1) Dissipated Energy Density
能量耗散密度
1.
Safety Prediction About the Smart Pressure Vessel Based on Dissipated Energy Density;
基于能量耗散密度理论的智能材料压力容器的安全评估研究
2) dissipated energy density
耗散能密度
1.
Relation between the stress amplitude and the dissipated energy density in fatigue process and the critical cumulative dissipated energy density for material damage were studied experimentally on A3 steel and LY12CZ hard aluminium alloy respectively.
试验测量了A3钢和铝合金LY12CZ在疲劳过程中的耗散能密度与应力幅的关系和破坏时的临界累积耗散能密度。
3) energy consumption
能量耗散
1.
The thermodynamics theory and the principle of least energy consumption were applied to studying the energy consumption and damage evolution of short-fibre composites under repeated low velocity impact.
运用热力学理论和最小耗能原理,研究了反复低速冲击下短纤维复合材料的能量耗散与损伤演变,给出了冲击循环下材料耗散能表达式,建立了与复合材料割线模量降低率相关的损伤变量表达式和损伤演变方程。
2.
According to the fractal theory,a fractal model for consuming energy on rock fragmentation is provided through energy consumption analysis of rock fragmentation in rotary drilling.
通过旋转钻井中破碎岩石的能耗分析,应用分形岩石力学理论,从钻井过程中钻头破碎岩屑的粒度分布、能量耗散等角度,建立旋转钻井中钻头破碎岩石所需能量的分形描述模型,详细分析影响钻头破碎岩石能耗的因素。
4) energy dissipation
能量耗散
1.
Experimental research about the energy dissipation of a hydrocyclone;
水力旋流器能量耗散特性实验研究
2.
Application of energy dissipation model to optimization of construction order for large underground caverns;
能量耗散模型在大型地下洞群施工顺序优化分析中的应用
3.
Effects of potassium-deficiency on photosynthesis and energy dissipation in different rice cultivars;
缺钾对水稻不同品种光合和能量耗散的影响
5) dissipated energy
耗散能量
1.
The presented theoretical results show that dissipated energy consum.
首先从能量的角度分析了单轴压缩岩石试件轴向及侧向塑性变形的耗散能量及其联系。
2.
Therein,the damping forces are mainly viscous damping,formed by the dissipated energy of integrated oscillation and the local vibration which was brought about by the oscillation of floating platform.
深水悬链锚泊线既为上部浮体运动提供恢复力,同时也提供阻尼力,其中阻尼力主要是由于上部浮体运动牵动悬链锚泊线局部振动和整体运动耗散能量而形成的拖曳粘性阻尼力。
6) power-wasting density
耗能密度
1.
Nonetheless,there are many restricting factors including pressure,gas velocity,ionization electric field intensity,input power,power-wasting density and so on,and few published literatures had reported it.
大气压非平衡等离子体的输运特性直接制约着工业电收尘和飞行器等离子体隐身的进一步发展,影响该输运特性的因素较多,包括放电区的压力、气体流速、电场强度、注入功率密度及其耗能密度等。
补充资料:能量耗散
分子式:
CAS号:
性质:流体在流运过程中由于摩擦使部分机械功转变为热能引起的损失。能量耗散是一个功转变为热能的不可递过程。湍流中由于产生大量旋涡,能量耗散比层流时大得多。
CAS号:
性质:流体在流运过程中由于摩擦使部分机械功转变为热能引起的损失。能量耗散是一个功转变为热能的不可递过程。湍流中由于产生大量旋涡,能量耗散比层流时大得多。
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参考词条