And the distribution of thermal stress is one of the primary factors.
而其热应力分布问题是其中的主要因素。
Considering the distribution of thermal stress in composite, the biggest stress exits at the sharp Angle of particle.
在复合材料中存在的热应力分布中,颗粒尖角处的应力最大。
The interaction between casting and mold has a significant effect on the distribution of thermal stress during solidification.
铸件-铸型之间的相互作用对铸件凝固过程中热应力的分布有很大的影响。
A finite element modeling of SCSP was performed. The distribution of thermal stress of SCSP under temperature cycle was analyzed.
研究了温度循环载荷下叠层芯片封装元件(scsp)的热应力分布情况,建立了SCSP的有限元模型。
The distribution of thermal stress in the pulling straightening roller of slab casting machine is calculated with finite element method.
采用有限单元法计算板坯连铸机拉矫辊热应力分布。
To design this functional composites better, the studies of the magnitude and the distribution of thermal stress in the interface and the components are very important.
为了更好的设计该类复合材料,界面受力以及组元受力的大小与分布规律的研究是非常重要的。
The thermal stress distribution of the stainless steel lined composite steel pipe prepared by centrifugal-SHS process was calculated by the finite element method under thermoelastic assumption.
用有限元方法计算了铝热离心法制备不锈钢内衬复合钢管过程中的残余热应力分布。
The thermal stress distribution of SCSP in packaging process was studied by finite element method.
利用有限元法研究了堆叠芯片封装(SCSP)器件在封装工艺过程中的热应力分布。
The stress distribution of cladding layer can be ameliorate with preheating before cladding and thermal retardation after cladding.
熔覆件整体的熔前预热和熔后保温,可以改善熔覆层的应力分布。
In calculating the thermal stress of the concrete structure constructed on the foundation, the foundation temperature and temperature distribution need to be considered.
在计算建筑在地基上的建筑物的温度应力时,需要考虑地基温度及其分布的影响。
This paper discusses the kinds of thermal load and regularities of temperature distribution in reinforced concrete frame structure, analyzes the cause of thermal deformation and thermal stress.
本文讨论了钢筋混凝土框架结构的温度荷载类型和温度分布规律,分析了钢筋混凝土框架结构温度变形和温度应力产生的原因。
The effect of thermal property on the stress distribution in solar panel in thermal field is studied analytically.
文章利用解析法研究了材料热膨胀系数对温度场中太阳电池板最大应力的影响。
Therefore, research on temperature distribution and thermal stress of micro-electronic package is very important, which has both theoretical and practical significance.
因此,对微电子封装器件的温度分布以及热应力进行研究就显得十分重要,具有重要的理论和实际意义。
The equations of heat conduction and thermoelastic dynamics are solved through integral-transform method. Transient distribution of temperature field and thermal stress field is described.
通过积分变换方法,求解热传导和热弹性力学方程组,由此得到激光辐照引起的温度场和热应力场的瞬态分布。
On the basis of the sheet internal temperature changes in the plate and the thermal stress distribution.
在此基础上分析了板材内外部的温度变化情况及热应力分布情况。
Using the theory of thermal elastic-plastic stress, this paper calculates the residual stress distribution in the heavy welded I-section by finite element method.
本文根据热弹塑性应力理论,用有限元法分析了厚板焊接工形截面柱的残余应力。
The thermal stress distribution can be obtained from the calculated result of temperature field in the packaging.
然后,根据温度场的分布结果计算出模块内部热应力场的分布状态。
The gradient distribution of coatings' composition can effectively reduce thermal stress during fabrication process.
涂层成分的梯度化,可有效地缓和制备过程中的热应力。
As the spray coating line is in the non-linear distribution, the stress of a spray coating material due to thermal expansion and contraction can not deform the filling structure.
由于喷涂线呈非直线分布,喷涂材料热胀冷缩产生的应力不会导致填充结构变形。
Distribution of seepage field and stress field of orebody and tunnel were analyzed by using thermal analysis module of ANSYS to compare seepage field.
渗流场与应力场的分布对矿体和巷道的结构稳定有重要的影响。
In this paper the effect of strength matching of welded joint on welding residual stress distribution in plate welded joints was studied by an thermal elastoplastic finite element method.
采用热弹塑性有限元方法,对平板对接接头中焊缝金属强度组配对焊接残余应力分布的影响进行了研究。结果表明,对于高组配接头,纵向残余应力的峰值接近焊缝金属的屈服极限,出现在焊缝中心。
The thermal problem is dominant, the temperature field is complicated, thus, the non-uniform distribution of temperature field brings stress and distortions of parts produced.
成形过程中温度场是复杂多变的,这样的温度场会引起应力场而使得零件发生变形。
The thermal problem is dominant, the temperature field is complicated, thus, the non-uniform distribution of temperature field brings stress and distortions of parts produced.
成形过程中温度场是复杂多变的,这样的温度场会引起应力场而使得零件发生变形。
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