In order to enhance structural robustness of microfactory machine elements the foam-composite sandwich structure was introduced. Unidirectional carbon/epoxy prepreg as skin materials and PVC foams as core materials were used to construct the sandwich structures. The existing aluminum column and the column block were replaced by foam-composite sandwich structures with appropriate rib geometries and configurations. The stacking sequences and rib configurations were determined by finite element analyses. The damping capacity was also investigated by vibration tests preparing beam type composite and foam-composite sandwich specimens with various stacking sequences and thickness ratios. The prototype of the column and the column block were fabricated using proper moulds and processes and finally, the system performances such as dynamic robustness and damping capacity were verified by comparison with the existing aluminum system.
[1]
Seung-Hwan Chang,et al.
Parametric study on design of composite–foam–resin concrete sandwich structures for precision machine tool structures
,
2006
.
[2]
H. Saunders,et al.
Mechanical vibrations for engineers
,
1983
.
[3]
Dai Gil Lee,et al.
Damping improvement of machine tool columns with polymer matrix fiber composite material
,
1998
.
[4]
Jin Kyung Choi,et al.
Steel-composite hybrid headstock for high-precision grinding machines
,
2001
.
[5]
Seung-Hwan Chang,et al.
Design of inspecting machine for next generation LCD glass panel with high modulus carbon/epoxy composites
,
2004
.