Shock and Vibration HandbookCyril M. Harris, Charles E. Crede |
From inside the book
Results 1-3 of 78
Page 7-7
... shaft where the constants are determined by the end conditions . If there are more than two discs , the section of shaft between each pair of discs must be considered separately ; there are two constants for each section . The con ...
... shaft where the constants are determined by the end conditions . If there are more than two discs , the section of shaft between each pair of discs must be considered separately ; there are two constants for each section . The con ...
Page 19-9
... ( SHAFT ) 3 2 0.5 0.3 0.2 0.1 1,000 5,000 NEMA SM 22-1970 ( SHAFT ) API STD 612 ( SHAFT ) KRUGLOV ( SHAFT ) VDI 2056 - ALLOWABLE ( BEARING ) VDI 2056 - NEW ( BEARING ) 10,000 SHIPBOARD MIL - STD - 167 ( SHAFT ) , 30,000 60,000 VIBRATION ...
... ( SHAFT ) 3 2 0.5 0.3 0.2 0.1 1,000 5,000 NEMA SM 22-1970 ( SHAFT ) API STD 612 ( SHAFT ) KRUGLOV ( SHAFT ) VDI 2056 - ALLOWABLE ( BEARING ) VDI 2056 - NEW ( BEARING ) 10,000 SHIPBOARD MIL - STD - 167 ( SHAFT ) , 30,000 60,000 VIBRATION ...
Page 25-5
... shaft , rotating about this axis at the rotational speed of the shaft . The transmission of this force to the vibration - machine table causes the table to execute a circular motion in a plane normal to the axis of the rotating shaft ...
... shaft , rotating about this axis at the rotational speed of the shaft . The transmission of this force to the vibration - machine table causes the table to execute a circular motion in a plane normal to the axis of the rotating shaft ...
Contents
BASIC VIBRATION THEORY | 2-2 |
VIBRATION OF A RESILIENTLY SUPPORTED RIGID BODY | 2-29 |
NONLINEAR VIBRATION | 4-4 |
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Common terms and phrases
acceleration accelerometer amplitude analysis applied approximately assumed attached axis beam body calibration characteristics coefficient complex component connected considered constant corresponding curve damper damping defined deflection density described determined direction displacement distribution effect elastic electrical elements energy equal equation equipment equivalent example excitation expressed factor force function given impedance increases indicated inertia integral isolator limit linear load machine magnitude mass material matrix maximum measured mechanical method mode motion mounted natural frequency obtained operating output parameters peak period pickup plane position produce pulse random range ratio recording reference relation relative represented resonance respect response rigid rotation sensitivity shock shown in Fig signal solution specifications spectral spectrum spring stiffness strain structure Table temperature tion transducer transmissibility unit usually velocity vibration voltage weight zero