Spindle thermal drift measurement using the laser ball bar

• Published in: Precision engineering Vol. 18; no. 2; pp. 118 - 128
• Main Authors: Srinivasa, N., Ziegert, J.C., Mize, C.D.
• Format: Journal Article
• Language: English
• Published: New York, NY Elsevier Inc 01.04.1996; Elsevier Science
• Subjects: Applied sciences; Exact sciences and technology; Industrial metrology. Testing; laser ball bar; Mechanical engineering. Machine design; spindle thermal drifts, thermal errors; laser ball bar; spindle thermal drifts, thermal errors; Thermal drift; Thermal strain; Machining; Thermomechanical properties; Calibration; Experimental study; Machine tool; Laser; Displacement measurement; Optical method; Measurement method; Machine tool spindle; Monitoring
• ISSN: 0141-6359; 1873-2372
• DOI: 10.1016/0141-6359(95)00053-4

Thermally induced errors are major contributors to the overall accuracy of machine tools. An important component of thermally induced errors is the error associated with spindle thermal drifts. In this paper, a novel method is developed to measure spindle thermal drifts in machine tools using a laser ball bar (LBB) as the calibration instrument. The method is implemented on a two-axis CNC turning center. The LBB is used to measure the coordinates of the spindle center and the direction cosines of the spindle axis at various thermal states. The axial, radial, and tilt thermal drifts of the spindle are then computed from the changes in these coordinates. The new method is verified by comparing the spindle drifts measured with the LBB to those measured by capacitance gauges. The results obtained by the new method show good agreement with the capacitance gauge technique. The primary advantage of the new method is the ability to measure the spatial coordinates of the spindle center and direction cosines of the spindle axis with the same instrument used for measurement of the geometric errors of the machine axes.