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Mechanical Vibration of Plates
Mechanical Vibration is the study of oscillatory motions of mechanical system. It is both useful and harmful for engineering systems. Sometimes, it is profitably used in musical instruments, propagation of sound etc. On the other hand, excessive vibration causes damage to buildings and rapid wear of machine parts such as gear & bearing. At the stage of resonance, it may even lead to t... zur Produkt-Seite
4640990 {"price-changing":0,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvNzMvNjEvNjIvNDU0MTU4MjEwMDAwMUFfNjAweDYwMC5qcGc=!aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvNzMvNjEvNjIvNDU0MTU4MjEwMDAwMUFfNjAweDYwMC5qcGc=","post_title":"Mechanical Vibration of Plates","deeplink":"https:\/\/cct.connects.ch\/tc.php?t=116298C1969900829T&subid=9783659113222&deepurl=https%3A%2F%2Feuniverse.ch%2Fbuecher%2Fmathematik-naturwissenschaft-technik%2Ftechnik%2F174475%2Fmechanical-vibration-of-plates-mechanical-vibration%3FsPartner%3Dtoppreise","labels":[],"brand_id":1,"post_content":"Mechanical Vibration is the study of oscillatory motions of mechanical system. It is both useful and harmful for engineering systems. Sometimes, it is profitably used in musical instruments, propagation of sound etc. On the other hand, excessive vibration causes damage to buildings and rapid wear of machine parts such as gear & bearing. At the stage of resonance, it may even lead to the shutdown of the turbine units which directly disturbed the economical system, time management, employment system of a nation. Resonance is the stage where the natural frequency of the system is equal to the external excitation frequency. Due to this, the amplitude of vibration is excessive at resonance. So, determination of first few modes of natural frequency of a system is a must for design point of view. So, it is essentially required to have the knowledge of vibration (natural frequency) for a designer.","merchants_number":1,"ean":9783659113222,"category_id":103,"size":null,"min_price":74.900000000000005684341886080801486968994140625,"low_price_merchant_id":70255345,"ID":4640990,"merchants":["euniverse"],"brand":"undefined","slug":"mechanical-vibration-of-plates","url":"\/unterhaltung\/produkt\/mechanical-vibration-of-plates\/","low_price_merchant_name":"eUniverse"}
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Vibration of Orthotropic Rectangular Plate
The research in the field of vibration is quite mesmerizing and continuously acquiring a great attention of scientists and design engineers because of its unbounded effect on human life. In the engineering we can not move without considering the effect of vibration because almost all machines and engineering structures experiences vibrations. Study of effect of vibration can't be rest... zur Produkt-Seite
4444685 {"price-changing":null,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTQ5Njk5NTk3XzJQZ2JMLXBuZw==!aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTQ5Njk5NTk3XzJQZ2JMLXBuZw==","post_title":"Vibration of Orthotropic Rectangular Plate","deeplink":"https:\/\/www.awin1.com\/pclick.php?p=22944191089&a=401125&m=11816&pref1=9783659294426","labels":[],"brand_id":1,"post_content":"The research in the field of vibration is quite mesmerizing and continuously acquiring a great attention of scientists and design engineers because of its unbounded effect on human life. In the engineering we can not move without considering the effect of vibration because almost all machines and engineering structures experiences vibrations. Study of effect of vibration can't be restricted only in the field of science but, our day to day life is also affected by it. Whether it be a constructive aspect e.g. aircraft, space shuttle, satellite or design engineering to the destructive aspect, e.g. tsunami, earthquake etc., none of these are remained untouched with the effect of vibrations. The study of vibration responses are of great importance, almost in all engineering applications, such as, space shuttle, satellites, aircrafts, earthquake resistant newly designed structures and also in chip design in electronics etc.. All the above said structures\/ fields shows a significant effect on themselves with variation in temperature so the study of effect of temperature on such structural materials is of immense importance.","merchants_number":1,"ean":9783659294426,"category_id":103,"size":null,"min_price":57.39999999999999857891452847979962825775146484375,"low_price_merchant_id":1087639,"ID":4444685,"merchants":["dodax"],"brand":"undefined","slug":"vibration-of-orthotropic-rectangular-plate","url":"\/unterhaltung\/produkt\/vibration-of-orthotropic-rectangular-plate\/","low_price_merchant_name":null}
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Free vibration analysis of composite plate and shell
