Engineering Research
Materials Science
Engineering Series
Books by Keyword: Structural Health Monitoring (SHM)
Books
This volume is a collection of peer-reviewed full text scientific papers presented at the International Conference on Mechanics of Masonry Structures Strengthened with Composite Materials (MuRiCo 7) held entirely online on November 24-26, 2021. The purpose of this collection is to provide a review of the latest achievements in the modeling, testing, design, control, and health monitoring of masonry structures strengthened with composite materials.
The aim of the special collection was to bring together the expertise of scientist and engineers from universities and industry in the field of Structural Health Monitoring, Non‐Destructive Evaluation, and Condition Monitoring. The study of damage detection, localization and assessment are important in the rapidly growing field of SHM. Due to interdisciplinary character of SHM systems, the contributions come from experts from area of mechanics, materials engineering, electronics, software engineering, and signal processing as well as system users from civil engineering, aviation, power plants, wind turbines, chemical plants, petrochemical plants and railways sectors. A significant part is dedicated to utilization of advanced measurement techniques, signal processing, and computation methods.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The Special collection consists of a compilation 159 papers on all research topics relevant to damage assessment of engineering structures and systems including numerical simulations, signal processing of sensor measurements, theoretical and experimental studies. Broad areas of damage assessment covered in the publication include applications to composite materials, civil infrastructure, mechanical devices and machineries, renewable energy, sensors, signal processing, structural health and condition monitoring.
The 200 papers are grouped as follows:
Chapter 1: Advanced Materials Engineering and Technology;
Chapter 2: Power System and Energy Engineering: Its Applications;
Chapter 3: Instrumentation, Measurement Technologies, Monitoring, Testing and Evaluation, Analysis and Methodology;
Chapter 4: Modern Control, Automation and Robotics;
Chapter 5: Design, Modelling Technology and Engineering;
Chapter 6: Manufacturing and Industrial Engineering, Management Applications;
Chapter 7: Technologies and Methods in Building, Civil and Structure Engineering;
Chapter 8: Signal Processing and Data Mining;
Chapter 9: Information Technologies and Networks;
Chapter 10: Related Topics.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The collection covers 54 peer reviewed papers covering up-to-date research results in structural health monitoring.
This volume covers a wide range of topics: Fracture Mechanics, Failure Analysis, Composites, Multiscale Modeling, Micromechanics, Structural Health Monitoring, Damage Tolerance, Corrosion, Creep, Non-Linear Problems, Dynamic Fracture, Residual Stress, Environmental Effects, Crack Propagation, Metallic and Concrete Materials, Probabilistic Aspects, Computer Modeling Methods (Finite Element, Boundary Element and Meshless), Microstructural and Multiscale Aspects.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The papers are conveniently arranged into: Chapter 1: Smart Materials, Sensors, Actuators, MEMS, Chapter 2: Integration Technologies, Chapter 3: Smart Structures and Integrated Systems, Chapter 4: Structural Health Monitoring and Control.
Volume is indexed by Thomson Reuters CPCI-S (WoS).
The 67 peer-reviewed papers are grouped into 3 chapters:
Intelligent Transportation Technique;
Bridge Monitoring, Safety and Maintenance;
Advanced Techniques in Road Engineering and Materials Science.
The aim of this special collection is to bring together the expertise of scientists and engineers from universities and industry who work in the fields of Structural Health Monitoring, Non-Destructive Evaluation and Condition Monitoring. Networking between diagnostic systems designers and system users is crucial to the successful operation of many SHM systems. The study of damage detection, localization and assessment are important to the rapidly growing area of SHM.