This symposium aims to discuss interface physics that governs mechanical behavior and coupled phenomena in interfacially-driven multifunctionality in both single and multiphase materials and composites. Talks are solicited that cover synthesis, characterization, and modeling of materials with deliberately designed interfaces and material combinations with particular emphasis on new insights into fundamental mechanisms, analysis of defects, and their implications for multifunctional performance. Abstracts on recent developments in mechanical testing techniques (e.g., in situ straining in TEM, micropillar testing, etc.) and in high-fidelity modeling techniques (e.g., ab initio, finite elements, etc.) are also solicited. Topics of interest include, but are not necessarily limited to:

• Influence of interface structure and chemistry on deformation mechanisms in single and multiphase nanomaterials/nanocomposites
• Mechanical behavior of low dimensional materials (e.g., thin films, nanowires, nanotubes, and nanoparticles) described both experimentally and via modelling
• Physics of phase boundaries in multiphase systems, such as crystalline-amorphous composites, nanolaminates, nanoparticle/matrix composites, and nano-porous materials
• Mechanical behavior of grain boundary engineered nanomaterials (e.g. solute stabilization, grain boundary complexion formation, duplex and gradient nanostructures)
• Micro, meso, and macroscale modeling of deformation processes and coupled phenomena as they relate to interface physics (including multi-scale modelling)
• In situ testing methodologies for investigating mechanical behavior and coupled extremes such as mechanical and irradiation of small volumes of material