This book will be useful to whom working on design of structures in mechanical engineering like aerospace vehicles, pressure vessels, submarine hulls, ship hulls, wings, pipes, exteriors of rockets, missiles, automobile tires, concrete roofs, robots, and shelters reservoirs. This book analyze laminated plate and shell with higher order shear deformation plate and shell theory under cr... zur Produkt-Seite
4616384 {"price-changing":null,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTQ5NDUzMzk2XzNZcjJaLXBuZw==!aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTQ5NDUzMzk2XzNZcjJaLXBuZw==","post_title":"Free vibration analysis of composite plate and shell","deeplink":"https:\/\/www.awin1.com\/pclick.php?p=30506463905&a=401125&m=11816&pref1=9783659397752","labels":[],"brand_id":1,"post_content":"This book will be useful to whom working on design of structures in mechanical engineering like aerospace vehicles, pressure vessels, submarine hulls, ship hulls, wings, pipes, exteriors of rockets, missiles, automobile tires, concrete roofs, robots, and shelters reservoirs. This book analyze laminated plate and shell with higher order shear deformation plate and shell theory under cryogenic environment.","merchants_number":1,"ean":9783659397752,"category_id":103,"size":null,"min_price":66.650000000000005684341886080801486968994140625,"low_price_merchant_id":1087639,"ID":4616384,"merchants":["dodax"],"brand":"undefined","slug":"free-vibration-analysis-of-composite-plate-and-shell","url":"\/unterhaltung\/produkt\/free-vibration-analysis-of-composite-plate-and-shell\/","low_price_merchant_name":null}
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Vibration Control of Active Structures
This text is an introduction to the dynamics of active structures and to the feedback control of lightly damped flexible structures, the emphasis is placed on basic issues and simple control strategies that work. Now in its third edition, more chapters have been added, and comments and feedback from readers have been taken into account, while at the same time the unique pre... zur Produkt-Seite
5066513 {"price-changing":0,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTIyOTgyODY1X01sQjdtRC1wbmc=!aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTIyOTgyODY1X01sQjdtRC1wbmc=","post_title":"Vibration Control of Active Structures","deeplink":"https:\/\/www.awin1.com\/pclick.php?p=27636411875&a=401125&m=11816&pref1=9789400720329","labels":[],"brand_id":1,"post_content":"This text is an introduction to the dynamics of active structures and to the feedback control of lightly damped flexible structures, the emphasis is placed on basic issues and simple control strategies that work. Now in its third edition, more chapters have been added, and comments and feedback from readers have been taken into account, while at the same time the unique premise of bridging the gap between structure and control has remained. ,Many examples and problems bring the subject to life and take the audience from theory to practice. The book has chapters dealing with some concepts in structural dynamics, electromagnetic and piezoelectric transducers, piezoelectric beam, plate and truss, passive damping with piezoelectric transducers, collocated versus non-collocated control, active damping with collocated systems, vibration isolation, state space approach, analysis and synthesis in the frequency domain, optimal control, controllability and observability, stability, applications, tendon control of cable structures, active control of large telescopes, and semi-active control. The book concludes with an exhaustive bibliography and index. , This book is intended for structural engineers who want to acquire some background in vibration control, it can be used as a textbook for a graduate course on vibration control or active structures. A solutions manual is available through the publisher to teachers using this book as a textbook.","merchants_number":1,"ean":9789400720329,"category_id":103,"size":null,"min_price":120.599999999999994315658113919198513031005859375,"low_price_merchant_id":1087639,"ID":5066513,"merchants":["dodax"],"brand":"undefined","slug":"vibration-control-of-active-structures-1","url":"\/unterhaltung\/produkt\/vibration-control-of-active-structures-1\/","low_price_merchant_name":null}
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Topics in Modal Analysis & Testing, Volume 9
Chapter 1. Stochastic Modal Appropriation (SMA).- Chapter 2. Derivation of Six Degree of Freedom Shaker Inputs Using Sub-Structuring Techniques.- Chapter 3. Forced Response of 2-Dof Gyroscopic Systems with Stable Eigenvalues.- Chapter 4. Modal Testing of a Composite Bladed Disc Using Travelling Wave Excitation Method. -Chapter 5. Simulation of the Dynamic Behavior of a Bi-cable Ropewa... zur Produkt-Seite
