Adhesion of a plastic particle to a substrate upon high-speed collision: A theoretical model

Powder Metallurgy and Metal Ceramics

Volumn 48, Issue 3-4, 2009, Pages 169-181

  Uryukov, B A ^a   Tkachenko, G V ^a  

^a FRANTSEVICH INSTITUTE FOR PROBLEMS OF MATERIALS SCIENCE   (Ukraine)

Author keywords

Hardening modulus; High speed collision; Plastic deformation; Powder spraying; Topochemical reaction

Indexed keywords

ALUMINUM POWDERS; COLD SPRAYING; CONTACT AREAS; CONTACT STRESS; COPPER SUBSTRATES; DYNAMIC INTERACTION; ELASTIC STRAIN ENERGY; EMPIRICAL COEFFICIENTS; HARDENING MODULUS; HIGH SPEED IMPACT; HIGH-SPEED; HIGH-SPEED COLLISION; LINEAR HARDENING; ONE-DIMENSIONAL; PLASTIC MATERIALS; PLASTIC PARTICLE; PROBABILITY OF ADHESION; STRESS DISTRIBUTION; THEORETICAL MODELS; TOPOCHEMICAL REACTION; WORK OF ADHESION;

ACTIVATION ENERGY; ADHESION; ALUMINA; HARDENING; PLASTIC DEFORMATION; POWDERS; SPEED; STRESS CONCENTRATION; SUBSTRATES;

PLASTICS;

EID: 68949214285     PISSN: 10681302     EISSN: 15739066     Source Type: Journal    
DOI: 10.1007/s11106-009-9115-x     Document Type: Article

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