Multiscale Modeling and Uncertainty Quantification of Materials and Structures: Proceedings of the IUTAM Symposium held at Santorini, Greece, September 9-11, 2013.
Editat de Manolis Papadrakakis, George Stefanouen Limba Engleză Hardback – 3 aug 2014
Over the last few years, the intense research activity at micro scale and nano scale reflected the need to account for disparate levels of uncertainty from various sources and across scales. As even over-refined deterministic approaches are not able to account for this issue, an efficient blending of stochastic and multiscale methodologies is required to provide a rational framework for the analysis and design of materials and structures. The purpose of this IUTAM Symposium was to promote achievements in uncertainty quantification combined with multiscale modeling and to encourage research and development in this growing field with the aim of improving the safety and reliability of engineered materials and structures.
Special emphasis was placed on multiscale material modeling and simulation as well as on the multiscale analysis and uncertainty quantification of fracture mechanics of heterogeneous media. The homogenization of two-phase random media was also thoroughly examined in several presentations. Various topics of multiscale stochastic mechanics, such as identification of material models, scale coupling, modeling of random microstructures, analysis of CNT-reinforced composites and stochastic finite elements, have been analyzed and discussed. A large number of papers were finally devoted to innovative methods in stochastic dynamics.
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Specificații
ISBN-13: 9783319063300
ISBN-10: 3319063308
Pagini: 316
Ilustrații: IX, 306 p. 157 illus., 64 illus. in color.
Dimensiuni: 155 x 235 x 23 mm
Greutate: 0.62 kg
Ediția:2014
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland
ISBN-10: 3319063308
Pagini: 316
Ilustrații: IX, 306 p. 157 illus., 64 illus. in color.
Dimensiuni: 155 x 235 x 23 mm
Greutate: 0.62 kg
Ediția:2014
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland
Public țintă
ResearchCuprins
Preface
Part I Damage and Fracture
Fracture Simulations of Concrete Using Discrete Meso-level Model with Random Fluctuations of Material Parameters
Sequentially Linear Analysis of Structures with Stochastic Material Properties
Part II Homogenization
A Coupling Method for the Homogenization of Stochastic Structural Models
Adaptive Strategy for Stochastic Homogenization and Multiscale Stochastic Stress Analysis
Strength Properties of Porous Materials Influenced by Shape and Arrangement of Pores - A DLO Investigation Towards Material Design
Homogenization of Random Heterogeneous Media with Inclusions of Arbitrary Shape
Part III Inverse Problems–Identification
Using Experimentally Determined Resonant Behaviour to Estimate the Design Parameter Variability of Thermoplastic Honeycomb Sandwich Structures
Identification of a Mesoscale Model with Multiscale Experimental Observations
Part IV Multiscale Stochastic Mechanics
Stochastic Multiscale Coupling of Inelastic Processes in Solid Mechanics
A Note on Scale-Coupling Mechanics
Statistical Volume Elements for Metal Foams Stochastic Characterisation of the In-Plane Tow Centroid in Textile Composites to Quantify the Multi-Scale Variation in Geometry
A Variability Response-Based Adaptive SSFEM
Monte Carlo Simulation vs. Polynomial Chaos in Structural Analysis: A Numerical Performance Study
Effects of POD-Based Components of Turbulent Wind on the Aeroelastic Stability of Long Span Bridges
Part V Stochastic Dynamics
PDEM-Based Response Analysis of Nonlinear Systems with Double Uncertainties
The Probabilistic Solutions of the Cantilever Excited by Lateral and Axial Excitations Being Gaussian White Noise
Dynamic Response Variability of General FE-Systems
Stochastic Models of Defects in Wind Turbine Drivetrain Components
Stochastic FEM to Structural Vibration with Parametric Uncertainty
Part I Damage and Fracture
Fracture Simulations of Concrete Using Discrete Meso-level Model with Random Fluctuations of Material Parameters
Sequentially Linear Analysis of Structures with Stochastic Material Properties
Part II Homogenization
A Coupling Method for the Homogenization of Stochastic Structural Models
Adaptive Strategy for Stochastic Homogenization and Multiscale Stochastic Stress Analysis
Strength Properties of Porous Materials Influenced by Shape and Arrangement of Pores - A DLO Investigation Towards Material Design
Homogenization of Random Heterogeneous Media with Inclusions of Arbitrary Shape
Part III Inverse Problems–Identification
