A novel approach based on probability theory for material selection

Abstract

AbstractA novel approach for material selection is developed on basis of probability theory. The novel concept of favorable probability is formed to express the favorable degree of a candidate material in the selection. It assumes that all utility indexes of material performance indicators can be attributed to beneficial or unbeneficial type, and each utility index of material performance indicator devotes to one partial favorable probability in the selection; a partial favorable probability is linearly correlative to the corresponding utility index of material performance indicator in positive or negative manners upon its nature of whether beneficial or unbeneficial type; the product of all the partial favorable probabilities forge the overall / global favorable probability of a candidate material. Finally, all the candidate materials can be ranked according to their overall favorable probability comparatively in the material selection. As application examples, the quantitative material selections of cylindrical shaft, stamping of titanium bipolar plates for fuel cell and tribological coatings are given; furthermore, the novel approach is combined with the orthogonal and uniform experiment designs to conduct their optimizations under multi‐object conditions.