## Force Modeling(力建模)研究综述

Force Modeling 力建模 - Force control is achieved through force modeling.^{[1]}We believe that workforce modeling to inform policy is important, but it is difficult to assess the validity of the models and the impact of the subsequent work to address workforce needs identified by these models.

^{[2]}In this paper, a novel approach is proposed to investigate the force modeling for hot-rolled wire rod in laying pipe.

^{[3]}To achieve this, however, force modeling to understand the forces that will be required to move the tip inside viscoelastic material should be known and understood.

^{[4]}In addition, shape and force modeling are also provided to predict the corresponding outputs upon different pressures.

^{[5]}In future, this approach may become challenged by further refinements in force modeling (e.

^{[6]}We compared the electromagnetic-thermo-force modeling with the experiments and the previous model without considering the thermal effect.

^{[7]}Graphical abstractForce modeling for needle insertion in transverse isotropic soft tissue.

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力控制是通过力建模来实现的。

^{[1]}我们认为，为政策提供信息的劳动力建模很重要，但很难评估模型的有效性以及后续工作对解决这些模型确定的劳动力需求的影响。

^{[2]}在本文中，提出了一种新方法来研究热轧盘条在铺设管道中的受力建模。

^{[3]}然而，为了实现这一点，应该知道并理解力建模来理解将尖端移动到粘弹性材料内所需的力。

^{[4]}此外，还提供形状和力建模来预测不同压力下的相应输出。

^{[5]}将来，这种方法可能会受到力建模的进一步改进（例如

^{[6]}我们在不考虑热效应的情况下将电磁热力模型与实验和以前的模型进行了比较。

^{[7]}横向各向同性软组织中针插入的图形抽象力建模。

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## Cutting Force Modeling 切削力建模

The problems of cutting force modeling are also determined.^{[1]}Traditional cutting force modeling via theoretical cutting mechanism hampers accurate prediction for actual machining process due to its highly suppressed modeling flexibility.

^{[2]}This work presents an analytical cutting force modeling for micro-slot grinding.

^{[3]}Experimental results are in good agreement with theoretical predictions, which demonstrates the validity of proposed cutting force modeling.

^{[4]}Niu has presented an innovative cutting force modeling concept by taking account of micro-cutting dynamics.

^{[5]}This paper presents the cutting force modeling and the experimental verification for the model with the accurate measurement of the milling forces through the dynamic compensation of the workpiece-dynamometer assembly dynamics in the milling of the flexible workpieces.

^{[6]}This article introduces the cutting force modeling, which uses a variety of methods to divide the uncut chip cross section into segments that correspond to a straight and curvilinear cutting edge.

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切削力建模的问题也确定了。

^{[1]}通过理论切削机理进行的传统切削力建模由于其高度抑制的建模灵活性而妨碍了对实际加工过程的准确预测。

^{[2]}这项工作提出了一种用于微槽磨削的分析切削力模型。

^{[3]}实验结果与理论预测非常吻合，这证明了所提出的切削力建模的有效性。

^{[4]}Niu 通过考虑微切削动力学提出了一种创新的切削力建模概念。

^{[5]}本文介绍了在柔性工件铣削中通过工件-测功机装配动力学的动态补偿，对铣削力进行精确测量的模型进行切削力建模和实验验证。

^{[6]}本文介绍切削力建模，它使用多种方法将未切削的切屑横截面划分为对应于直线和曲线切削刃的段。

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## force modeling method 力建模方法

Among the model, an accurate dynamic force modeling method is first presented, into which the tool nose radius, the size effect, and the effect of vibrations in chip thickness and width directions are incorporated simultaneously.^{[1]}Then, the axial force modeling method of shock absorber considering the cavitation effect is proposed.

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在该模型中，首次提出了一种精确的动态力建模方法，该方法同时结合了刀尖半径、尺寸效应以及切屑厚度和宽度方向振动的影响。

^{[1]}然后，提出了考虑空化效应的减振器轴向力建模方法。

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