Using Experimentally Determined Resonant Behaviour to Estimate the Design Parameter Variability of Thermoplastic Honeycomb Sandwich Structures
Identification of a Mesoscale Model with Multiscale Experimental Observations
Part IV Multiscale Stochastic Mechanics
Stochastic Multiscale Coupling of Inelastic Processes in Solid Mechanics
A Note on Scale-Coupling Mechanics
Statistical Volume Elements for Metal Foams Stochastic Characterisation of the In-Plane Tow Centroid in Textile Composites to Quantify the Multi-Scale Variation in Geometry
A Variability Response-Based Adaptive SSFEM
Monte Carlo Simulation vs. Polynomial Chaos in Structural Analysis: A Numerical Performance Study
Effects of POD-Based Components of Turbulent Wind on the Aeroelastic Stability of Long Span Bridges
Part V Stochastic Dynamics
PDEM-Based Response Analysis of Nonlinear Systems with Double Uncertainties
The Probabilistic Solutions of the Cantilever Excited by Lateral and Axial Excitations Being Gaussian White Noise
Dynamic Response Variability of General FE-Systems
Stochastic Models of Defects in Wind Turbine Drivetrain Components
Stochastic FEM to Structural Vibration with Parametric Uncertainty
Textul de pe ultima copertă
This book contains the proceedings of the IUTAM Symposium on Multiscale Modeling and Uncertainty Quantification of Materials and Structures that was held at Santorini, Greece, September 9 – 11, 2013. It consists of 20 chapters which are divided in five thematic topics: Damage and fracture, homogenization, inverse problems–identification, multiscale stochastic mechanics and stochastic dynamics.
Over the last few years, the intense research activity at microscale and nanoscale reflected the need to account for disparate levels of uncertainty from various sources and across scales. As even over-refined deterministic approaches are not able to account for this issue, an efficient blending of stochastic and multiscale methodologies is required to provide a rational framework for the analysis and design of materials and structures. The purpose of this IUTAM Symposium was to promote achievements in uncertainty quantification combined with multiscale modeling and to encourage research and development in this growing field with the aim of improving the safety and reliability of engineered materials and structures.
Special emphasis was placed on multiscale material modeling and simulation as well as on the multiscale analysis and uncertainty quantification of fracture mechanics of heterogeneous media. The homogenization of two-phase random media was also thoroughly examined in several presentations. Various topics of multiscale stochastic mechanics, such as identification of material models, scale coupling, modeling of random microstructures, analysis of CNT-reinforced composites and stochastic finite elements, have been analyzed and discussed. A large number of papers were finally devoted to innovative methods in stochastic dynamics.
Over the last few years, the intense research activity at microscale and nanoscale reflected the need to account for disparate levels of uncertainty from various sources and across scales. As even over-refined deterministic approaches are not able to account for this issue, an efficient blending of stochastic and multiscale methodologies is required to provide a rational framework for the analysis and design of materials and structures. The purpose of this IUTAM Symposium was to promote achievements in uncertainty quantification combined with multiscale modeling and to encourage research and development in this growing field with the aim of improving the safety and reliability of engineered materials and structures.
Special emphasis was placed on multiscale material modeling and simulation as well as on the multiscale analysis and uncertainty quantification of fracture mechanics of heterogeneous media. The homogenization of two-phase random media was also thoroughly examined in several presentations. Various topics of multiscale stochastic mechanics, such as identification of material models, scale coupling, modeling of random microstructures, analysis of CNT-reinforced composites and stochastic finite elements, have been analyzed and discussed. A large number of papers were finally devoted to innovative methods in stochastic dynamics.
Caracteristici
State-of-the-art material on multiscale modeling and uncertainty quantification
Connection to real-world applications through several numerical examples
Papers by leading experts in the field
Includes supplementary material: sn.pub/extras
Connection to real-world applications through several numerical examples
Papers by leading experts in the field
Includes supplementary material: sn.pub/extras