A modeling concept of a mechanical system having a piecewise linear spring property for its diagnosis |
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Authors: | Shozo Kawamura Makoto Suzuki Hossain MD Zahid Hirofumi Minamoto |
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Institution: | aDepartment of Mechanical Engineering, Toyohashi University of Technology, 1-1 Tempaku, Toyohashi 441-8580, Japan;bDepartment of Mechanical and Chemical Engineering, Islamic University of Technology Board Bazar, Gazipur 1704, Bangladesh |
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Abstract: | Machine condition monitoring and fault diagnosis of rotating machinery are very important because of the wide use of rotating machinery in industry. Couplings and gears are used in many mechanical systems to connect elements and transmit power. The system is usually modeled as a single-degree-of-freedom system with a piecewise linear spring property, where the mass of main machine is only considered. In the present study, the dynamic behavior of a system with an unsymmetrical nonlinearity and a significant mass of the connecting part was investigated both experimentally and by numerical simulation. In the experiment, a 1/3 sub-harmonic oscillation was observed, but this oscillation was not found in the simulation using a single-degree-of-freedom system, in which the mass of the connecting part was ignored. However, when a two-degrees-of-freedom system was used that considered both the mass of the connecting part and the impact property, the 1/3 sub-harmonic oscillation was observed. Thus it is recognized that an adequate mathematical model for diagnosis in the early stage of abnormality must be selected on the basis of the mass ratio between the connecting part and the main body. |
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Keywords: | Diagnosis Rotating machinery Connecting part Nonlinear restoring property Nonlinear vibration Sub-harmonic oscillation Impact phenomenon |
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