第二相粒子が不均一に分散する合金の力学負荷応答に関するモデリングと結晶塑性解析

奥山 彫夢, 田中 將己, 大橋 鉄也, 森川 龍哉

    研究成果: ジャーナルへの寄稿学術誌査読

    抄録

    <p>The relationship between yield stress and the distribution of microscopic plastic deformation was numerically investigated by using a crystal plasticity finite element method (CP-FEM) in the model where particles were randomly distributed. It was in order to reveal which particle spacing. <i>i.e.</i>, the maximum, minimum or average particle spacing, can be taken as the representative length which controls yielding. The critical resolved shear stress for the onset of the slip deformation in any element was defined under the extended equation in the Bailey-Hirsch type model. The model includes the term of the Orowan stress obtained from the local values of the representative length. Each particle spacing was distributed with a standard deviation of approximately 2 to 3 times larger than the average particle spacing. The macroscopic mechanical properties obtained with CP-FEM were in good agreement with those experimentally obtained. The onset of microscopic slip deformation depended on the particle distribution. Plastic deformations started first in the area where the particle size is larger, then the plastic region grows in the areas where the particle spacing is smaller. Slip deformation had occurred in 90% of the matrix phase by the macroscopic yield point. The length factor in the Orowan equation was the average spacing of the particles in the model, which is in good agreement with Foreman and Makin. The CP-FEM indicated that in dispersed hardened alloys, microscopic load transfer occurred between the areas where the large particles spacing and the small one at the yielding.</p>
    寄稿の翻訳タイトルModelling and Crystal Plasticity Analysis for the Mechanical Response of Alloys with Non-uniformly Distributed Secondary Particles
    本文言語日本語
    ページ(範囲)163-172
    ページ数10
    ジャーナルTetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan
    105
    2
    DOI
    出版ステータス出版済み - 2019

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