高静水圧下における金属の変形能増加について(<小特集>高圧加工小特集)
スポンサーリンク
概要
- 論文の詳細を見る
Hereunder is presented a report of an experimental study in which tests were made, under hydrostatic pressure up to 3 000 kg/cm^2, of three polycrystalline metals, mild steel, 70-30 brass and pure industrial aluminium, with respect both to their tension and torsion, with a view to finding the characteristics in their increase in ductility due to the pressure superimposed on them. Besides these tests a tension test of aluminium crystals of high purity was also carried out under various pressures. The main results of the study are summarized as follows. (1) The increase in ductility due to the superimposed pressure is meant, concerning the tensile deformation, by the increase not in uniform elongation but local elongation or in fracture strain, and, concerning the torsional deformation, by the increase in uniform shear strain, leading to the failure along the axis of the specimen. (2) When two specimens of one metal were subjected to incipient strain under certain pressure, to be more precise, when one of the specimens was subjected to as large strain 'as the other, but while the one was processed under atmospheric pressure, the other was processed under high hydrostatic pressure, and when the strain has since been kept on both the specimens under as high pressure as at the beginning until the failure has begun to occur, the larger residual strain has been being presented up to the failure in that specimen which was subjected to the incipient strain under high hydrostatic pressure, than in the other that was processed under atmospheric pressure. These different effects from each other given on the specimens can be considered as suggestive of their origin intrinsically impressed in the structure of these specimens which were differently affected incipiently from each other, i. e. one under atmospheric pressure and the other under hydrostatic pressure. It is noteworthy, on the other hand, however, that there is no such intrinsic difference effected on the specimens in evidence as has been suggested above in the microscopic examination which was conducted for comparative studies of dislocation cell structure of mild steel and of slip line patterns in single crystalline high purity aluminium. These metals were stretched or twisted, each under the respective kind of pressure either atmospheric or hydrostatic. Neither of the specimens presented any difference in the result of its treatment. (3) In mild steel its fracture strain increases to the failure due to tension under high hydrostatic pressure. In pure industrial aluminium its shear strain increases to the failure due to torsion under high hydrostatic pressure. It is noteworthy in this connection that the lower the speed of deformation in these metals drops, the higher the rate of increase in the strain in them rises, though it is not known yet how the phenomena are to be accounted for.
- 1971-08-15
著者
関連論文
- 高静水圧下における金属の変形能増加について(高圧加工小特集)
- 二軸メカニカルラチェット変形挙動におよぼす最大応力と応力変動の影響
- メカニカルラチェット変形における二軸方向ひずみ累積挙動
- 爆薬による衝撃圧力をうけた軟鋼の力学的挙動
- 216 SUS304鋼の室温における粘塑性変形(力学的解析)
- 軟鋼板の引張りにおける不均一降伏挙動のFEM解析
- 2層金属クラッド板の引張曲げにおける板厚変化
- モリブデンの延性一脆性遷移におよぼす衝撃圧力の影響
- 焼結クロムの延性-脆性遷移に及ぼす衝撃圧力の影響
- 軟鋼の力学的性質の衝撃圧力による変化に及ぼす結晶粒径の影響
- 鋼の力学的性質の衝撃圧力による変化に及ぼす炭素含有量の影響
- 炭素鋼の変動組合せ応力下のメカニカルラチェット変形挙動 : 第2報, 繰返しひずみ幅と重畳応力が同時に変動する場合
- 炭素鋼の変動組合せ応力下のメカニカルラチェット変形挙動 : 第1報, 繰返しひずみ幅が変動する場合
- 焼結とHIPによる鉄銅緻密積層材料の延性と靭性