Fabrication of imitative cracks by 3D printing for electromagnetic nondestructive testing and evaluations

Noritaka Yusa, Weixi Chen, Jing Wang, Hidetoshi Hashizume
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引用次数: 10

Abstract

This study demonstrates that 3D printing technology offers a simple, easy, and cost-effective method to fabricate artificial flaws simulating real cracks from the viewpoint of eddy current testing. The method does not attempt to produce a flaw whose morphology mirrors that of a real crack but instead produces a relatively simple artificial flaw. The parameters of this flaw that have dominant effects on eddy current signals can be quantitatively controlled. Three artificial flaws in type 316L austenitic stainless steel plates were fabricated using a powderbed-based laser metal additive manufacturing machine. The three artificial flaws were designed to have the same length, depth, and opening but different branching and electrical contacts between flaw surfaces. The flaws were measured by eddy current testing using an absolute type pancake probe. The signals due to the three flaws clearly differed from each other although the flaws had the same length and depth. These results were supported by subsequent destructive tests and finite element analyses.

用于电磁无损检测与评价的3D打印模拟裂纹的制备
本研究表明,从涡流检测的角度来看,3D打印技术提供了一种简单、容易、经济的方法来制造模拟真实裂纹的人工缺陷。该方法并不试图制造出形貌与真实裂纹相似的缺陷,而是制造出相对简单的人工缺陷。该缺陷对涡流信号有主导影响的参数可以定量控制。利用粉末床激光金属增材制造机,在316L型奥氏体不锈钢板上制造了3个人工缺陷。这三个人工缺陷被设计成具有相同的长度、深度和开口,但缺陷表面之间的分支和电接触不同。采用绝对型烧饼探针涡流检测缺陷。虽然缺陷的长度和深度相同,但三种缺陷产生的信号明显不同。这些结果得到了随后的破坏性试验和有限元分析的支持。
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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