Title: Towards an understanding of particle-scale flaws and microstructure evolution in cold-spray via accumulation of single particle impacts

Abstract: Cold spray coatings are the sum of countless individual bonding events between single particles impacting on top of one another at high velocities. Thus, the collective behavior of microparticles must be considered to elucidate the origins of coating flaws at the scale of the particles and larger, or the dynamic evolution of the overall coating microstructure. Laser-induced particle impact testing (LIPIT) has been extensively used to study single-particle impacts, and in this work is adapted to study the accumulation of numerous particles with knowledge of each individual particle's impact parameters (particle size, velocity). The method reproducibly deposits stacks of gold particles (>20 particles) with different characteristic spectra of impact velocity. The quantitative single-particle data are analyzed in a correlative manner to the structure and flaws in the resulting stacks, providing some first semi-quantitative connections between, e.g., strain and recrystallization, or aberrant particle characteristics and defects. The results highlight opportunities for the study of many-particle phenomena in microparticle impact--from interaction of particles in cold spray to multi-step erosion processes--with a quantitative view of the behavior of single particles.