期刊
出版社
AMER INST PHYSICS
DOI: 10.1063/1.5112634
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资金
- Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) [276397488 - SFB 1232]
High throughput experimentation is recognized as a new scientific approach to generate knowledge and to identify new material compositions. Rapid material development involves not only fast processing of new material compositions, but also fast material characterization. These experimental methods do not aim to understand the mechanisms of new material compositions. Instead, these methods offer descriptor values, which can be connected to material properties by means of mathematical models. In this paper, a material test method is presented, which comprises a method for making hardness indentations by TEA CO2 laser-induced shock waves and an evaluation using neural networks. With the high intensity pulsed laser, a shock wave is induced on top of an indenter. The pressure of the shock wave pushes the indenter inside a test material. Indentations are created on different steel and aluminum alloys and descriptors are extracted to characterize the indentation. Following, Neural Networks are used to create the connections to the material properties. The best results are obtained when all the descriptors are included in the model, which shows that the measured indentation diameter and depth contain relevant information.
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