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This important five-volume series has been written with both the professional engineer and the academic in mind. Cristian Lalanne explores every aspect of vibration and shock, two fundamental and extremely significant areas of mechanical engineering, from both a theoretical and practical point of view. As all products need to be designed to withstand the environmental conditions to which they are likely to be subjected, prototypes must be verified by calculation and undergo laboratory tests to meet national and international standards. The concept of tailoring the product to its environment has developed gradually. Nowadays, from the very start of a design project through to the standards specifications and testing procedures on the prototype, the real environment in which the product will function is taken into account. The five volumes of Mechanical Vibration and Shock Analysis cover all the necessary issues in this area of mechanical engineering. The theoretical analyses are placed in the context of both the real world and the laboratory, which is essential for the development of specifications.
List of contents
Mechanical Vibration & Shock, Volume 1, Sinusoidal Vibration, 2nd Edition.
1. The necessity.
2. Basic mechanics.
3. Response of a linear one-degree-of-freedom mechanical system to an arbitrary excitation.
4. Impulse and step responses.
5. Sinusoidal vibration.
6. Response of a linear single-degree-of-freedom mechanical system to a sinusoidal excitation.
7. Non-viscous damping.
8. Swept sine.
9. Response of a one-degree-of-freedom linear system to a swept sine vibration.
Mechanical Vibration & Shock, Volume 2, Mechanical Shock, 2nd Edition.
1.Shock analysis.
2. Shock response spectrum.
3. Properties of shock response spectra.
4. Development of shock test specifications.
5. Kinematics of simple shocks.
6. Standard shock machines.
7. Generation of shocks using shakers.
8. Control of a shaker using a shock response spectrum.
9. Simulation of pyroshocks.
Mechanical Vibration & Shock, Volume 3, Random Vibration, 2nd Edition.
1. Statistical properties of a random process.
2. Properties of random vibration in the frequency domain.
3. RMS value of random vibration.
4. Practical calculation of power spectral density.
5. Statistical properties of random vibration in the time domain.
6. Probability distribution of maxima of random vibration.
7. Statistics of extreme values.
8. Response of a one-degree-of-freedom linear system to random vibration.
9. Characteristics of the response of a one-degree-of-freedom linear system to random vibration.
10. First passage at a given level of response of a one-degree-of-freedom linear system to a random vibration.
Mechanical Vibration & Shock, Volume 4, Fatigue Damage, 2nd Edition.
1. Concepts of material fatigue.
2. Accumulation of fatigue damage.
3. Counting methods for analyzing random time history.
4. Fatigue damage undergone by a one-degree-of-freedom mechanical system.
5. Standard deviation of fatigue damage.
6. Fatigue damage using other assumptions for calculation.
7. Low cycle fatigue.
8. Fracture mechanics.
Mechanical Vibration & Shock, Volume 5, Specification Development, 2nd Edition.
1. Extreme response spectrum of a sinusoidal vibration.
2. Extreme response spectrum of a random vibration.
3. Fatigue damage spectrum of a sinusoidal vibration.
4. Fatigue damage spectrum of a random vibration.
5. Fatigue damage spectrum of a shock.
6. Influence of calculation parameters of the E.R.S. and F.D.S.
7. Tests and standards.
8. Uncertainty factor.
9. Ageing factor.
10. Test factor.
11. Specification development.
12. Influence of calculation parameters of the specification.
13. Other uses of extreme response, up-crossing risk and fatigue.
