在过去几十年中,损伤力学基本概念的发展及其在解决实际工程问题上的应用取得了长足的进展和显著的进展。例如,新概念已被有效地应用于表征蠕变损伤、低周和高周疲劳损伤、蠕变疲劳相互作用、脆性/弹性损伤、延性塑性损伤、应变软化、应变率敏感性损伤、冲击损伤和其他物理现象。调查材料包括但不限于聚合物、陶瓷、金属、复合材料、生物材料、电子包装、土工材料和民用基础设施材料等。《国际损伤力学杂志》提供了一种有效的机制,以加速损伤力学知识的传播,不仅在研究界,而且在研究实验室和工业设计部门之间。该期刊促进并促进了损伤力学概念的发展,弥合了连续非弹性变形领域与经典断裂力学之间的鸿沟,其中宏观裂纹不断增长。国际损伤力学杂志以来自世界各地的顶尖专家的原创同行评审论文为特色,涵盖了实验、理论和计算损伤力学科学和工程的新进展。主题包括但不限于:?不同长度尺度下的损伤机制?损伤成核和演化?蠕变损伤?低周和高周疲劳损伤、蠕变疲劳相互作用?脆性/弹性损伤?韧性/塑性损伤?损伤引起的应变软化?损伤和自愈?应变率敏感性损伤?冲击损伤?建模和数值模拟?纳米、微观和宏观缺陷?损伤变量的多尺度本构关系?损伤引起的微观结构性能关系?概率损伤力学?损伤力学在各个领域的新应用
In the past several decades, there has been considerable progress and significant advances made in the development of fundamental concepts of damage mechanics and their application to solve practical engineering problems. For instance, new concepts have been effectively applied to characterize creep damage, low and high cycle fatigue damage, creep-fatigue interaction, brittle/elastics damage, ductile plastic damage, strain softening, strain-rate-sensitivity damage, impact damage, and other physical phenomena. Materials investigated include, but are not limited to, polymers, ceramics, metals, composites, biomaterials, electronic packaging, geomaterials, and civil infrastructure materials, etc.The International Journal of Damage Mechanics provides an effective mechanism to accelerate dissemination of knowledge on damage mechanics not only within the research community but also between research laboratories and industrial design departments. The journal promotes and contributes to the development of the concept of damage mechanics bridging the gap between the fields of continuum inelastic deformations and classical fracture mechanics with growing macroscopic cracks.Featuring original, peer-reviewed papers by leading specialists from around the world, the International Journal of Damage Mechanics covers new developments in the science and engineering of experimental, theoretical and computational damage mechanics.Topics include, but are not limited to:? damage mechanisms at different length-scales? damage nucleation and evolution? creep damage? low and high cycle fatigue damage , creep-fatigue interaction? brittle/elastic damage? ductile/plastic damage? damage-induced strain softening ? damage and self-healing? strain-rate sensitivity damage? impact damage? modelling and numerical simulation? nano, micro and macro defects? multi-scale constitutive relations with damage variables? microstructure-property relations due to damage? probabilistic damage mechanics? new applications of damage mechanics to various fields
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