论述了零半径弯曲、中频感应弯曲、热应力弯曲及激光弯曲成形等管材弯曲加工最新技术的原理、特点和工程应用。
Principle, characteristics and application of technique up -to -date of pipe bending such as zero radius bending, MF induction bending, heat stress bending and Laser forming have been expounded.
感应力是场强的不均匀性所引起,场强的不均匀程度由场强分量的梯度决定。
The induction force is yielded by the non-uniformity of the field intensity which depends on the gradient of field components.
对钢板感应加热成型进行有限元分析,包括钢板截面的温度分析,应力分析,变形分析等。
Simulating the deformation of the steel plate by induction heating in Finite Element Method(FEM), including temperature analysis, stress analysis and deformation analysis.
试验表明,人类可能像其他动物一样拥有能够感知地球磁场的先天感应力,而动物的这一感应力在很久以前就被证实了。
Tests shave shown that mankind may have the same innate sense of Earth's magnetic field that has long been proved to exist in animals.
论述了感应淬火零件的残余应力形态,并对载货车半轴的材料、硬化层深度及法兰圆角淬火层分布提出了个人见解。
This paper demonstrates residual stress of induction quench parts and personal views about stress distribution of flange corner heat treatment, truck half axle material and depth of hardened layer.
并得到了平衡问题的扇形板和扇形环板在两种边界条件下的位移、电势和磁势,应力、电位移和磁感应强度的三维精确解。
The three-dimensional exact solutions of the displacement, electric potential, magnetic potential, stress, electric displacement and magnetic induction of equilibrium problems are also obtained.
感应淬火实现了仿应力强化,提高了扭杆的疲劳极限和使用性能。
The induction quenching realizes imitated stress strengthening, raises fatigue limit and se…
首次把感应淬火所产生的残余应力添加到了曲轴的模型里,计算了淬火前后的疲劳强度与寿命。
For the first time, the paper adds residual stress produced by hardening to the model. Then prequench crankshaft and postquench crankshaft are fatigue analyzed.
利用A NSYS有限元分析软件,进行了6 110钢曲轴的中频感应淬火过程的模拟计算,并预测了淬硬层的深度,计算了淬火后的残余应力分布。
The simulation on medium frequency induction hardening process of crankshaft in 6110 engine is carried out by using FEA software ANSYS with hardening depth predicted and residual stress calculated.
结论:不同周期性应变对细胞微丝结构产生一定的影响,微丝在细胞感应力的响应中起重要作用。
Conclusion: The structure of cytoskeleton were effected by cyclic strain force, it play a important role in influence strain.
不同周期性应变对细胞微丝结构产生一定的影响,微丝在细胞感应力的响应中起重要作用。
The structure of cytoskeleton were effected by cyclic strain force, it play a important role in influence strain.
使用富士压力感应胶片记录接触应力和每个检测条件区域。
Fuji pressure-sensitive film was used to record the contact pressure and area for each testing condition.
使用富士压力感应胶片记录接触应力和每个检测条件区域。
Fuji pressure-sensitive film was used to record the contact pressure and area for each testing condition.
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