Evolution of Residual Stresses and Fracture in Thermomechanically Loaded Particle-Reinforced Metal Matrix Composites

Autor:	A. V. Zemlyanov, S. N. Kul’kov, A. S. Kulkov, Ruslan Balokhonov, E. P. Evtushenko, D. D. Gatiyatullina, Varvara Romanova
Rok vydání:	2021
Předmět:	Titanium carbide Materials science Recrystallization (geology) chemistry.chemical_element Surfaces and Interfaces Boron carbide Condensed Matter Physics chemistry.chemical_compound chemistry Mechanics of Materials Residual stress Fracture (geology) Particle General Materials Science Composite material Deformation (engineering) Boron
Zdroj:	Physical Mesomechanics. 24:503-512
ISSN:	1990-5424 1029-9599
DOI:	10.1134/s1029959921050015
Popis:	This work studies the formation and evolution of residual stresses in metal matrix composites with different volume fractions and sizes of reinforcement particles. The investigation was performed on hot-pressed samples of pure aluminum with boron and titanium carbide particles. The samples were subjected to mechanical compression tests to study their fracture behavior. Residual stresses were measured after cooling, as well as at different degrees of deformation of the composites. Some samples were subjected to electron beam processing. The phase composition and size of boron carbide particles in their recast surface layers, which were formed by recrystallization from the liquid phase during irradiation, were examined by X-ray diffraction. The cooling process followed by mechanical loading of the composites was simulated by simultaneously taking into account the fracture of the matrix and particles. The formation of residual stresses in composites with different particle volume fractions was numerically investigated.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::9268fb3a64e8798a73cd7c0d4182b0b0 https://doi.org/10.1134/s1029959921050015 Zobrazit plný text záznamu Full text from SpringerLink