@article{oai:ous.repo.nii.ac.jp:00000612,
 author = {金枝, 敏明 and Kaneeda, Toshiaki},
 journal = {岡山理科大学紀要, The Bulletin of the Okayama University of Science,},
 month = {Mar},
 note = {P(論文), Recent developments in machining technology made it possible to bring significant advance of accuracy. In company with the advance in accuracy, it is needed to investigate machining theory from more microscopical point of view. Because microscopical factors have important effect upon machining process. For example in metal cutting those are sharpness of tool edge, inclusion and grain boundary in work material and so on. Machining theory has been investigated from microscopical point of view so far by optical light microscopy, transmission electron microscopy, scanning electron microscopy and so on. But every methods have some demerits. Therefore it is suitable to observe deformation process dynamically by scanning electron microscope (SEM) for this purpose. The original machining experimental equipment inside SEM is developed. The machining experimental equipment has three modes, which are type I, II, and, III. A specimen is driven traversly against a tool in type I, which is experiment for cutting, friction, etc.. In type II, a tool is swung with circular arc motion. This type is experiment for grinding and ultramicrotorming. In type III, a specimen is driven vertically to a tool. This is experiment for identation, shearing, cutting, etc. Finally, a few results obtained by in situ machining experiment are reported.},
 pages = {73--82},
 title = {微視的加工機構解明のための走査電子顕微鏡内加工実験装置の製作},
 volume = {16},
 year = {1981},
 yomi = {カネエダ, トシアキ}
}