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将物体视为一弹性连续介质,其中任一处在应变状态的体积元以一弹性偶极子模拟之,本文给出了它的等效偶极矩的表示式,并将其划分为与此体积元及其周围基体的固有性质有关的永久偶极矩和决定于介质所处的应变状态的感生偶极矩两部分,它们分别使弹性介质具有顺弹性和介弹性。本文给出了在各向同性的弹性连续介质中弹性偶极子所产生的位移场的表示式,以及在考虑到其他应力源的强度和偶极子矩间存在着相互弛豫作用的情况下,弹性偶极子与其他应力场间相互作用的式子,它是Kroner公式加上高级修正项,将此模型用于讨论熟知的Cottrell气团和两对称中心间的相互作用时,得到与前人一致且更为细致的结果。In our treatment, crystals are considered as elastic continual, so that any strained vol-um element can be simulated by an elastic dipole. The effective moment of the dipole is found and classified into a permanent part and an induced part. The former depends upon the elastic property of the volum element and the surrounding matrix; while the latter defends upon the strain state of the medium. These two parts of the effective, moment make the medium aquires paraelastic and dielastic charateristies respectively.The displacement field produced by elastic dipole in an isotropic, unbounded, elastic continuum is given. Taking relaxation into account, we obtain the expression for interaction between elastic dipole and the strain field produced by other sources. This expression is simply the Kroner's formula with by some higher order terms added to it. In treating the problems of the interaction between the dislocation and a solute atom and that between two symmetrical centers, the results agree in general with the previous studies but with some higher order correction terms included.
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