Quasistatic cracking of materials with high fracture toughness and low yield stress

Abstract

Cracks in large structures of materials of relatively high fracture toughness and low yield stress propagate before disseminated yielding occurs, whereas in geometrically similar small structures of materials with the same mechanical properties disseminated yielding precedes cracking. The size parameter which controls the cracking-yielding transition isER/σ²_y, whereEis the Young modulus,Rfracture toughness and σ_yyield stress. The paper describes a laboratory-size testing rig which enables the large structure fracture mode of materials with largeER/σ²_yto be simulated using small laboratory test pieces in conventional testing machines so that the appropriate fracture toughness can be determined. Some experimental results are quoted for thin warm mild steel and aluminium alloys. The rig also has interesting possibilities in producing stable cracking in dR/dÅnegative materials, whereÅis the time rate of change of crack area.