Vibration Engineering and Technology of Machinery, Volume I: Select Proceedings of VETOMAC XVI 2021: Mechanisms and Machine Science, cartea 137
Editat de Rajiv Tiwari, Y. S. Ram Mohan, Ashish K. Darpe, V. Arun Kumar, Mayank Tiwarien Limba Engleză Hardback – 13 dec 2023
Din seria Mechanisms and Machine Science
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Specificații
ISBN-13: 9789819947201
ISBN-10: 9819947200
Pagini: 604
Ilustrații: XVI, 604 p. 346 illus., 220 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 1.18 kg
Ediția:1st ed. 2023
Editura: Springer Nature Singapore
Colecția Springer
Seria Mechanisms and Machine Science
Locul publicării:Singapore, Singapore
ISBN-10: 9819947200
Pagini: 604
Ilustrații: XVI, 604 p. 346 illus., 220 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 1.18 kg
Ediția:1st ed. 2023
Editura: Springer Nature Singapore
Colecția Springer
Seria Mechanisms and Machine Science
Locul publicării:Singapore, Singapore
Cuprins
Identification in a Magnetically Levitated Rigid Rotor System Integrated with Misaligned Sensors and Active Magnetic Bearings.- Thermo-Elastic Bending and Buckling Behavior of Functionally Graded Shafts with Various Grading Patterns.- Modeling and Analysis of Low-Pressure Steam Turbine Blade.- Enhanced energy harvesting application of Piezoceramics (PZT) in MEMS Devices.- Diesel Locomotive Alternator Bearing Damage Detection by Adopting Comprehensive Condition Monitoring Techniques.- Response Analysis of Inclined Edge Cracked Beam Under Moving Mass.- Non-Stationary Response of a Bridge Due to Moving Vehicle with Random Arrival Rate.- Multiclass Fault Diagnosis and Novelty Detection of Induction Motor Using Deep Learning Algorithm Based on Frequency Domain Signal.- Modelling and Analysis of Active Magnetic Bearing Integrated Reaction Wheels for Satellite Applications.- Single Plane Balancing of Rotor-AMB System using Virtual Trial Unbalances.- Comparison of Linear and Non-Linear Feedforward Algorithms to Control Chaotic and Impulsive Noise.- Effect of Thermo-Mechanical Coupling and Large Deformation on the Response of SMA Structures.- Performance Enhancement of Bistable Energy Harvester with Asymmetric Potential Function using an Elastic Magnifier.- Vibration Reduction in Ambulance using Modified Stretcher with Vibration Absorber.- Simulation Studies of Low Velocity Impact Damage in FRPS.- Experimental Identification of Unbalance and Crack Parameters in an Internally Damped Rotor System Integrated with an Active Magnetic Bearing.- Vibration Response Prediction in Rotor Systems with External Damping by Deep Learning using Geometrical Features.- Effect of Bluff Body on the Performance of Flutter Based Energy Harvester.- A Systematic Review of Rotor Unbalance Diagnosis in Rotating Machinery Based on Machine Learning Algorithms.- Tuning of PID Parameters for Misaligned Rotor Bearing System.- Machine Learning based Fault Prediction of Electromechanical System with Currentand Vibration Signals.- Identifying Condition Indicators for Artificially Intelligent Fault Classification in Rolling Element Bearings.- Influence of Local Surface Cracks on Dynamic Parameters of Multi-Span Beam.- Crack Detection in A Shaft Using Wavelet Packet Transform.- Design and Modeling of Piezoresistive MEMS Accelerometer for Crash Test Application.- Classification of Orbits of Rotor Supported nn Squeeze Film Damper by Supervised Learning Method.- Free Vibration Response of Three Dimensional Braided Reinforced Composite Conoidal Shell Using Third-Order Shear Deformation Theory.- The Behavior of Iron Nanopowder and Micron-Sized Flake-Shaped Carbonyl Iron Magnetic Fluid Under Creep and Recovery, Oscillatory, and Frequency Sweep Modes.- A Dynamic Model for Polymer Draft Gears.- .- Modelling and Dynamic Analysis of Viscoelastic Tapered Laminated Composite Beam.- Analysis of Limiting Load Capacity and Stiffness Coefficients of Porous-Bump-Recess Foil Journal Bearing.- Limiting LoadCapacity and Stiffness Coefficients of Bump Recess Foil Journal Bearing with FGM.- Modal Analysis of Three-Dimensional Braided Composite Reinforced Twisted Spherical Shell Using 3D Finite Element Method.