4780928 {"price-changing":0,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9pLndlbHRiaWxkLmRlL3AvdG9waWNzLWluLW1vZGFsLWFuYWx5c2lzLXRlc3Rpbmctdm9sdW1lLTktMjc2MTMwMzcyLmpwZw==!aHR0cHM6Ly9pLndlbHRiaWxkLmRlL3AvdG9waWNzLWluLW1vZGFsLWFuYWx5c2lzLXRlc3Rpbmctdm9sdW1lLTktMjc2MTMwMzcyLmpwZ3x+fGh0dHBzOi8vb3MxLm1laW5lY2xvdWQuaW8vYjEwMTU4L21lZGlhL2ltYWdlLzY1L2EyLzc4LzY3NTYwMzAyMDAwMDFBXzYwMHg2MDAuanBn","post_title":"Topics in Modal Analysis & Testing, Volume 9","deeplink":"https:\/\/track.adtraction.com\/t\/t?a=1632201226&as=1592767275&t=2&tk=1&url=https:\/\/www.weltbild.ch\/artikel\/x\/_24027655-1","labels":[],"brand_id":1,"post_content":"Chapter 1. Stochastic Modal Appropriation (SMA).- Chapter 2. Derivation of Six Degree of Freedom Shaker Inputs Using Sub-Structuring Techniques.- Chapter 3. Forced Response of 2-Dof Gyroscopic Systems with Stable Eigenvalues.- Chapter 4. Modal Testing of a Composite Bladed Disc Using Travelling Wave Excitation Method. -Chapter 5. Simulation of the Dynamic Behavior of a Bi-cable Ropeway with Modal Bases.- Chapter 6. Influence of Noise in Correlation Function Estimates for Operational Modal Analysis.- Chapter 7. Comparison of two (Geometric) Algorithms for Auto OMA.- Chapter 8. Operational Modal Analysis On Wind Turbine Hub.- Chapter 9. The Influence of Edge Boundary Conditions and Cracks on Vibrational Modes of Multilayer Ceramic Capacitors.- Chapter 10. The Cross Spectrum in Multiple Input Multiple Response Vibration Testing.- Chapter 11. A Systematic Evaluation of Test Specification Derivation Methods for Multi-Axis Vibration Testing.- Chapter 12. Designing Hardware for the Boundary Condition Round Robin Challenge.- Chapter 13. Modal Comparison of Stock and Performance Brake Rotors.- Chapter 14. On the Veering Phenomenon Potential in High Speed Gears Design.- Chapter 15. Modal Truncation in Experimental Modal Analysis.- Chapter 16. Combined Mechanical Environments for Design and Qualification.- Chapter 17. Comparing Free-Free and Shaker Table Model Correlation Methods Using Jim Beam. Chapter 18. Realtime Hybrid Testing: Challenges and Experiences from a Teaching Point of View.- Chapter 19. Comparison of Computational Generalized and Standard Eigenvalue Solutions of Rotating Systems. -Chapter 20. Residual States for Modal Models Identified from Accelerance Data.- Chapter 21. Comparison of Time-Domain Objective Functions in Dynamic Fixture Optimization.- Chapter 22. Advanced Hammer Excitation Technique for Impact Modal Testing on Lightweight Materials using Scalable Automatic Modal Hammer.- Chapter 23. Evaluation of MIMO Input Derivations and their Physical Context.- Chapter 24. Using Modal Substructuring to Improve Shock & Vibration Qualification.- Chapter 25. Off-Axis Input Characterization of Random Vibration Laboratory Data for Model Credibility.- Chapter 26. Modal Analysis of a Brake-Ruess Beam and Computational Modeling at the Undergraduate Level.- Chapter 27. A Primer on Multiple Degree of Freedom Vibration Test for Aerospace and Military Applications.- Chapter 28. A Study on the Generation and Propagation of Traveling Waves in Strings.- Chapter 29. A Colored Complex Mode Indicator Function for Selecting a Final Mode Set.- Chapter 30. Using Manual Excitation for Large Displacement on a Highly Damped System.- Chapter 31. Traveling Wave Generation on a Clamped, Thin Plate with Flush-mounted Piezoelectric Actuators.- Chapter 32. Experimental Modal Analysis of an Aircraft Fuselage Panel - Part II.- Chapter 33. Combining Virtual Simulation with Hands-on Experiments for Teaching Mechanical Vibration.- Chapter 34. Finite Element Model Updating Using the Local Correspondence Principle.- Chapter 35. Approximate General Responses of Tuned and Mistuned 4-Degree-of-Freedom Systems with Parametric Stiffness.- Chapter 36. Modal Analysis of a Vertical-axis Darrieus Wind Turbine Blade with a Troposkein Shape.- Chapter 37. Floquet-Type Analysis of Transient Vibrations of a Horizontal Axis Wind Turbine.- Chapter 38. Evaluation of Traveling Wave Models for Carangiform Swimming Based on Complex Modes.- Chapter 39. Application of Frequency-Domain Decomposition Identification Technique to Half Spectral Densities.- Chapter 40. Modal Survey of the MPCV Orion European Service Module Structural Test Article using a Multi-Axis Shaker Table.- Chapter 41. Modal Analysis of Healthy and Cracked Isotropic Plates in Peridynamics.- Chapter 42. Initial Modal Results and Operating Data Acquisition of Shock\/Vibration Fixture.- Chapter 43. Effects of Variable Thickness Circular Plates on Frequency Response Functions and Shock Response Spectrum.- Chapter 44.","merchants_number":2,"ean":9783319746999,"category_id":103,"size":null,"min_price":236,"low_price_merchant_id":27291482,"ID":4780928,"merchants":["weltbild","euniverse"],"brand":"undefined","slug":"topics-in-modal-analysis-testing-volume-9","url":"\/unterhaltung\/produkt\/topics-in-modal-analysis-testing-volume-9\/","low_price_merchant_name":"Weltbild"}
