Georgantzinos Stelios K
Laboratory for Advanced Materials, Structures, and Digitalization, Department of Aerospace Science and Technology, National and Kapodistrian University of Athens, 34400 Psachna, Greece.
Materials (Basel). 2022 Sep 19;15(18):6494. doi: 10.3390/ma15186494.
Composites can be engineered to exhibit high strength, high stiffness, and high toughness. Composite structures have been used increasingly in various engineering applications. In recent decades, most fundamentals of science have expanded their reach by many orders of magnitude. Currently, one of the primary goals of science and technology seems to be the quest to develop reliable methods for linking the physical phenomena that occur over multiple length scales, particularly from a nano-/micro-scale to a macroscale. The aim of this Special Issue is to assemble high quality papers that advance the field of multiscale simulation of composite structures, through the application of any modern computational and/or analytical methods alone or in conjunction with experimental techniques, for damage assessment or mechanical analysis and prediction.
复合材料可以通过设计使其具有高强度、高刚度和高韧性。复合结构在各种工程应用中得到了越来越广泛的使用。近几十年来,大多数科学基础的研究范围都扩大了许多个数量级。目前,科学技术的主要目标之一似乎是寻求开发可靠的方法,以关联在多个长度尺度上发生的物理现象,特别是从纳米/微观尺度到宏观尺度。本期特刊的目的是汇集高质量的论文,这些论文通过单独应用任何现代计算和/或分析方法,或与实验技术相结合,推进复合结构多尺度模拟领域的研究,以进行损伤评估或力学分析与预测。