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Multiscale Biomechanics and Tribology of Inorganic and Organic Systems : In Memory of Professor Sergey Psakhie.

Bibliographic Details
Main Author: Ostermeyer, Georg-Peter.
Other Authors: Popov, Valentin L., Shilko, Evgeny V., Vasiljeva, Olga S.
Format: eBook
Language:English
Published: Cham : Springer International Publishing AG, 2020.
Edition:1st ed.
Series:Springer Tracts in Mechanical Engineering Series
Subjects:
Electronic books.
Online Access:Click to View
Table of Contents:
  • Intro
  • Preface
  • Acknowledgements
  • Contents
  • In Memory of Sergey G. Psakhie
  • 1 Scientific Biography of Professor Sergey Grigorievich Psakhie
  • 2 Georg-Peter Ostermeyer: Twenty Years of Friendship with Sergey Psakhie
  • 3 Valentin L. Popov: A Word of Sergey Psakhie
  • 4 Lev B. Zuev: From My Memories of Sergey G. Psakhie
  • 5 Valery V. Ruzhich: On the "Earthquake Vaccine" Project of Sergey Psakhie
  • 6 Most Important Publications of Prof. Sergey Grigorievich Psakhie
  • Biomechanical and Tribological Aspects of Orthopaedic Implants
  • 1 Introduction to Orthopaedic and Dental Implantable Devices
  • 2 Tribology of Total Hip Replacement
  • 2.1 Charnley Low Friction Arthroplasty
  • 2.2 Wear of Polyethylene-The Main Culprit of Aseptic Loosening
  • 3 Alternative Bearing Surfaces
  • 3.1 Cross-Linked Polyethylene
  • 3.2 Ceramic-on-Polyethylene Articulation
  • 3.3 Hard-on-Hard Articulations
  • 4 Bearing Materials in Total Knee Replacement
  • 5 Surface-Modified Bearing Materials
  • 6 Fretting Wear Damage of Total Joint Replacements
  • 6.1 Modular Connections of Hip Prostheses
  • 6.2 Stem-Cement Interface
  • 7 Tribocorrosion in Dental Implants
  • 8 Summary
  • References
  • A New Method for Seismically Safe Managing of Seismotectonic Deformations in Fault Zones
  • 1 Introduction
  • 2 Methodological Basis
  • 3 Geological Study of Exhumed Seismic Dislocations of Paleo-Earthquakes in the Southeastern Boundary of the Siberian Craton
  • 4 Features of the Response of Tectonic Fault Segments to Man-Caused Impacts
  • 5 Prospects for the Implementation of Controlled Impacts on Fault Segments Through Deep Wells
  • 6 Discussion
  • 7 Conclusion
  • References
  • Particle-Based Approach for Simulation of Nonlinear Material Behavior in Contact Zones
  • 1 Introduction
  • 2 Distinct Element Method with Deformable Elements.
