Thermal behavior of an improved face-grinding spindle: water-lubricated hydrostatic thrust bearing decreases temperature rise and increases axial stiffness

Abstract: Axial thermal deformation and axial stiffness are main technical indicators to affect manufacturing accuracy of face-grinding spindle. However, the face-grinding spindle supported by rolling bearings lubricated with grease has a relative disadvantage in respect of temperature rise, axial stiffness and rotational accuracy. To overcome this issue, this study proposes a novel face-grinding spindle supported by a combined bearings, which include a water-lubricated hydrostatic thrust bearing and two rolling bearing… Show more

“…Up to now, domestic and international scholars have conducted a large number of studies on the thermal analysis of spindle [7][8][9]. In theoretical study, the common methods for thermal modeling of spindle mainly include the thermal network method [10][11][12], the bond graph method [13,14], the finite difference method [15], the finite element method [16][17][18][19] and the finite volume element method [20]. Those methods are utilized to predict the temperature field and the thermal deformation field of the spindle.…”

Study on thermal behavior of an improved motorized spindle with water-lubricated hydrodynamic spiral groove bearings

“…Up to now, domestic and international scholars have conducted a large number of studies on the thermal analysis of spindle [7][8][9]. In theoretical study, the common methods for thermal modeling of spindle mainly include the thermal network method [10][11][12], the bond graph method [13,14], the finite difference method [15], the finite element method [16][17][18][19] and the finite volume element method [20]. Those methods are utilized to predict the temperature field and the thermal deformation field of the spindle.…”

Study on thermal behavior of an improved motorized spindle with water-lubricated hydrodynamic spiral groove bearings

Study on thermal behavior of an improved motorized spindle with water-lubricated hydrodynamic spiral groove bearings

Investigation on the thermal characteristics of double-driven hydrostatic lead screw micro-feed system