 DOI:10.31399/asm.fach.process.c0047297

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Abstract

Door-closer cylinder castings manufactured of class 30 gray iron were breaking during machining. The manufacturing source reported that a random sampling of castings from this lot had hardnesses from 180 to 210 HRB. Based on the color of the components, heat treatment of these castings was suspected. Metallurgical examination on two representative castings supported the conclusions that the cracks in these gray iron door closers that were present either before or during the heat treatment were attributed to a substandard microstructure of the wrong type of graphite combined with excessive ferrite. This anomalous structure is caused by shortcomings in the foundry practice of chemical composition, solidification, and inoculation control. Judging from the microstructure, the strength of the material was lower than desired for class 30 gray iron, and the suspected heat treatment further reduced the strength. Recommendations included that the chemistry and inoculation should be controlled to produce type A graphite structure. The chemistry control should aim for a carbon equivalent close to 4.3% to achieve adequate fluidity for thin sections and to alleviate gas defects.

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灰铸铁闭门筒铸件化学控制不足导致的断裂

用30级灰铸铁制造的闭门缸铸件在加工过程中发生了断裂。制造来源报告说，这批铸件的随机抽样硬度在180到210 HRB之间。根据零件的颜色，怀疑这些铸件经过热处理。对两个有代表性的铸件进行的冶金检查支持以下结论:这些灰铸铁闭门器在热处理前或热处理过程中出现的裂纹是由于错误类型的石墨和过量的铁素体的不合格显微组织造成的。这种异常结构是由铸造实践中化学成分、凝固和孕育控制的缺陷造成的。从显微组织来看，材料的强度低于30级灰铸铁的要求，疑似热处理进一步降低了强度。建议包括控制化学和接种，以产生A型石墨结构。化学控制应以接近4.3%的碳当量为目标，以实现薄截面的足够流动性，并减轻气体缺陷。

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ASM Failure Analysis Case Histories: Processing Errors and Defects

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