Design and development of a novel tunable electrorheological fluid (ERF) damper-foundation to attenuate residual vibrations in machine tools

IF 1.2 Q3 ENGINEERING, MECHANICAL FME Transactions Pub Date : 2023-01-01 DOI:10.5937/fme2301001j

Abhijitkumar A. Jadhav, S. Zope, R. Malagi, D. Suryawanshi

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引用次数: 1

Abstract

Residual vibrations in machine tools hamper accuracy and productivity. The attenuation of residual vibrations has been an industrial concern for decades. Meanwhile, the residual vibrations' vibration pattern reveals that the support foundation's damping capabilities predominantly influence them. Therefore, inserting dampers in any other location on a machine tool (such as a machine column) is ineffective. Hence, the scope of inserting the damper into the machine foundation needs to be verified. However, conventional machine mounting systems (concrete foundation and rubber mounts) equally respond to all variable inputs. Both these flocks resulted in inadequate dampening and perhaps poor accuracy. This paper provides a first-generation model of a semiactive-viscous damper (ERF damper-foundation) with tunable damping facilitating machine installation. Controlled experimentation by exposing the developed damper foundation to excitations of medium duty lathe machine confirms its effectiveness and obtains over 48% attenuation compared to a conventional concrete foundation.

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一种新型可调谐电流变液阻尼器的设计与开发，以衰减机床的残余振动

机床的残余振动影响精度和生产率。几十年来，残余振动的衰减一直是工业关注的问题。同时，残余振动的振动形态也揭示了支承基础的阻尼能力对残余振动的主要影响。因此，在机床上的任何其他位置(如机床立柱)插入阻尼器都是无效的。因此，需要对减振器插入机器基础的范围进行验证。然而，传统的机器安装系统(混凝土基础和橡胶支架)对所有变量输入的响应都是一样的。这两种方法都导致了不充分的阻尼和可能较差的精度。本文提出了便于机器安装的具有可调阻尼的半主动粘性阻尼器(ERF阻尼基础)的第一代模型。将所开发的减振器基础置于中型车床的激励下进行控制试验，证实了其有效性，与传统混凝土基础相比衰减超过48%。

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