A strategy for minimization of thermal error in headstock assembly of CNC lathe

A strategy for minimization of thermal error in headstock assembly of CNC lathe

The thermo-elastic behavior of the spindle system in a CNC lathe contributes significantly toward the undesirable displacement at the tool center point (TCP). Minimization of the thermal deformation of spindle has become progressively important for the development of ultra-precision machine tools. T...

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Bibliographic Details
Published in:Machining science and technology Vol. 23; no. 1; pp. 57 - 78
Main Authors: Prabhu Raja, V., Thirumalaimuthukumaran, M., Thyla, P. R., Shyam Kirthi, S.
Format: Journal Article
Language:English
Published: Taylor & Francis 02-01-2019
Subjects:
composite material
finite element analysis
Machine tool
mathematical modeling
thermal error
Online Access:Get full text
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Summary:The thermo-elastic behavior of the spindle system in a CNC lathe contributes significantly toward the undesirable displacement at the tool center point (TCP). Minimization of the thermal deformation of spindle has become progressively important for the development of ultra-precision machine tools. To serve the purpose of predicting the characteristics of the heat flow and the corresponding thermal deformation, a finite element model for the headstock assembly of CNC lathe is developed. Heat generation and heat dissipation in the components of headstock assembly of CNC lathe are estimated for free running as well as machining conditions using empirical models. The thermo-elastic behavior is investigated with the aid of numerical model validated by experimentation. The deformation of bed is found to possess a significant influence toward the spindle displacement in X-axis which results in form error in the machined component. The proposed strategy is validated effectively to have control over the heat flow between headstock and bed with the aid of a carbon/epoxy laminate that results in a near zero displacement along the X-axis of the spindle.
ISSN:1091-0344
1532-2483
DOI:10.1080/10910344.2018.1466328