Mechanical Properties of Materials from Nano to Micro/Meso-Scale

Preface, Committees and Sponsors
Chapter 1: Research of Mechanical Properties by Nanoindentation Technique
Residual Stresses and Energies in Elastic-Plastic Materials after Concentrated Contact
Pile-Up Correction of Mechanical Characteristics of Individual Phases in Various Steel by Depth Sensing Indentation
Anisotropic Mechanical Properties of Pure Magnesium Analyzed by In Situ Nanoindentation
Local Mechanical Properties of Cu-Co Alloys with Coherent Co Precipitates
Nanoindentation in Metallic Glasses with Different Plasticity
Nanoindentation Study of the Influence of the Loading Rate on the Deformation of Metallic Glasses
Relationship between Indenter Calibration and Measured Mechanical Properties of Elastic-Plastic Materials
Investigation of Indentation Parameters Near the Interface between Two Materials
Influence of Hydrogen Content on Microstructure and Mechanical Properties of Zr1Nb Fuel Cladding after High-Temperature Oxidation
Influence of Plasma Treatment on the Surface Properties and Strength of Bonded Joints at Selected Polyolefins
Combined Indentation Testing of Spark Plasma Sintered Steels
Fracture Process in a Fine-Grained Cement-Based Composite Monitored with Nanoindentation and Acoustic Emission
Strain Mapping of Indented Zr-Based Bulk Metallic Glass Using Nano-Diffraction
Influence of Microstructure on Tribological Properties and Nanohardness of Silicon Carbide Ceramics
Local Mechanical Characterization of Metal Foams by Nanoindentation
Chapter 2: Mathematical Simulation and Modelling
Finite Element Analysis of Elastic-Plastic Concentrated Contact
Plastic Zone around a Fatigue Crack Determined by the FEM and a Nanoindentation Technique
Mechanical Properties Determination of Unknown and 10Ch2MFA Steel Based on Non-Destructive Instrumented Hardness Test
Particulate Composite Damage: The Influence of Particle Shape on Crack Path
Modelling and Analysis of Reinforced Concrete Beams
Chapter 3: Films and Coatings Engineering
Characterization of Sputter-Deposited NiTi Thin Film by Nanoindentation
Study of the Mechanical Properties of Single-Layered and Bilayered CoCrFeSi Ribbons Using Quasistatic and Dynamic Nanoindentation Tests
Effect of Nitrogen Content on the Mechanical Properties of Amorphous SiCN Films
Mechanical and Tribological Properties of HiPIMS and HiTUS W-C Based Coatings
Cracking in Brittle Coatings during Nanoindentation
Nanohardness of DC Magnetron Sputtered W – C Coatings as a Function of Composition and Residual Stresses
High Temperature Resistance of Selected HVOF Coatings
Deterioration of Local Mechanical Properties of HVOF-Sprayed Stellite 6 after Exposure to High-Temperature Corrosion
Utilization of Acoustic Emission in Scratch Test Evaluation
Influence of Hot Corrosion on Local Mechanical Properties of HVOF Sprayed Coating Based on NiCrBSi Alloy
Chapter 4: Mechanical Properties of Biomaterials
Mapping of Local Changes of Mechanical Properties in Trabecular Interconnections
Comparison of Micromechanical Parameters of Different Dental Implants Using Nanoindentation
Micromechanical Properties of Biocompatible Materials for Bone Tissue Engineering Produced by Direct 3D Printing
Local Mechanical Properties of Highly Porous Si3N4 for Trabecular Bone Replacement
Wear and Mechanical Properties of Various Bone Cements – Influence of Saline Environment
The Effect of the Cortical Bone Thickness on the Stress Distribution in Dental Implants by FEM
The Effect of Graded Structure of Sintered Iron-Manganese Biomaterials on the Range and Distribution of Local Hardness Values
Chapter 5: Mechanical Properties of Materials in Micro- and Meso-Scales
Barrage Lock Concrete Porosity Evaluation Using X-Ray Microtomography
Scratch Resistance of the Si3N4-Graphene Nanoplatelets Composites
Estimation of the Plastic Zone Size from the Multi-Parameter/Generalized Form of Fracture Criteria on Various Mode I Geometries
Estimation of Local Plastic Deformation in Cutting Zone during Turning
Surface Layer Micro-Hardness of Modified LDPE by Radiation Cross-Linking after Temperature Load
Hardness/Microhardness Properties of HDPE Blends
Effect of High Doses Beta Irradiation on the Micromechanical Properties of Surface Layer of Glass-Filled Polypropylene
Micro-Indentation Test and Morphology of Electron Beam Irradiated HDPE
The Use of a 3D Scanner for Evaluating the Morphology of a Sandblasted Concrete Surface
Correlation between Hardness and Fatigue Properties
Fatigue Strength and Damage Mechanisms of Laser Welded Structural Carbon Steel Sheets
Mechanical Joining of Various Materials by Clinching Method
Local Notch Toughness of Slab Surface Zone in ULC/IF and HSLA Steels
Non-Destructive Analysis of Surfaces after Hard Milling Based on Barkhausen Noise Technique
Influence of Nanoparticle Size on Strain at the Core-Shell Interface
Generation of Nanoscale Stripes at Failure of Amorphous Metals
The Behaviour of Recycled Material with Particles of Various Sizes of Polyamide 6 to Micro Hardness
Evaluation of Influence of Carbon Nanotubes on the Mechanical Properties and Morphology of the Thermoplastic Polymer Matrix
Comparison of the Results of Creep and Micro-Indentation Creep to Irradiated HDPE
Local Strengthening of EN AC-44200 Al Alloy with Ceramic Fibers
Behavior of Glued Connections under Shear Loading
Experimental Verification of the Effective Thickness of Laminated Glass
Determination of Mechanical Properties of Non-Conventional Reinforcement
Evaluation of Material Parameters of Multiphase Materials Using Drift Distortion Corrected SEM Imaging
Short Overview of the Effects of Nanoparticles on Mechanical Properties of Concrete
The Effect of Technology on Micromechanical Properties of Rubber