The applications of developments in uncertainty quantification for materials science and engineering are diverse and plentiful. There are opportunities in each stage of a materials' lifetime from discovery to manufacturing and processing to sustainment. These problem spaces span each material length scale and the connections between them. Each material class and application have unique challenges that require new developments and applications of uncertainty quantification techniques. A summary of a few exciting problem spaces will be given to demonstrate the breadth of pertinent uncertainty quantification problems to materials and manufacturing.

This work was funded by AFOSR 14RX05COR, FA8650-14-D- 5224-0003.

Researchers should cite this work as follows:

• Amanda Criner (2016), "Pertinent and Exciting Uncertainty Quantification Problem Spaces in Materials and Manufacturing," https://nanohub.org/resources/23416.

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1. materials science
2. uncertainty quantification (UQ)