The Behaviour of an Infinite Circular Bar subjected to Impulsive Bending Load
スポンサーリンク
概要
- 論文の詳細を見る
Stresses, shearing force and displacement of the center line of an infinite circular bar are analyzed in the case that an impulsive load is applied normally to its surface. The analysis is based on the fundamental equations of three-dimensional elasticity. Laplace transform and Fourier transform techniques are used in the analysis. The inverse transforms are carried out with the help of stationary phase method. The results obtained by the analysis are compared with approximate theories (elementary theory, Rayleigh's theory and Timoshenko's theory). the applicabilities of the approximate theories are discussed.
- 一般社団法人日本機械学会の論文
著者
-
TANAKA Kichinosuke
Faculty of Engineering, Kyoto University
-
Tanaka Kichinosuke
Faculty Of Engineering Kyoto University
-
Tanaka Kichinosuke
Faculty Of Engiineering Kyoto University
-
MOTOYAMA Chikashi
Ship Initial Designing Dept., Kawasaki Heavy Industries
-
Motoyama Chikashi
Ship Initial Designing Dept. Kawasaki Heavy Industries
関連論文
- Harmonic Viscoelastic Waves Propagating Normal to the Layer of Laminated Media
- Harmonic Viscoelastic Waves Propagating Parallel to the Layers of Laminated Media
- Harmonic Waves in a Linear Viscoelastic Plate
- Propagation of Plastic Wave in Lead Bar
- Stress Wave Propagation in a Bar of Variable Cross-Section
- Viscous Property of Steel and Its Effect on Strain Wave Front
- Thermoelastic Effect Caused by Longitudinal Collision of Two Bars
- Effect of Stress Reduction of Secondary Creep of Mild Steel
- Strength of Mild Steel at High Strain Rate
- Impact Bending Test on Steel at Low Temperatures Using a Split Hopkinson Bar
- Temperature and Strain Rate Effects upon the Strength of Zinc Single Crystals
- The Behaviour of an Infinite Circular Bar subjected to Impulsive Bending Load
- Creep of Mild Steel under Periodic Stresses of Rectangular Wave : (III) Prediction of the Creep Deformation under Periodic Stresses
- Creep of Mild Steel under Periodic Stresses of Rectangular Wave : (II) Creep Deformation under Unsymmetrical Periodic Stress Waves
- Creep of Mild Steel under Periodic Stresses of Rectangular Wave
- Compressive Strength of Mild Steel at High Strain Rate and at High Temperature
- Thermal Recovery and Stress-Strain Relation of Polycrystalline Zinc
- The Propagation of Longitudinal Wave in a Visco-Elastic Circular Bar with Consideration of the Lateral Inertia
- The Effects of Temperature and Strain Rate on the Strength of Polycrystalline Zinc