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Some Mathematical Models on Vibrational Behaviour of Plates
In the course of time, the study of vibration of plates with thickness variability has acquired great importance in nuclear reactor technology, earth-quake resistant structures, aeronautical field, naval structures and machine designs etc. Plates of variable thickness are mainly used for two fold requirements of safety and economy. Therefore, it becomes the need of the hour to provide... zur Produkt-Seite
4641779 {"price-changing":null,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MTQ3MjE0X0oxNWFZLXBuZw==!aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MTQ3MjE0X0oxNWFZLXBuZw==","post_title":"Some Mathematical Models on Vibrational Behaviour of Plates","deeplink":"https:\/\/www.awin1.com\/pclick.php?p=22944136039&a=401125&m=11816&pref1=9783659158735","labels":[],"brand_id":1,"post_content":"In the course of time, the study of vibration of plates with thickness variability has acquired great importance in nuclear reactor technology, earth-quake resistant structures, aeronautical field, naval structures and machine designs etc. Plates of variable thickness are mainly used for two fold requirements of safety and economy. Therefore, it becomes the need of the hour to provide some authentic theoretical mathematical models for the help of mechanical\/design engineers & scientists so that before finalizing any design or mechanical structure, they can use of them with practical approach and provide much better design and structures with more durability, reliability & strength. In the present work, some mathematical models on vibrational behaviour of visco-elastic homogeneous rectangular plates with bi-directional thickness variability are deeply discussed for fixed boundary conditions. Numeric values of time period, deflection and logarithmic decrement are given in tabular and graphical forms both. I hope that the engineers\/scientists may develop a qualitative understanding of plate vibrational behaviour by using these findings.","merchants_number":1,"ean":9783659158735,"category_id":103,"size":null,"min_price":59.85000000000000142108547152020037174224853515625,"low_price_merchant_id":1087639,"ID":4641779,"merchants":["dodax"],"brand":"undefined","slug":"some-mathematical-models-on-vibrational-behaviour-of-plates","url":"\/unterhaltung\/produkt\/some-mathematical-models-on-vibrational-behaviour-of-plates\/","low_price_merchant_name":null}
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Rotating Machinery, Hybrid Test Methods, Vibro-Acoustics & Laser Vibrometry, Volume 8
1 Practical Techniques for Scaling of Optically Measured Operating Deflection Shapes.- 2 Prediction of the Coupled Impedance from Frequency Response Data.- 3 Real-Time State Detection in Highly Dynamic Systems.- 4 Stereo-DIC Measurements of Thermal Gradient Effects on the Vibratory Response of Metals.- 5 Modal Testing of a Nose Cone Using Three-Dimensional Scanning Laser Doppler Vibro... zur Produkt-Seite
5522561 {"price-changing":0,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvMDQvZWUvMTgvNTYzMzY1MDEwMDAwMUFfNjAweDYwMC5qcGc=!aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvMDQvZWUvMTgvNTYzMzY1MDEwMDAwMUFfNjAweDYwMC5qcGc=","post_title":"Rotating Machinery, Hybrid Test Methods, Vibro-Acoustics & Laser Vibrometry, Volume 8","deeplink":"https:\/\/cct.connects.ch\/tc.php?t=116298C1969900829T&subid=9783319300832&deepurl=https%3A%2F%2Feuniverse.ch%2Fbuecher%2Fmathematik-naturwissenschaft-technik%2Ftechnik%2F446259%2Frotating-machinery-hybrid-test-methods-vibro-acoustics-laser-vibrometry-volume-8-proceedings-o%3FsPartner%3Dtoppreise","labels":[],"brand_id":1,"post_content":"1 Practical Techniques for Scaling of Optically Measured Operating Deflection Shapes.- 2 Prediction of the Coupled Impedance from Frequency Response Data.- 3 Real-Time State Detection in Highly Dynamic Systems.- 4 Stereo-DIC Measurements of Thermal Gradient Effects on the Vibratory Response of Metals.- 5 Modal Testing of a Nose Cone Using Three-Dimensional Scanning Laser Doppler Vibrometry.- 6 A Mathematical Model for Determining the Pose of a SLDV.- 7 Operational Modal Analysis with a 3D Laser Vibrometer Without External Reference.- 8 Scanning LDV Measurement Technology For Vibration Fatigue Testing.- 9 Optically Detecting Wavefronts and Wave Speeds in Water Using Refracto-Vibrometry.- 10 Stochastic Wavenumber Estimation: Damage Detection Through Simulated Guided Lamb Waves.- 11 Use Of Continuous Scanning LDV For Diagnostic.- 12 A Cost Effective DIC System for Measuring Structural Vibrations.- 13 Teaching DSP and Dynamic Measurements at the Graduate Level at Michigan Technological University.- 14 Flipping The Classroom For a Class On Experimental Vibration Analysis.