A progression of national activities in material science and technology has progressivelyemphasized the significance of computational techniques for materials discovery and for increasing thespeed of materials advancement. The complex nature of materialsimplies that hypothesis and simulation must be produced at several distinctivelengths and time scales, spreading over electronic structure to component in size,and femtoseconds to years in time.
The computational technique covers allmaterial types and applications, which implies that computational materialscience is entwined with allfields of materials.
Computational Materials Scientists will become key players inindustrial R&D effforts; they will shape engineering and scientificresearch focussing on the structure, processing and use of novel high tech materials with superior mechanical,thermodynamic, and electronic properties.
Related: Materials ScienceConferences | MaterialScience Conference | BiomaterialsConferences | NanomaterialsConference | MaterialScience Summit | MaterialsScience Workshop | MaterialsScience Congresses | MaterialsScience Meeting
Related Societies: Center for Theoretical andComputational Materials Science, AbrasiveEngineering Society, Materials Research Society