1) virtual spring approach
虚拟弹簧法
1.
According to this structure,establishes the dynamic equations of its upper arm using the virtual spring approach and lagrange formulation.
喷浆机器人的大臂是一闭链机械机构,根据其结构特点,用虚拟弹簧法结合拉格朗日公式,建立了喷浆机器人大臂的动力学方程。
2) virtual volumetric spring
虚拟体弹簧
1.
The concept of virtual volumetric spring was introduced for simulating volumetric information of the soft tissue first.
虚拟体弹簧动态地产生一种约束力表现软体的体特征,准静态方法求解模型使仿真效果更好;用修改的蝶形细分方法把比较粗糙的表面网格模型先细分成若干细节层次,仿真时依质点所受力的大小动态细分,以提高模型仿真的精确度。
3) assumed-spring method
虚加弹簧法
1.
The assumed-spring method is developed to solve the negative stiffness problem of softening structures under dead and live proportional loads.
针对恒载和比例变载共同作用下软化结构按位移法求解的负刚度问题,提出了一种虚加弹簧法。
4) virtual rigid spring method
虚加刚性弹簧法
1.
In consideration of the above fact,a constitutive model for the over lean cemented material with the softening characteristics was developed by use of the virtual rigid spring method,and the parameters for the model were determined.
针对胶凝材料含量大于30 kg/m3的超贫胶结材料应力应变曲线达到峰值后呈软化形态的问题,采用虚加刚性弹簧法,建立具有软化特性的超贫胶结材料的本构模型,确定了模型相应的参数,给出了该模型的一个应用实例,为超贫胶结材料的非线性分析奠定了基础。
5) multi-assumed-spring method
多维虚加弹簧法
1.
The multi-assumed-spring method is developed to solve the negative stiffness problem of softening structures.
针对软化结构的负刚度问题,提出了一种多维虚加弹簧法。
6) virtual spring
虚弹簧
1.
To model the state of low-energy configuration of linear biomacromolecular by simplification, this article presents the “ball-virtual spring” structure model to simulate the transverse flexing vibration and torsional vibration, and probes into the mechanics affecting the flexibility of linear macromolecular in theory.
为了通过简化方法来模拟线形生物受体大分子低能构象时存在的形态(瞬时位置,速度,加速度),本文提出了“球-虚弹簧”结构模型来模拟分子的横向伸缩振动和轴向扭转振动,并从理论上探讨了影响线形分子柔性的力学问题。
2.
To model the state of low-energy configuration of linear biomacromolecular by simplification,this paper presented a ball-virtual spring model to build the transverse vibration model and axial torsional vibration model,respectively,and come to the next step to probe into the mechanics affecting the flexibility of linear molecular.
为了通过简化方法来模拟线形大分子低能构像时存在的形态,提出了球-虚弹簧模型,并分别建立了线形大分子的横向伸缩振动和轴向扭转振动模型,探讨了影响线形分子柔性的力学问题。
3.
To model the state (instantaneous position, velocity and acceleration) of low-energy configuration of linear biomacromolecular by simplification, this article presents the "ball-virtual spring" structure model to simulate the transverse flexing vibration and torsional vibration, and probes into the mechanics affecting the flexibility of linear molecular in the theory.
为了通过简化方法来模拟线形生物受体大分子低能构象时存在的形态(瞬时位置,速度,加速度),本文提出了“球-虚弹簧”结构模型来模拟分子的横向伸缩振动和轴向扭转振动,并从理论上探讨了影响线形分子柔性的力学问题。
补充资料:法性属法为法性土
【法性属法为法性土】
谓真如法性之理,譬如虚空,遍一切处,乃是法身所证之体,即为所依之土,故名法性属法,为法性土。
谓真如法性之理,譬如虚空,遍一切处,乃是法身所证之体,即为所依之土,故名法性属法,为法性土。
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