本文分析了在外加载荷为均匀的、且平行光纤轴向的情况下，埋置于横向各向同性复合材料内的光纤与周围基质材料相互间的力学作用，从理论上证实了光纤附近复合材料内存在较高的应力集中，且应力集中在很大程度上取决于光纤包展的材料与厚度，并且发现对于给定的复合材料，通过对光纤包层直径与材料的适当选择，可使我们希望的区域的应力分布为最小或完全消失。 This paper analyzes the mechanics of the interaction between the optical fiber embedded in the transversely isotropic composite material and the surrounding matrix material under the condition that the load is uniform and parallel to the axial direction of the optical fiber. It is theoretically confirmed that the composite material The memory is subject to high stress concentrations and the stress concentration is strongly dependent on the material and thickness of the fiber optic cladding and it has been found that for a given composite material we can make the choice of fiber cladding diameter and material by appropriate choice The desired stress distribution in the area is either minimal or complete.