- 15 Lessons Learned From Operational Modal Analysis Courses at the University of Molise.- 16 Authentic Engineering Assignments for an Undergraduate Vibration Laboratory Class.- 17 Vibration and Acoustic Analysis of Acoustic Guitar in Consideration of Transient Sound.- 18 Demarcation for the Coupling Strength in the MODENA Approach.- 19 Vibro-Acoustic Modal Model of a Traction Motor for Railway Applications.- 20 Operational Deflection Shapes of a PWM-fed Traction Motor.- 21 Acoustic Fatigue and Dynamic Behavior of Composite Panels Under Acoustic Excitation.- 22 Evaluation of Microphone Density for Finite Element Source Inversion Simulation of a Laboratory Acoustic Test.- 23 Experimental Mapping of the Acoustic Field Generated by Ultrasonic Transducers.- 24 Enhanced Spin-Down Diagnostics for Nondestructive Evaluation of High-Value Systems.- 25 Performing Direct-Field Acoustic Test Environments on a Sandia Flight System to Provide Data for Finite Element Simulation.- 26 Smooth Complex Orthogonal Decomposition Applied to Traveling Waves in Elastic Media.- 27 Subspace Algorithms in Modal Parameter Estimation for Operational Modal Analysis: Perspectives and Practices.- 28 An Application of Multivariate Empirical Mode Decomposition Towards Structural Modal Identification.- 29 Dynamic Characterization of Milling Plant Columns.- 30 Mixed Force and Displacement Control for Base-Isolation Bearings in RTHS.- 31 Leveraging Hybrid Simulation for Vibration-Based Damage Detection Studies.- 32 Real Time Hybrid Simulation with Online Model Updating on Highly Nonlinear Device.- 33 Discrete-time Compensation Technique for Real-Time Hybrid Simulation.- 34 Evaluating the Effectiveness of a Lodengraf Damping Approach for String Trimmers.- 35 Using Operating Data to Locate & Quantify Unbalance in Rotating Machinery.- 36 Gear Dynamics Characterization by Using Order-Based Modal Analysis.- 37 A Design Framework to Improve the Dynamic Characteristics of Double Planet Planetary Gearsets.- 38 Dynamics and Pareto Optimization of a Generic Synchronizer Mechanism.- 39 Modeling and Characterization of a Flexible Rotor Supported by AMB.- 40 Nonlinear Reduced Order Modeling of a Curved Axi-symmetric Perforated Plate: Comparison with Experiments.- 41 Reduced Order Models for Systems with Disparate Spatial and Temporal Scales.- 42 Using NNMs to Evaluate Reduced Order Models of Curved Beam.- 43 Simulation of Rotor Damping Assembled by Disc Shrink Fits.- 44 Developments in the Prediction of Full Field Dynamics in the Nonlinear Forced Response of Reduced Order System Models.- 45 On the Behaviour of Structures with Many Nonlinear Elements.- 46 Estimation of Instantaneous Speed for Rotating Systems: New Processing Techniques.- 47 Identification of Breathing Cracked Shaft Models from Measurements.","merchants_number":1,"ean":9783319300832,"category_id":103,"size":null,"min_price":259,"low_price_merchant_id":70255345,"ID":5522561,"merchants":["euniverse"],"brand":"undefined","slug":"rotating-machinery-hybrid-test-methods-vibro-acoustics-laser-vibrometry-volume-8","url":"\/unterhaltung\/produkt\/rotating-machinery-hybrid-test-methods-vibro-acoustics-laser-vibrometry-volume-8\/","low_price_merchant_name":"eUniverse"}
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Review of Progress in Quantitative Nondestructive Evaluation
Interfaces: The Next NDE Challenge.- Ultrasonic Methods for Characterizing the Interface in Composites.- Characterization of Film Adhesion by Acoustic Microscopy.- Application of SH and Lamb Wave Emat's for Evaluation of Adhesive Joint in Thin Plate.- The Influence of Interfacial Conditions on the Ultrasonic Wave Interaction with Multilayered Media.- The Influence of Material Dissipat... zur Produkt-Seite
4907651 {"price-changing":null,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTIyNDc1MTI2XzFYTG1OTnktcG5n!aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTIyNDc1MTI2XzFYTG1OTnktcG5nfH58aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvYTAvMGMvZmQvNDI5NzAzMjEwMDAwMUFfNjAweDYwMC5qcGc=","post_title":"Review of Progress in Quantitative Nondestructive Evaluation","deeplink":"https:\/\/www.awin1.com\/pclick.php?p=24448935901&a=401125&m=11816&pref1=9781461282754","labels":[],"brand_id":1,"post_content":"Interfaces: The Next NDE Challenge.- Ultrasonic Methods for Characterizing the Interface in Composites.- Characterization of Film Adhesion by Acoustic Microscopy.- Application of SH and Lamb Wave Emat's for Evaluation of Adhesive Joint in Thin Plate.- The Influence of Interfacial Conditions on the Ultrasonic Wave Interaction with Multilayered Media.- The Influence of Material Dissipation and Imperfect Bonding on Acoustic Wave Reflection from Layered Solids.- Nondestructive Evaluation of Adhesive Bonds Using Leaky Lamb Waves.- Determination of Delaminations in Adhesively Bonded Layers under Compression.- Quantitative Nondestructive Evaluation of Adhesive Bond Strength.