Abstract

A current area of intense research involves the development and use of integrated computational materials engineering (ICME) approaches, which promise to develop next-generation material systems with significant cost and time savings. At its core, ICME synergistically combines material-centric models related to materials development, processing, manufacturing, and property/performance assessment, where key material property information is shared between the various models to enhance process and product outcomes. The integration of computational NDE models within the ICME framework represents an additional opportunity to advance material science and engineering processes through the development of advanced material state awareness (MSA) sensing methods. In particular, nondestructive sensing methods are needed for ICME model and process validation at all stages of the material development process. Several examples of this are presented, which show model-driven sensing for in-process monitoring, microstructure quality assurance, and damage state sensing in a dynamic loading environment. The results illustrate opportunities, challenges, and key linking opportunities for NDE and MSA within the ICME framework.

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