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This paper considers a new type of 5-axis machine tool which is used to cut superalloy blades specially.
Referring to this new structure system, this study presents modal simulation in detail to calculate the structure
vibration resistance. The modal simulation include building suitable finite element models, considering
boundary constraints and interpreting results. The physical impact test of prototype is conducted to validate the
simulation results. The modal simulation also reveals that some important partial characteristics that affects the
structure performance are ignored in the physical test data. The validated model can be used to complement the
experimental test.
H. P. Zhao,X. Q. Tang,X. Chen, andL. P. Wang
"Simulation and experimental research on modal analysis for a
new 5-axis superalloy blade machine tool", Proc. SPIE 7997, Fourth International Seminar on Modern Cutting and Measurement Engineering, 799712 (24 May 2011); https://doi.org/10.1117/12.888619
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H. P. Zhao, X. Q. Tang, X. Chen, L. P. Wang, "Simulation and experimental research on modal analysis for a new 5-axis superalloy blade machine tool," Proc. SPIE 7997, Fourth International Seminar on Modern Cutting and Measurement Engineering, 799712 (24 May 2011); https://doi.org/10.1117/12.888619