- Nondestructive Characterization of Ceramic Composite Whiskers with Neutron Diffraction and Ultrasonic Techniques.- Ultrasonic Characterization of Ceramic-Ceramic Composites.- QNDE of a 3-D Carbon-Carbon Composite Using Photoacoustic Microscopy.- Elastic Wave Dispersion in Laminated Composite Plate.- Practical Application of State-of-the-Art NDE Techniques: Evaluation of Graphite-Epoxy Composite Wing Covers.- Inspecting Advanced Composite Materials at Ultrasonic Frequencies from 2 Megahertz to 2 Gigahertz.- A Quantitative Nondestructive Evaluation Technique for Assessing the Compression-After-Impact Strength of Composites Plates.- Eddy Current Probe Impedances Due to Interaction with Advanced Composites.- Backscatter from Porosity in Cross-Ply Composites.- A Relationship between Frequency Dependent Ultrasonic Attenuation and Porosity in Composite Laminates.- Effect of Bottom-Surface Reflections on Backscatter from Porosity in a Composite Layer.- Characterization of Porosity in Continuous Fiber-Reinforced Composites with Ultrasonic Backscatter.- Ultrasonic Measurements of Porosity in Woven Graphite Polyimide Composites.- Ultrasonic NDE of Laser-Damaged Organo-Matrix Composites.- Mechanical Strength Degradation of Graphite Fiber Reinforced Thermoset Composites Due to Porosity.- A Model for Ultrasound Transmission Through Graphite Composite Plates Containing Delaminations.- Imaging of Impact Damage in Composite Materials.- Vibrothermographic NDE of Fiberous Composites.- Nondestructive Evaluation of Fiber Composite Laminates by Thermoelastic Emission.- Thermographic Detection of Buried Debonds.- Defect Detection and Quantification in Laminated Composites by EATF (Passive) Thermography.- Sub-Bandgap Laser Probing of GaAs Devices and Circuits.- Semiconductor Dimensional Metrology Using the Scanning Electron Microscope.- White Beam Synchrotron X-Ray Topography of Gallium Arsenide.- A Noninvasive Optical Probe for Detecting Electrical Signals in Silicon IC's.- Spatially Resolved Non-Contact Bulk and Surface Photovoltage Response in Semiconductors.- High Resolution Holographic Contouring.- Correlation of Thin-Film Bond Compliance and Bond Fracture Resistance.- Evaluation of Solder Bonds in a Silicon Flip Chip Device.- Ultrasonic Evaluation of the Nonlinearity of Metals from a Design Perspective.- Microstructure Characterization with a Pulsed Laser Ultrasonic Source.- Elastic Constant Determination Using Generation by Pulsed Laser.- Laser Optic Vibration Sensing for the Inspection of Bonds in the Orbiter Thermal Protection Tiles.- Imaging Subtle Microstructural Variations in Ceramics with Precision Ultrasonic Velocity and Attenuation Measurements.- Application of the Grain Boundary Internal Friction Peak to the Determination of Optimum Deformation Conditions of a Superplastic Alloy.- Search for NDE Methods to Characterize Thermal History and Mechanical Properties of Al-Li Alloys.- Scattering Induced Attenuation of Ultrasonic Backscattering.- Ultrasonic Characterization of Microspherical Inclusions in Zirconia and Crystallized Glass.- Ultrasonic Characterization of Nonuniform Porosity Distributions in SiC Ceramic.- Reflection of Ultrasonic Waves by an Imperfect Diffusion Bond.- Effects of Imperfect Interfaces on Acoustic Transmission and Diffraction.- Ultrasonic Charact","merchants_number":2,"ean":9781461282754,"category_id":103,"size":null,"min_price":69.75,"low_price_merchant_id":1087639,"ID":4907651,"merchants":["dodax","euniverse"],"brand":"undefined","slug":"review-of-progress-in-quantitative-nondestructive-evaluation","url":"\/unterhaltung\/produkt\/review-of-progress-in-quantitative-nondestructive-evaluation\/","low_price_merchant_name":null}
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Vibration Control of Active Structures
Preface to the third edition.- Preface to the second edition.- Preface to the first edition.- 1 Introduction.- 1.1 Active versus passive.- 1.2 Vibration suppression.- 1.3 Smart materials and structures.- 1.4 Control strategies.- 1.4.1 Feedback.- 1.4.2 Feedforward.- 1.5 The various steps of the design.- 1.6 Plant description, error and control budget.- 1.7 Reade... zur Produkt-Seite