- Dynamic Analysis of Flexible Joint and Single Flexible Link Manipulator by Using Finite Element Analysis.- Prediction of Fatigue Crack Growth Behavior Under Cold-TURBISTAN Spectrum Loads Using Variable Crack Closure Approach in GRM 720 Nickel Base Super Alloy.- Optimization of Active Vibration Absorber by Acceleration Feedback using Fixed Point Theory and Genetic Algorithm.- Study of Time Varying Oil Film Damping and Contact Stiffness of Ball Bearings.- Static and Vibration Response Analysis of PZT-5a/Pt Based Smart Functionally Graded (SFG) Plate Subjected to Electromechanical Loading.- Influence of Squeeze Film Damper on the Rub-Impact Response of a Dual-Rotor Model.- Delamination Damage Detection in a Composite Beam using Discrete Wavelet Transform.- Effect of Input Torque on the Modulation Sidebands of Planetary Gears in a Wind Turbine Gearbox under Gravity Excitations.- Stochastic Identification of Damped Beams using Frequency Response Function Data.- Study of Vibration and Wear Debris Damage Detection Methods for Mild Wear in Spur Gear System.- Transient Rotor Dynamics Behaviour of Shrink Fitted Overhung Rotor.- Fault Diagnosis of Gear with Multiple Defects in Planetary Gearbox.- Vibration Analysis of Turbine Blade using Finite Element Method.- Analytical Prediction of the Jet Force in Pelton Turbine.- Intelligent Fault Detection scheme for Rolling Bearing based on Generative Adversarial Network and Auto-Encoders using Convolutional Neural Network.- Sparse Frequency Representation using Autocorrelation of Variational Mode Functions to Detect Compound Fault in Rotating Machines.- Estimation of Theoretical and Experimental Natural Frequencies of Rotating Shafts.- Steady State Non-Linear Forced Vibrational Response of Laminated Sectorial Plates.- Data Driven Modeling and Control of Delivery Drone.- Fault Diagnosis in a Motor Under Variable Speed Conditions: A Survey.- Stability of Cage in Bearings of Reaction Wheels for Satellite Application: A Critical Review.- Fatigue Life Estimation of Pelton Turbine Using Local Strain Approach.- Rotor Crack Depth Estimation using Recurrence Quantification Analysis.- Identification of Dominant Source of Vibration in Geared Rotors using Full Spectrum Analysis.- Influence of Geometric Parameters on the Dynamic Performance of Spiral Bevel Gear.- Finite Element Modelling and Dynamic Stability Analysis of a Functionally Graded Rotor Shaft-Bearing System.- Moment Independent Sensitivity Analysis of Porous Functionally Graded Plates Subjected to Free Vibrations.- Effect of Misalignment in a Geared Rotor System Integrated with Active Magnetic Bearings.- Coupled Vibration Suppression and Energy Harvesting System from Laminated Composite Structure.- Development of Flexible Rotor Balancing Procedure using Response Matching Technique.- Vibration Control and Energy Harvesting Using Coupled Pendulum Absorbers.- Spindle Bearing Vibration Characteristics of Surface Grinding Machine Tool.- Fault Prediction in Induction Motor using Artificial Neural Network Algorithms.- Novel Method for Selective &Controlled Online Mass Removal using Laser Beam for in-Situ Balancing of Flexible Rotor Bearing System.- Optimum Design of Intershaft Squeeze Film Damper (ISSFD) Ring for Vibration Attenuation.- Friction Analysis of an Unbalanced Disk with Recurrence Plot by Using Simpson.- Integration and Empirical Mode Decomposition.- Improving Wideband Sound Absorption of Single Layer Micro-Perforated Panel.- Absorber: A Finite Element and Experimental Approach.- Influence of Auxetic Structure Parameters on Dynamic Impact Energy Absorption .- Vibration Analysis of Functionally Graded Folded Plate.- Mitigation of Plate Vibrations Using Inerter Based Vibration Absorber.- Updation of Structural Dynamic Response Simulation usingMeasured Data for a Typical Naval Aircraft Arrested Landing.- Damage due to Stress Wave Propagation in Composite Fan Blades of Aircraft Engine Subjected to Bird Strike Loading.- Vibration and Stability Response of Laminated Composite Panels with Elliptical Cutout under Hygrothermal Conditions.
