Shock and Vibration HandbookA revision of a reference work on shock and vibration. This edition covers shock and vibration fundamentals, instrumentation and measurements, and data analysis and testing. |
Contents
Basic Vibration Theory 2 1 | 2-1 |
Ralph E Blake formerly Consultant Technical Center of Silicon Valley San Jose | 3-1 |
Sheldon Rubin Distingished Engineer The Aerospace Corporation El Segundo CA 90009 | 4-1 |
Copyright | |
38 other sections not shown
Common terms and phrases
acceleration accelerometer algorithms amplitude analysis applied auxiliary mass system average axes axis bandwidth beam calibration center-of-gravity cepstrum Chap characteristics coefficient components constant damper defined deflection degree-of-freedom system differential equation displacement elastic energy equation of motion example excitation factor FIGURE filter forced vibration free vibration frequency range frequency-response function gage inertia input linear matrix maximum measurement mechanical mechanical impedance method modal analysis modal parameter modal vectors mode shapes modes of vibration moment of inertia natural frequency nonlinear normal mode obtained oscillation output pendulum phase pickup piezoelectric plane plate products of inertia pulse quency radius of gyration random random vibration ratio resilient element resilient supporting resonance result rigid body rotation rotor shaft shock and vibration shown in Fig signal single degree-of-freedom sinusoidal solution spectra spectrum speed spring stiffness strain strain gage tion torsional transducer undamped velocity viscous whirl zero