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ねじり予ひずみ材の破断延性低下について
Loss of Tensile Fracture Ductility of Pretorsioned Specimen
糸数, 真哉
真壁, 朝敏
Itokazu, Masaya
Makabe, Chobin
Ductile Fracture
Pretorsion
Transition of Ductility
Surface Cracks
Brittleness
The degree of diminution of fracture ductility varies with prestrain level. This behavior is investigated in the present study by using carbon steel and 70/30 brass. Transition of the fracture ductility appears at about a pretorsional strain of unity in the case of carbon steel. On the other hand, in the case of 70/30 brass, fracture ductility decreases smoothly and this transition behavior is not observed. However, the main cause of the loss of fracture ductility of the two materials is that the surface layer of the material becomes brittle due to the shear strain, and tensile fracture starts from surface cracks initiated by tensile deformation. The difference in diminution behavior of ductility between the two materials is thought to be due to differences in crystal structure and thus in the brittleness of the surface layer. The ductility of this surface layer is greatly reduced after the transition in the case of carbon steel.
論文
http://purl.org/coar/resource_type/c_6501
日本機械学会
1995-05-25
VoR
http://hdl.handle.net/20.500.12000/137
03875008
AN0018742X
日本機械学会論文集. A編
Transactions of the Japan Society of Mechanical Engineers. A
585
61
64
59
jpn
open access
Copyright (c) 1995 日本機械学会