Notă biografică
Dr. Rajiv Tiwari is currently Professor in the Department of Mechanical Engineering, Indian Institute of Technology Guwahati since 1997. He worked in Regional Engineering College, Hamirpur (Himachal Pradesh), India, for a year during 1996–1997. He completed his Ph.D. from IIT Kanpur in the area of Rotor Dynamics in 1997. He worked as Research Officer for one year in 2001 in University of Wales, Swansea, UK, and as DAAD Fellow in Technical University of Darmstadt Germany in 2011 for two months. Dr. Rajiv Tiwari works in the area of rotor dynamics and design of rolling bearings. He has more than 250 papers in international journals and conferences. He has successfully organised national and international conferences and short-term courses in the area of vibrations and rotor dynamics.
Dr. Rammohan Y S is currently Professor and Head of Aerospace Engineering Department at B. M. S. College of Engineering, Bengaluru, India. Before this he served as Professor in the Department of Mechanical Engineering at B. M. S. College of Engineering for over 25 years. He obtained his B.E. (Mechanical) and M.Tech. (Machine Design) from B. M. S. College of Engineering and Ph.D. from the Aerospace Department of Indian Institute of Technology-Madras, Chennai. His research areas of interests are fretting fatigue, finite element methods, composite materials, and functionally graded materials. He has published over 20 research papers in reputed international journals and proceedings. He was the reviewer for journals from ASME, Elsevier-Materials Today, and others. Prof. Ashish K Darpe is Postgraduate in Machine Design from Visvesvaraya National Institute of Technology, Nagpur. He did his doctoral research at the Indian Institute of Technology Delhi in the area of rotor dynamics. He is currently Professor in the Department of Mechanical Engineering, IIT Delhi. His research interests include NVH, rotor dynamics, condition monitoring, vibration, and noise control.
Dr. Ashish K Darpe is currently working as Professor of Mechanical Engineering at IIT Delhi. He obtained his Ph.D. in the area of Rotor Dynamics at IIT Delhi. He has been pursuing his research interests in the area of vibrations, rotor dynamics, machinery fault diagnosis and prognosis and noise control. He has published over 111 research articles and has supervised 12 Ph.D. theses. He has been the project investigator for various R&D and consultancy projects funded by defence R&D labs, private industry, and government funding agencies.
Dr. V. Arun Kumar, currently working as Chief Technology Menor, at Dheya Technologies Ltd., Bengaluru, and as Adjunct Professor in BMS College of Engineering, Bengaluru, has obtained his B.E. Mechanical Engineering, from Bangalore University, M.Sc. Engg. from Madras University, and Ph.D. from IIT, Madras. He worked in Propulsion Division, National Aerospace Laboratories for 34 years and retired as Director Grade Scientist / Head, Propulsion Division. His major areas of research interests include vibration reduction in rotating machineries, advanced bearing/dampers systems, etc. He has to his credits ten patents granted (another five under processing) and over 100 publications. He has received National Design award from NDRF in Mechanical Engineering and Biren Roy award from Aeronautical Society of India, apart from outstanding performance award from NAL.
Dr. Mayank Tiwari is currently Professor in the Department of Mechanical Engineering, Indian Institute of Technology Patna, since 2013. He worked in General Electric from 2001 to 2013 in the Global Research and Development Division and the Aviation Division in the John F Welch Technology Centre Bengaluru. He completed his Ph.D. from IIT Delhi in the area of nonlinear Rotor Dynamics in 1998 after which he worked as Postdoctoral Fellow in the Acoustic and Dynamics Laboratory of the Ohio State University USA. Dr. Mayank Tiwari works in the area of rotor dynamics and tribology. He has more than 30 papers in international journals and patents in USA, France, and India in the area of vacuum tribology, X-ray tube rotors, wind turbine gear box. Dr. Mayank Tiwari also has 2 design registrations in the India Patent Office.
