Dynamic response of a rotating ball screw subject to a moving regenerative force in grinding

This paper investigates the dynamic response of a rotating ball screw subjected to a moving regenerative force. The rotating ball screw is modeled as a rotating Timoshenko shaft with simply supports. The moving regenerative force describes the nonlinear interactions including the effects of wheel we...

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Published in	Applied mathematical modelling Vol. 34; no. 7; pp. 1721 - 1731
Main Authors	Shiau, T.N., Huang, K.H., Wang, F.C., Chen, K.H., Kuo, C.P.
Format	Journal Article
Language	English
Published	Kidlington Elsevier Inc 01.07.2010 Elsevier
Subjects	Applied sciences Ball screws Dynamic response Exact sciences and technology Fundamental areas of phenomenology (including applications) Grinding wheels Mathematical models Mechanical engineering. Machine design Moving regenerative force Physics Precision engineering, watch making Regenerative Rotating Rotating ball screw Rotational Screw grinding Solid mechanics Structural and continuum mechanics Vibration Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...) Moving regenerative force Screw grinding Rotating ball screw Dynamic response Vibration Timoshenko beam Roughness Machining Ball screw Rotation speed Simple support Fastener Threading Runge Kutta method Grinding Chatter Penetration depth Grinding wheel Moving load Tool wear Cutting tool Delay time Non linear effect Cutting force
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ISSN	0307-904X
DOI	10.1016/j.apm.2009.09.018

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Abstract	This paper investigates the dynamic response of a rotating ball screw subjected to a moving regenerative force. The rotating ball screw is modeled as a rotating Timoshenko shaft with simply supports. The moving regenerative force describes the nonlinear interactions including the effects of wheel wear, time-delay, and the possibility of contact loss between the grinding wheel head and screw. The assumed mode method together with Runge–Kutta method is employed to analyze the system dynamic response. The total grinding depth is suggested to divide into several passes from rough grinding to fine grinding for obtaining fine surface. The effect of parameters such as the depth of cut and the rotational speeds of grinding wheel and screw are discussed for each pass. The numerical results show that the critical depth of cut depends on the rotational speeds of screw and grinding wheel. If the more the depth of cut is smaller than the critical depth of cut, the earlier the chatter occurs and the faster the vibration grows.
AbstractList	This paper investigates the dynamic response of a rotating ball screw subjected to a moving regenerative force. The rotating ball screw is modeled as a rotating Timoshenko shaft with simply supports. The moving regenerative force describes the nonlinear interactions including the effects of wheel wear, time-delay, and the possibility of contact loss between the grinding wheel head and screw. The assumed mode method together with Runge–Kutta method is employed to analyze the system dynamic response. The total grinding depth is suggested to divide into several passes from rough grinding to fine grinding for obtaining fine surface. The effect of parameters such as the depth of cut and the rotational speeds of grinding wheel and screw are discussed for each pass. The numerical results show that the critical depth of cut depends on the rotational speeds of screw and grinding wheel. If the more the depth of cut is smaller than the critical depth of cut, the earlier the chatter occurs and the faster the vibration grows.
Author	Shiau, T.N. Kuo, C.P. Huang, K.H. Wang, F.C. Chen, K.H.
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Keywords	Moving regenerative force Screw grinding Rotating ball screw Dynamic response Vibration Timoshenko beam Roughness Machining Ball screw Rotation speed Simple support Fastener Threading Runge Kutta method Grinding Chatter Penetration depth Grinding wheel Moving load Tool wear Cutting tool Delay time Non linear effect Cutting force
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SubjectTerms	Applied sciences Ball screws Dynamic response Exact sciences and technology Fundamental areas of phenomenology (including applications) Grinding wheels Mathematical models Mechanical engineering. Machine design Moving regenerative force Physics Precision engineering, watch making Regenerative Rotating Rotating ball screw Rotational Screw grinding Solid mechanics Structural and continuum mechanics Vibration Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...)
Title	Dynamic response of a rotating ball screw subject to a moving regenerative force in grinding
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