Shock and Vibration HandbookCyril M. Harris |
Contents
BASIC VIBRATION THEORY | 2-2 |
VIBRATION OF A RESILIENTLY SUPPORTED RIGID BODY | 3-1 |
NONLINEAR VIBRATION | 4-4 |
Copyright | |
37 other sections not shown
Common terms and phrases
acceleration accelerometer amplitude analysis applied approximately average axis beam body calibration characteristics coefficient complex components computed connected considered constant corresponding curve damping defined deflection density described determined direction displacement dynamic effect elastic elements energy equal equation equipment example excitation expressed factor filter force function given gives impedance increases indicated input integral isolator limited linear load machine magnitude mass matrix maximum measured mechanical method modal mode motion mounted natural frequency normal obtained occurs operating oscillation output parameters peak period plane position problem produce pulse random range ratio reference relation relative represented resonance respect response result rigid rotation shock shown in Fig shows signal single solution spectra spectrum speed spring stiffness structure supported Table tion transducer transform transmissibility typical usually velocity vibration weight zero