  • 3 Principles of Implementation of Rheological Models
  • 4 Recent Applications of the Formalism of Deformable Elements
  • 4.1 Surface Adhesion as a Factor Controlling Regimes of Adhesive Wear
  • 4.2 Influence of Interstitial Fluid on the Sensitivity of the Femur to the Rate of Contact Loading
  • 5 Conclusion
  • References
  • A Tool for Studying the Mechanical Behavior of the Bone-Endoprosthesis System Based on Multi-scale Simulation
  • 1 Introduction
  • 2 State-of-the-Art
  • 3 The Problem Statement
  • 4 Description of the Modeling Method
  • 5 Results and Discussion
  • 5.1 Modeling Friction Pair of the Hip Resurfacing
  • 5.2 Modeling Bone-Endoprosthesis System
  • 5.3 Modeling of Biomaterials Based on Poroelastic Approach
  • 6 Conclusions and Future Work
  • References
  • Abstract Methods on Mesoscopic Scales of Friction
  • 1 Introduction
  • 2 Bottom-Up View
  • 3 Top-Down View
  • 4 Natural Principles of Dissipation of Information
  • 5 Conclusion and Discussion
  • References
  • Study of Dynamics of Block-Media in the Framework of Minimalistic Numerical Models
  • 1 Introduction
  • 2 Mechanical Model
  • 3 Statistical Properties of the Model
  • 4 Three-Dimensional System and Reduced Frontal Motion Model
  • 5 Correlation Functions
  • 6 Burridge-Knopoff (BK) Model
  • 7 Modified BK Model
  • 8 Attractor Properties, Wave State and Phase Transition in a 1-Dimensional Model
  • 9 Study of the 2-Dimensional Model
  • References
  • Material Transfer by Friction Stir Processing
  • 1 Introduction
  • 2 Influence of Process Parameters
  • 3 Adhesion-Cohesion Concept of Mass Transfer
  • 4 Influence of Load on the Transfer Layer
  • 5 Surface Topography and Roughness
  • 6 Conclusion
  • References
  • Nanomaterials Interaction with Cell Membranes: Computer Simulation Studies
  • 1 Introduction
  • 2 Nanoparticles
  • 2.1 Dendrimers and Dendritic Nanostructures.
  • 2.2 Abstractive Nanoparticles
  • 2.3 Metallic Nanoparticles
  • 3 One-Dimensional Nanomaterials
  • 3.1 Carbon Nanotubes
  • 3.2 Boron Nitride Nanotubes
  • 4 Two-Dimensional Nanomaterials
  • 4.1 Graphene
  • 4.2 Metal (Oxy)hydroxides
  • 5 Summary
  • References
  • Application of Crumpled Aluminum Hydroxide Nanostructures for Cancer Treatment
  • 1 Introduction to Low-Dimensional Aluminum (Hydro)oxides
  • 2 Synthesis of Aluminum Oxyhydroxide Low-Dimensional Nanostructures
  • 3 Anticancer Activity of Radially Assembled Al Hydroxide Crumpled Nanosheets
  • 3.1 Effect of Aloohene on Tumor Cells Viability and Proliferation in Vitro
  • 3.2 Evaluation of Antitumor Activity of Aloohene in Mouse Model of Cancer
  • 4 Summary
  • References
  • Influence of Lattice Curvature and Nanoscale Mesoscopic Structural States on the Wear Resistance and Fatigue Life of Austenitic Steel
  • 1 Introduction
  • 2 Gauge Dynamic Theory of Defects in the Heterogeneous Medium
  • 2.1 Basic Equations of the Gauge Theory
  • 2.2 Structural Turbulence at Severe Lattice Curvature
  • 3 Role of Lattice Curvature in the Mechanical Behavior of Austenitic Steel
  • 3.1 Influence of High-Temperature Radial Shear Rolling and Subsequent Smooth-Roll Cold Longitudinal Rolling on the Austenitic Steel Microstructure
  • 3.2 Fracture Surface in Uniaxial Tension of Austenitic Steel Specimens After Various Treatments
  • 3.3 Damping Effect in the Structure of Austenitic Steel After the Treatment by Radial Shear Rolling + Cold Rolling
  • 3.4 Influence of the Treatment by Radial Shear Rolling + Cold Rolling on the Development of Gigacycle Fatigue and Wear Resistance of Austenitic Steel
  • 4 Structural Turbulence and Gigacycle-Fatigue Processes in a Solid with Lattice Curvature.
