Mechanical Vibration and Shock Analysis, Volume 1, Sinusoidal Vibration (eBook, PDF)
Mechanical Vibration and Shock Analysis, Volume 1, Sinusoidal Vibration (eBook, PDF)
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Everything engineers need to know about mechanical vibration and shock...in one authoritative reference work! This fully updated and revised 3rd edition addresses the entire field of mechanical vibration and shock as one of the most important types of load and stress applied to structures, machines and components in the real world. Examples include everything from the regular and predictable loads applied to turbines, motors or helicopters by the spinning of their constituent parts to the ability of buildings to withstand damage from wind loads or explosions, and the need for cars to maintain…mehr
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- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 444
- Erscheinungstermin: 16. April 2014
- Englisch
- ISBN-13: 9781118931103
- Artikelnr.: 41117648
- Verlag: John Wiley & Sons
- Seitenzahl: 444
- Erscheinungstermin: 16. April 2014
- Englisch
- ISBN-13: 9781118931103
- Artikelnr.: 41117648
2 method 276 7.4.3. Decreased rate method (logarithmic decrement) 277 7.4.4 Evaluation of energy dissipation under permanent sinusoidal vibration 284 7.4.5. Other methods 288 7.5. Non-linear stiffness 288 Chapter 8 Swept Sine 291 8.1. Definitions 291 8.1.1. Swept sine 291 8.1.2. Octave - number of octaves in frequency interval (f1, f2) 294 8.1.3. Decade 294 8.2. "Swept sine" vibration in the real environment 295 8.3. "Swept sine" vibration in tests 295 8.4. Origin and properties of main types of sweepings 297 8.4.1. The problem 297 8.4.2 Case 1: sweep where time
t spent in each interval
f is constant for all values of f0 301 8.4.3. Case 2: sweep with constant rate 313 8.4.4. Case 3: sweep ensuring a number of identical cycles
N in all intervals
f (delimited by the half-power points) for all values of f0 314 Chapter 9 Response of a Linear One-Degree-of-Freedom System to a Swept Sine Vibration 319 9.1. Influence of sweep rate 319 9.2 Response of a linear one-degree-of-freedom system to a swept sine excitation 321 9.2.1. Methods used for obtaining response 321 9.2.2. Convolution integral (or Duhamel's integral) 322 9.2.3 Response of a linear one-degree-of freedom system to a linear swept sine excitation 324 9.2.4 Response of a linear one-degree-of-freedom system to a logarithmic swept sine 334 9.3. Choice of duration of swept sine test 338 9.4. Choice of amplitude 342 9.5. Choice of sweep mode 343 Appendix Laplace Transformations 353 Vibration Tests: a Brief Historical Background 367 Bibliography 373 Index 387 Summary of Other Volumes in the Series 393
2 method 276 7.4.3. Decreased rate method (logarithmic decrement) 277 7.4.4 Evaluation of energy dissipation under permanent sinusoidal vibration 284 7.4.5. Other methods 288 7.5. Non-linear stiffness 288 Chapter 8 Swept Sine 291 8.1. Definitions 291 8.1.1. Swept sine 291 8.1.2. Octave - number of octaves in frequency interval (f1, f2) 294 8.1.3. Decade 294 8.2. "Swept sine" vibration in the real environment 295 8.3. "Swept sine" vibration in tests 295 8.4. Origin and properties of main types of sweepings 297 8.4.1. The problem 297 8.4.2 Case 1: sweep where time
t spent in each interval
f is constant for all values of f0 301 8.4.3. Case 2: sweep with constant rate 313 8.4.4. Case 3: sweep ensuring a number of identical cycles
N in all intervals
f (delimited by the half-power points) for all values of f0 314 Chapter 9 Response of a Linear One-Degree-of-Freedom System to a Swept Sine Vibration 319 9.1. Influence of sweep rate 319 9.2 Response of a linear one-degree-of-freedom system to a swept sine excitation 321 9.2.1. Methods used for obtaining response 321 9.2.2. Convolution integral (or Duhamel's integral) 322 9.2.3 Response of a linear one-degree-of freedom system to a linear swept sine excitation 324 9.2.4 Response of a linear one-degree-of-freedom system to a logarithmic swept sine 334 9.3. Choice of duration of swept sine test 338 9.4. Choice of amplitude 342 9.5. Choice of sweep mode 343 Appendix Laplace Transformations 353 Vibration Tests: a Brief Historical Background 367 Bibliography 373 Index 387 Summary of Other Volumes in the Series 393