低サイクル繰返し荷重を受けるFRPの応力-ひずみ曲線の粘塑弾性的表示
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概要
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The objective of this study is to investigate the mechanical properties of fiber reinforced plastics subjected to an arbitrary stress. To analyze the mechanical properties of FRP mathematically, the author set up a mechanical model composed of four elements ; i. e. two springs, one dashpot and one slider. Assuming the material as a visco-plasto-elastic body, these elements were combined in order to give a reasonable explanation for the mechanical behavior of FRP. Thus, we can express the property of the material by setting up a differential equation regarding stress, strain and the time. If either stress or strain was determined as the function of the time, the other can be mathematically solved and the relation of the stress and the strain can be defined. Based on the experimental stress-strain diagram of FRP observed at the tensile test of the constant loading velocity, the approximate value of the modulus of the each parameter in the model could be estimated. When the repeated stress was given to the material as the function of the time elapsed, by comparison of the experimental results with the calculated results obtained from the differential equation and by repeating the same operation several times in this way, the accuracy of the estimated moduli could be increased. In this method, the numerical calculation and the automatic graph drawing were operated by the electronic computer. As the results of this investigation to determine the characteristic equation of FRP, the behavior of the material at the stress which is supposed to occur can be estimated beforehand.
- 社団法人日本材料学会の論文
- 1972-10-15
著者
関連論文
- FRP の成形条件と機械的特性の関係 : 強化プラスチックス部門委員会研究報告
- 構造用複合材料の疲労による力学的性質の変化について
- 均一平面曲げ疲労試験における繊維強化プラスチックスの温度上昇について : (強化プラスチックス小特集)
- FRPに関する計装化シャルピ衝撃試験における荷重時間履歴の解析
- FRP積層板の片持曲げ疲労強度に及ぼす高繰返し速度の影響
- 鎖荷重式繊維引張試験機の試作とガラス繊維の強度分布について
- ハイブリッド複合材料の複素弾性係数
- FRPの衝撃破壊に関する研究 : 強化プラスチックス部門委員会研究報告
- 繊維強化複合材料の力学的性質に関する研究
- FRPの継手に関する研究 : 強化プラスチックス部門委員会研究報告
- Composite Materials and their Use in Structures : Materials Science Series, J.R.Vinson and T.W.Chou 著, Applied Science Pub., 1975年刊, サイズ150x230mm, 438頁, 136図, 19表, 14,250円
- 繰返し荷重を受ける FRP の応力-ひずみ曲線の粘塑弾性的表示
- 低サイクル繰返し荷重を受けるFRPの応力-ひずみ曲線の粘塑弾性的表示
- FRPの衝撃に関する研究 : 強化プラスチックス部門委員会研究報告
- (2-4) 炭素繊維強化プラスチックの複素弾性係数について
- 強化プラスチックスの動的粘弾性特性(複素弾性係数について)