1) Impact Loading
动载损伤
1.
Some Advances about Research on Rock Damage by Impact Loading;
岩石动载损伤破坏的研究进展
2) overload damage
过载损伤
1.
Castability, overload damage and recrystallization are discussed and their effects on stress rupture behavior and high temperature low cycle fatigue fracture are analyzed.
讨论了定向凝固高温合金的过载损伤及其再结晶 ,较系统地分析了对材料持久性能、高温低循环疲劳断裂的影响。
3) Load Damage
加载损伤
1.
Simo′s energy index,the energy index of loess load damage is presented.
Simo提出能量指标概念,提出黄土的加载损伤的能量指标,并通过黄土加载过程中的结构破坏过程、力学和强度指标的劣化分析,提出黄土的加载损伤演化方程。
4) calcium overloadinjury
钙超载损伤
5) dynamic damage
动态损伤
1.
Micro-scale numerical simulation on dynamic damage for metal materials;
金属材料动态损伤的微观数值模拟
2.
Development of experimental apparatus of simulation for rocks dynamic damage;
岩石动态损伤模拟实验装置的研制
3.
Micromechanism of the dynamic damage and spallation of HR2 steel;
HR2钢动态损伤与层裂的微观机理
6) Fretting damage
微动损伤
1.
Fretting damage exists on tightly mating parts at large,which is one of the disaster reason making components and parts fail.
微动损伤普遍存在于紧密配合部件中,是造成零部件失效的主要祸患之一。
2.
Some measures to the protection for fretting damage of magnesium alloy were discussed.
镁合金在汽车工业中得到了日益广泛的应用 ,在使用中会遇到大量的微动损伤问题。
3.
The essential means for alleviating fretting damages in industrial fields have been summarized in this paper, and it is pointed out that the surface engineering technologies have played an important role in palliating fretting damages.
总结了工业中抗微动损伤的基本途径 ,指出了表面工程技术减缓微动损伤的重要作用 ,并从表面机械强化、扩散处理、表面化学处理、电沉积、热喷涂、气相沉积、高能密度处理和固体润滑涂层等表面工程分支综述了目前的研究现状。
补充资料:动眼神经损伤
动眼神经损伤
injury of oculomotor nerve
外伤伤及动眼神经。常因颅底骨折,特别是眶尖及眶顶骨折引起。可与其他眼球运动神经及其他颅神经同时受累或仅单一神经损伤。表现为伤后立即出现受伤侧瞳孔扩大,直接与间接光反射迟钝或消失,上睑下垂,应注意与小脑幕切迹疝引起的进行性瞳孔扩大相鉴别。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条