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Feedback.- 1.4.2 Feedforward.- 1.5 The various steps of the design.- 1.6 Plant description, error and control budget.- 1.7 Readership and Organization of the book.- 1.8 References.- 1.9 Problems.- 2 Some concepts in structural dynamics.- 2.1 Introduction.- 2.2 Equation of motion of a discrete system.- 2.3 Vibration modes.- 2.4 Modal decomposition.- 2.4.1 Structure without rigid body modes.- 2.4.2 Dynamic flexibility matrix.- 2.4.3 Structure with rigid body modes.- 2.4.4 Example.- 2.5 Collocated control system.- 2.5.1 Transmission zeros and constrained system.- 2.6 Continuous structures.- 2.7 Guyan reduction.- 2.8 Craig-Bampton reduction.- 2.9 References.- 2.10 Problems.- 3 Electromagnetic and piezoelectric transducers.- 3.1 Introduction.- 3.2 Voice coil transducer.- 3.2.1 Proof-mass actuator.- 3.2.2 Geophone.- 3.3 General electromechanical transducer.- 3.3.1 Constitutive equations.- 3.3.2 Self-sensing.- 3.4 Reaction wheels and gyrostabilizers.- 3.5 Smart materials.- 3.6 Piezoelectric transducer.- 3.6.1 Constitutive relations of a discrete transducer.- 3.6.2 Interpretation of k2.- 3.6.3 Admittance of the piezoelectric transducer.- 3.7 References.- 3.8 Problems.- 4 Piezoelectric beam, plate and truss.- 4.1 Piezoelectric material.- 4.1.1 Constitutive relations.- 4.1.2 Coenergy density function.- 4.2 Hamilton's principle.- 4.3 Piezoelectric beam actuator.- 4.3.1 Hamilton's principle.- 4.3.2 Piezoelectric loads.- 4.4 Laminar sensor.- 4.4.1 Current and charge amplifiers.- 4.4.2 Distributed sensor output.- 4.4.3 Charge amplifier dynamics.- 4.5 Spatial modalfilters.- 4.5.1 Modal actuator.- 4.5.2 Modal sensor.- 4.6 Active beam with collocated actuator-sensor.- 4.6.1 Frequency response function.- 4.6.2 Pole-zero pattern.- 4.6.3 Modal truncation.- 4.7 Admittance of a beam with a piezoelectric patch.- 4.8 Piezoelectric laminate.- 4.8.1 Two dimensional constitutive equations.- 4.8.2 Kirchhoff theory.- 4.8.3 Stiffness matrix of a multi-layer elastic laminate.- 4.8.4 Multi-layer laminate with a piezoelectric layer.- 4.8.5 Equivalent piezoelectric loads.- 4.8.6 Sensor output.- 4.8.7 Beam model vs. plate model.- 4.8.8 Additional remarks.- 4.9 Active truss.- 4.9.1 Open-loop transfer function.- 4.9.2 Admittance function.- 4.10 Finite element formulation.- 4.11 References.- 4.12 Problems.- 5 Passive damping with piezoelectric transducers.- 5.1 Introduction.- 5.2 Resistive shunting.- 5.3 Inductive shunting.- 5.4 Switched shunt.- 5.4.1 Equivalent damping ratio.- 5.5 References.- 5.6 Problems.- 6 Collocated versus non-collocated control.- 6.1 Introduction.- 6.2 Pole-zero flipping.- 6.3 The two-mass problem.- 6.3.1 Collocated control.- 6.3.2 Non-collocated control.- 6.4 Notch filter.- 6.5 Effect of pole-zero flipping on the Bode plots.- 6.6 Nearly collocated control system.- 6.7 Non-collocated control systems.- 6.8 The role of damping.- 6.9 References.- 6.10 Problems ..- 7 Active damping with collocated system.- 7.1 Introduction.- 7.2 Lead control.- 7.3 Direct velocity feedback (DVF).- 7.4 Positive Position Feedback (PPF).- 7.5 Integral Force Feedback(IFF).- 7.6 Duality between the Lead and the IFF controllers.- 7.6.1 Root-locus of a single mode.- 7.6.2 Open-loop poles and zeros.- 7.7 Actuator and sensor dynamics.- 7.8 Decentralized control with collocated pairs.- 7.8.1 Cross talk.- 7.8.2 Force actuator and displacement sensor.- 7.8.3 Displacement actuator and force sensor.- 7.9 References.- 7.10 Problems.- 8 Vibration isolation.- 8.1 Introduction.- 8.2 Relaxation isolator.- 8.2.1 Electromagnetic realization.- 8.3 Active isolation.- 8.3.1 Sky-hook damper.- 8.3.2 Integral Force Feedback.- 8.4 Flexible body.- 8.4.1 Free-free beam with isolator.- 8.5 Payload isolation in spacecraft.- 8.5.1 Interaction isolator\/attitude control.- 8.5.2 Gough-Stewart platform.- 8.6 Six-axis isolator.- 8.6.1 Relaxation isolator.- 8.6.2 Integral Force Feedback.- 8.6.3 Spherical joints, modal spread.- 8.7 Active vs. passive.- 8.8 Car suspension.- 8.9 References.- 8.10 Problems.- 9 State space approach.- 9.1 Introduction.- 9.2 State space description.- 9.2.1 Single degree of freedom oscillator.- 9.2.2 Flexible structure.- 9.2.3 Inverted pendulum.- 9.3 System transfer function.- 9.3.1 Poles and zeros.- 9.4 Pole placement by state feedback.- 9.4.1 Example: oscillator.- 9.5 Linear Quadratic Regulator.- 9.5.1 Symmetric root locus.- 9.5.2 Inverted pendulum.- 9.6 Observer design.- 9.7 Kalman Filter.- 9.7.1 Inverted pendulum.- 9.8 Reduced order observer.- 9.8.1 Oscillator.- 9.8.2 Inverted pendulum.- 9.9 Separation principle.- 9.10 Transfer function of the compensator.- 9.10.1 The two-mass problem.- 9.11 References.- 9.12 Problems.- 10 Analysis and synthesis in the frequency domain.- 10.1 Gain and phase margins.- 10.2 Nyquist criterion.- 10.2.1 Cauchy's principle.- 10.2.2 Nyquist stability criterion.- 10.3 Nichols chart.- 10.4 Feedback specification for SISO systems.- 10.4.1 Sensitivity.- 10.4.2 Tracking error.- 10.4.3 Performance specification.- 10.4.4 Unstructured uncertainty.- 10.4.5 Robust performance and robust stability.- 10.5 Bode gain-phase relationships.- 10.6 The Bode Ideal Cutoff.- 10.7 Non-minimum phase systems.- 10.8 Usual compensators.- 10.8.1 System type.- 10.8.2 Lead compensator.- 10.8.3 PI compensator.- 10.8.4 Lag compensator.- 10.8.5 PID compensator.- 10.9 Multivariable systems.- 10.9.1 Performance specification.- 10.9.2 Small gain theorem.- 10.9.3 Stability robustness tests.- 10.9.4 Residual dynamics.- 10.10References.- 10.11Problems.- 11 Optimal control.- 11.1 Introduction.