電磁クラッチを用いた高速回転軸の危険速度乗越し法について
全文
(2) The Japan Society of Mechanical Engineers. NII-Electronic Library Service.
(3) The Japan Society of Mechanical Engineers. NII-Electronic Library Service.
(4) The Japan Society of Mechanical Engineers. NII-Electronic Library Service.
(5) The Japan Society of Mechanical Engineers. NII-Electronic Library Service.
(6)
関連したドキュメント
et al., Evaluation of Robotic Open Loop Mechanisms using Dynamic Characteristic Charts (in Japanese), Transactions of the Japan Society of Mechanical Engineers, Series C,
[r]
線径 素線の直径を示します。 直径が細いほど、温度反応速度が速いものとなります。 直径が細いほど使用中に切断し易く なります。.
With optimizing FSE imaging parameters, i.e., effective TE, TR, and low ETL, the measurement values of T 1 and T 2 revealed significantly higher correlation between the dual FSE
This study proposes a method of generating the optimized trajectory, which determines change of the displacement of a robot with respect to time, to reduce electrical energy or
et al., Determination of Dynamic Constitutive Equation with Temperature and Strain-rate Dependence for a Carbon Steel, Transactions of the Japan Society of Mechanical Engineers,
現時点で最新の USB 3.0/USB 3.1 Gen 1 仕様では、Super-Speed、Hi-Speed、および Full-Speed の 3 つの速度モードが定義されてい ます。新しい SuperSpeed
三 危険物(建築基準法施行令(昭和25年政令第338号)第116条第1項の表の危険物