Chemistry and physics of fracture

摘要: Abstract : The first four days were devoted to introductory and overview lectures on theory of fracture, solid state chemistry physics solution chemistry, structure properties interfaces. After a one-day break, three workshop sessions summary lecture held. Workshop topics included novel aspects intergranular embrittlement, hydrogen stress corrosion fatigue. Content: Chemistry Physics Fracture: Mechanics Brittle Cracking Crystal Lattices Interfaces; Theory Fracture; Plastic Processes at Crack Tips; Flow Instabilities Distributed Damage in A comparison Void Growth Ductile Failure Plane Axisymmetric States Strain; Solid State Theoretical Approaches Materials Design: Intergranular Embrittlement; Interatomic Forces the Simulation Cracks; Application Embedded Atom Method Hydrogen Solution Chemistry; Surface Aqueous Solutions; Tip Electrochemistry: Electrochemical Thermodynamics Kinetics Their Study Stress Corrosion Cracking; Structure Properties Universal Bonding Metal Grain Boundaries In Situ TEM Studies Deformation Molybdenum; Role Transport Embrittlement.