Influence of Particle Size Distribution, Energy Condition and Reactivity of the Deposited Material on Nanopatterning of Surface Layers Made of Shape Memory Materials

摘要

The article contains a block diagram of the mechanical activation process of multicomponent shape memory materials, taking into account the variety of influencing factors. We proposed to evaluate the reactivity of the deposited material by using the energy criterion (energy intensity), determined by additivity concept as an amount of the basic material energy and energy accumulated during mechanical activation. The energy intensity of the basic material depends on the chemical and phase composition and is determined by the thermodynamic characteristics and is based on diagrams of the systems. The energy accumulated during the MA, is determined on the basis of X-ray structural analysis. We have shown experimentally that increase in fineness of grind leads to growth in the number of active centers. This enables nanopatterning of surface layers in high-velocity oxygen-fuel spraying (HVOF). Increasing the time of MA (1.5 h) promotes a more homogeneous structure during HVOF. The study results allow developing practical recommendations for effective implementation of multi-component SME materials with HVOF.