  • 4.1 Structural Turbulence of Plastic Flow at Lattice Curvature and in the Presence of Nanoscale Mesoscopic Structural States at Its Curvature Interstices
  • 4.2 Influence of the Mechanism of Reversible Structural-Phase Transformations on Gigacycle Fatigue and Wear Resistance Increase in Austenitic Steel After Radial Shear and Cold Rolling
  • 5 Conclusions
  • References
  • Autowave Mechanics of Plastic Flow
  • 1 Introduction. General Consideration
  • 1.1 Experimental Technique
  • 1.2 Studied Materials
  • 1.3 Preliminary Results
  • 2 Deformation Pattern. Localized Plastic Flow Viewed as Autowaves
  • 2.1 Plastic Flow Stages and Localized Plasticity Patterns
  • 2.2 Localized Plastic Flow Autowaves
  • 2.3 Autowaves Observed for the Linear Work Hardening Stage
  • 2.4 Plastic Flow Viewed as Self-organization of the Deforming Medium
  • 2.5 Autowave Equations
  • 2.6 On the Relation of Autowave Equations to Dislocation Theory
  • 3 Elastic-Plastic Strain Invariant
  • 3.1 Introduction of Elastic-Plastic Strain Invariant
  • 3.2 Generalization of Elastic-Plastic Strain Invariant
  • 3.3 On the Strain Invariant and Autowave Equations
  • 3.4 Some Consequences of the Strain Invariant
  • 4 The Model of Localized Plastic Flow
  • 4.1 Plastic and Acoustic Characteristics of the Deforming Medium
  • 4.2 Two-Component Model of Localized Plasticity
  • 5 Plastic Flow Viewed as a Macroscopic Quantum Phenomenon
  • 5.1 Localized Plastic Flow Autowaves and the Planck Constant
  • 5.2 Introduction of a New Quasi-particle and Its Applications
  • 5.3 Plasticity Viewed as a Macro-scale Quantum Phenomenon
  • 6 Conclusions
  • References
  • Three-Component Wear-Resistant PEEK-Based Composites Filled with PTFE and MoS2: Composition Optimization, Structure Homogenization, and Self-lubricating Effect
  • 1 Introduction
  • 2 Materials and Methods
  • 3 Results and Discussion.
  • 3.1 Two-Component "PEEK + MoS2" Composites
  • 3.2 Two-Component "PEEK + PTFE" Composites
  • 3.3 Three-Component PEEK-Based Composites Filled with PTFE and MoS2
  • 4 Conclusions
  • References
  • Regularities of Structural Rearrangements in Single- and Bicrystals Near the Contact Zone
  • 1 Introduction
  • 2 Materials and Methods
  • 3 Features of Symmetric Tilt Grain Boundary Migration in Metals
  • 4 Peculiarities of Plasticity Nucleation in Metals Under Nanoindentation
  • References
  • Fault Sliding Modes-Governing, Evolution and Transformation
  • 1 Introduction
  • 2 Fault Slip Modes
  • 3 Localization of Deformations and Hierarchy of Faults
  • 4 Frictional Properties of Geomaterial and the Slip Mode
  • 5 Generating Different Slip Modes in Laboratory Experiments
  • 6 Radiation Efficiency of Slip Episodes
  • 7 On Artificial Transformation of the Slip Mode
  • 7.1 Changing the Fluid Dynamics
  • 7.2 Effect of Seismic Vibrations
  • 7.3 Excavation and Displacement of Rock in Mining
  • 8 Conclusion
  • References
  • Multilayer Modelling of Lubricated Contacts: A New Approach Based on a Potential Field Description
  • 1 Introduction and Model Assumptions
  • 2 Mathematical Formulation
  • 2.1 Field Equations for Newtonian Layer Types
  • 2.2 Field Equations for Viscoelastic Layer Types
  • 2.3 Boundary and Interface Conditions
  • 3 Methods of Solution
  • 3.1 Lubrication Approximation
  • 3.2 Finite Elements Approach
  • 3.3 Complex-Variable Approach with Spectral Solution Method
  • 4 Results
  • 4.1 Sinusoidal Upper Surface Shapes
  • 4.2 Inharmonic Periodic Upper Surface Profiles
  • 5 Conclusions and Perspectives
  • References
  • Microstructure-Based Computational Analysis of Deformation and Fracture in Composite and Coated Materials Across Multiple Spatial Scales
  • 1 Introduction
  • 2 Numerical Modelling Across Multiple Spatial Scales.
  • 3 Governing Equations and Boundary Conditions.

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