Dr. Rammohan Y S is currently Professor and Head of Aerospace Engineering Department at B. M. S. College of Engineering, Bengaluru, India. Before this he served as Professor in the Department of Mechanical Engineering at B. M. S. College of Engineering for over 25 years. He obtained his B.E. (Mechanical) and M.Tech. (Machine Design) from B. M. S. College of Engineering and Ph.D. from the Aerospace Department of Indian Institute of Technology-Madras, Chennai. His research areas of interests are fretting fatigue, finite element methods, composite materials, and functionally graded materials. He has published over 20 research papers in reputed international journals and proceedings. He was the reviewer for journals from ASME, Elsevier-Materials Today, and others. Prof. Ashish K Darpe is Postgraduate in Machine Design from Visvesvaraya National Institute of Technology, Nagpur. He did his doctoral research at the Indian Institute of Technology Delhi in the area of rotor dynamics. He is currently Professor in the Department of Mechanical Engineering, IIT Delhi. His research interests include NVH, rotor dynamics, condition monitoring, vibration, and noise control.
Dr. Ashish K Darpe is currently working as Professor of Mechanical Engineering at IIT Delhi. He obtained his Ph.D. in the area of Rotor Dynamics at IIT Delhi. He has been pursuing his research interests in the area of vibrations, rotor dynamics, machinery fault diagnosis and prognosis and noise control. He has published over 111 research articles and has supervised 12 Ph.D. theses. He has been the project investigator for various R&D and consultancy projects funded by defence R&D labs, private industry, and government funding agencies.
Dr. V. Arun Kumar, currently working as Chief Technology Menor, at Dheya Technologies Ltd., Bengaluru, and as Adjunct Professor in BMS College of Engineering, Bengaluru, has obtained his B.E. Mechanical Engineering, from Bangalore University, M.Sc. Engg. from Madras University, and Ph.D. from IIT, Madras. He worked in Propulsion Division, National Aerospace Laboratories for 34 years and retired as Director Grade Scientist / Head, Propulsion Division. His major areas of research interests include vibration reduction in rotating machineries, advanced bearing/dampers systems, etc. He has to his credits ten patents granted (another five under processing) and over 100 publications. He has received National Design award from NDRF in Mechanical Engineering and Biren Roy award from Aeronautical Society of India, apart from outstanding performance award from NAL.
Dr. Mayank Tiwari is currently Professor in the Department of Mechanical Engineering, Indian Institute of Technology Patna, since 2013. He worked in General Electric from 2001 to 2013 in the Global Research and Development Division and the Aviation Division in the John F Welch Technology Centre Bengaluru. He completed his Ph.D. from IIT Delhi in the area of nonlinear Rotor Dynamics in 1998 after which he worked as Postdoctoral Fellow in the Acoustic and Dynamics Laboratory of the Ohio State University USA. Dr. Mayank Tiwari works in the area of rotor dynamics and tribology. He has more than 30 papers in international journals and patents in USA, France, and India in the area of vacuum tribology, X-ray tube rotors, wind turbine gear box. Dr. Mayank Tiwari also has 2 design registrations in the India Patent Office.
Textul de pe ultima copertă
This book presents the proceedings of the XVI International Conference on Vibration Engineering and Technology of Machinery (VETOMAC 2021). It gathers the latest advances, innovations, and applications in the field of vibration and technology of machinery. Topics include concepts and methods in dynamics, dynamics of mechanical and structural systems, dynamics and control, condition monitoring, machinery and structural dynamics, rotor dynamics, experimental techniques, finite element model updating, industrial case studies, vibration control and energy harvesting, and MEMS. The contributions, which were selected through a rigorous international peer-review process, share exciting ideas that will spur novel research directions and foster new multidisciplinary collaborations. The book is useful for the researchers, engineers and professionals working in the area of vibration engineering and technology of machinery.
Caracteristici
Written by leading experts in the field Presents recent trends in machinery vibration and technology including industrial case studies Offers essential insights into a wide range of topics