- 11.2 Quadratic integral.- 11.3 Deterministic LQR.- 11.4 Stochastic response to a white noise.- 11.4.1 Remark.- 11.5 Stochastic LQR.- 11.6 Asymptotic behavior of the closed-loop.- 11.7 Prescribed degree of stability.- 11.8 Gain and phase margins of the LQR.- 11.9 Full state observer.- 11.9.1 Covariance of the reconstruction error.- 11.10Kalman-Bucy Filter (KBF).- 11.11Linear Quadratic Gaussian (LQG).- 11.12Duality.- 11.13Spillover.- 11.13.1Spillover reduction.- 11.14Loop Transfer Recovery (LTR).- 11.15Integral control with state feedback.- 11.16Frequency shaping.- 11.16.1Frequency-shaped cost functionals.- 11.16.2Noise model ..- 11.17References.- 11.18Problems.- 12 Controllability and Observability.- 12.1 Introduction.- 12.1.1 Definitions.- 12.2 Controllability and observability matrices.- 12.3 Examples.- 12.3.1 Cart with two inverted pendulums.- 12.3.2 Double inverted pendulum.- 12.3.3 Two d.o.f. oscillator.- 12.4 State transformation.- 12.4.1 Control canonical form.- 12.4.2 Left and right eigenvectors.- 12.4.3 Diagonal form.- 12.5 PBH test.- 12.6 Residues.- 12.7 Example.- 12.8 Sensitivity.- 12.9 Controllability and observability Gramians.- 12.10Internally balanced coordinates.- 12.11Model reduction.- 12.11.1Transfer equivalent realization.- 12.11.2Internally balanced realization.- 12.11.3Example.- 12.12References.- 12.13Problems.- 13 Stability.- 13.1 Introduction.- 13.1.1 Phase portrait.- 13.2 Linear systems.- 13.2.1 Routh-Hurwitz criterion.- 13.3 Lyapunov's direct method.- 13.3.1 Introductory example.- 13.3.2 Stability theorem.- 13.3.3 Asymptotic stability theorem.- 13.3.4 Lasalle's theorem.- 13.3.5 Geometric interpretation.- 13.3.6 Instability theorem.- 13.4 Lyapunov functions for linear systems.- 13.5 Lyapunov's indirect method ..- 13.6 An application to controller design.- 13.7 Energy absorbing controls.- 13.8 References.- 13.9 Problems.- 14 Applications.- 14.1 Digital implementation.- 14.1.1 Sampling, aliasing and prefiltering.- 14.1.2 Zero-order hold, computational delay.- 14.1.3 Quantization.- 14.1.4 Discretization of a continuous controller.- 14.2 Active damping of a truss structure.- 14.2.1 Actuator placement.- 14.2.2 Implementation, experimental results.- 14.3 Active damping generic interface.- 14.3.1 Active damping.- 14.3.2 Experiment.- 14.3.3 Pointing and position control.- 14.4 Active damping of a plate.- 14.4.1 Control design.- 14.5 Active damping of a stiff beam.- 14.5.1 System design.- 14.6 The HAC\/LAC strategy.- 14.6.1 Wide-band position control.- 14.6.2 Compensator design.- 14.6.3 Results.- 14.7 Vibroacoustics: Volume displacement sensors.- 14.7.1 QWSIS sensor.- 14.7.2 Discrete array sensor.- 14.7.3 Spatial aliasing.- 14.7.4 Distributed sensor.- 14.8 References.- 14.9 Problems.- 5 Tendon Control of Cable Structures.- 15.1 Introduction.- 15.2 Tendon control of strings and cables.- 15.3 Active damping strategy.- 15.4 Basic Experiment.- 15.5 Linear theory of decentralized active damping.- 15.6 Guyed truss experiment.- 15.7 Micro Precision Interferometer testbed.- 15.8 Free floating truss experiment.- 15.9 Application to cable-stayed bridges.- 15.10Laboratory experiment.- 15.11Control of parametric resonance.- 15.12Large scale experiment.- 15.13 References.- 16 Active Control of Large Telescopes.- 16.1 Introduction.- 16.2 Adaptive optics.- 16.3 Active optics.- 16.3.1 Monolithic primary mirror.- 16.3.2 Segmented primary mirror.- 16.4 SVD controller.- 16.4.1 Loop shaping of the SVD controller.- 16.5 Dynamics of a segmented mirror.- 16.6 Control-structure interaction.- 16.6.1 Multiplicative uncertainty.- 16.6.2 Additive uncertainty.- 16.6.3 Discussion.- 16.7 References.- 17 Semi-active control.- 17.1 Introduction.- 17.2 Magneto-rheological fluids.- 17.3 MR devices.- 17.4 Semi-active suspension.- 17.4.1 Semi-active devices.- 17.5 Narrow-band disturbance.- 17.5.1 Quarter-car semi-active suspension.- 17.6 References.- 17.7 Problems.- Bibliography.- Index.","merchants_number":2,"ean":9783319722955,"category_id":103,"size":null,"min_price":101,"low_price_merchant_id":70255345,"ID":4749317,"merchants":["euniverse","weltbild"],"brand":"undefined","slug":"vibration-control-of-active-structures","url":"\/unterhaltung\/produkt\/vibration-control-of-active-structures\/","low_price_merchant_name":"eUniverse"}
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Advancement of Optical Methods & Digital Image Correlation in Experimental Mechanics, Volume 3
Chapter 1. Beyond the Airbrush: Applications of Digital Image Correlation in Vascular Biomechanics.- Chapter 2. A New Method of Fringe Pattern Analysis.- Chapter 3. A Review: Optical Methods that Evaluate Displacement Information (40-min).- Chapter 4. Measuring Spallation Strength of Epoxy by Laser Spallation Technique.- Chapter 5. Uncertainty Quantifications for Multiviewcorrelation.... zur Produkt-Seite
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