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Fatigue Design of Lattice Materials via Computational Mechanics: Application to Lattices with Smooth Transitions in Cell Geometry   [0100] 
Shape Optimization of Stress Concentration Free Lattice for Self-Expandable Nitinol Stent-Grafts   [0100] 
Finite Element Modelling of Primary Hip Stem Stability: The Effect of Interference Fit   [0100] 
Early Failure of a Press-Fit Carbon Fiber Hip Prosthesis with a Smooth Surface   [0100] 
Size Effects in Ductile Cellular Solids. Part li: Experimental Results   [0100] 
The Effect of the Density-Modulus Relationship Selected to Apply Material Properties in a Finite Element Model of Long Bone   [0100] 
Comparison of an Inhomogeneous Orthotropic and Isotropic Material Models Used for FE analyses   [0100] 
Endurance Testing of Hip Prostheses: A Comparison Between the Load Fixed in ISO 7206 Standard and the Physiological Loads   [0100] 
Numerical Investigations of Stress Shielding in Total Hip Prostheses   [0100] 
Generating Optimal Topologies in Structural Design Using a Homogenization Method   [0100] 
Topology Optimization: Theory, Methods, and Applications   [0100] 
Virtual Prototyping & Bio Manufacturing in Medical Applications   [0100] 
Characteristics of Bone Ingrowth and Interface Mechanics of a New Porous Tantalum Biomaterial   [0100] 
Clinical Validation of a Structural Porous Tantalum Biomaterial for Adult Reconstruction   [0100] 
Comparison of Different Hip Prosthesis Shapes Considering Micro-Level Bone Remodeling and Stress-Shielding Criteria Using Three-Dimensional Design Space Topology Optimization   [0100] 
Three-Dimensional Micro-Level Computational Study of Wolffs Law Via Trabecular Bone Remodeling in the Human Proximal Femur Using Design Space Topology Optimization   [0100] 
Biologic Fixation of Total Hip Implants: Insights Gained from a Series of Canine Studies   [0100] 
Relationships Between Loading History and Femoral Cancellous Bone Architecture   [0100] 
Development of a Tissue Engineering Scaffold Structure Library for Rapid Prototyping. Part 2: Parametric Library and Assembly Program   [0100] 
Development of a Tissue Engineering Scaffold Structure Library for Rapid Prototyping. Part 1: Investigation and Classification   [0100] 
Fracture Analysis of Cellular Materials: A Strain Gradient Model   [0100] 
Mechanics of Cellular and Other Low-Density Materials   [0100] 
Mechanical and In Vivo Performance of Hydroxyapatite Implants with Controlled Architectures   [0100] 
A Hierarchical Model for Concurrent Material and Topology Optimisation of Three-Dimensional Structures   [0100] 
Parallel Computing Techniques Applied to the Simultaneous Design of Structure and Material   [0100] 
The Compressive and Shear Responses of Corrugated and Diamond Lattice Materials   [0100] 
Shear Fatigue Strength of a Prismatic Diamond Sandwich Core   [0100] 
Fatigue Performance of Sandwich Beams with a Pyramidal Core   [0100] 
A Fast and Elitist Multiobjective Genetic Algorithm: NSGA-II   [0100] 
Solutions to Shape and Topology Eigenvalue Optimization Problems Using a Homogenization Method   [0100] 
Study of a Boundary Layer Problem in Elastic Composite Materials   [0100] 
Computer-Aided Characterization for Effective Mechanical Properties of Porous Tissue Scaffolds   [0100] 
Topological Optimization in Hip Prosthesis Design   [0100] 
A Multi-Level Computational Model for Multi-Scale Damage Analysis in Composite and Porous Materials   [0100] 
Cellular Solids: Structure and Properties   [0100] 
Biomechanics of Cellular Solids   [0100] 
New Femoral Designs Do They Influence Stress Shielding   [0100] 
Multiscale Modeling of Bone Tissue with Surface and Permeability Control   [0100] 
Long Term Follow up of Metal on Metal Total Hip Replacement   [0100] 
Preprocessing and Postprocessing for Materials Based on the Homogenization Method with Adaptive Finite Element Method   [0100] 
Direct Metal Fabrication of Titanium Implants with Tailored Materials and Mechanical Properties using Electron Beam Melting Technology   [0100] 
Effect of Flexibility of the Femoral Stem on Bone-Remodeling and Fixation of the Stem in a Canine Total Hip Arthroplasty Model without Cement   [0100] 
A Direct Method to Derive the Boundary Conditions of the Homogenization Equation for Symmetric Cells   [0100] 
A Review of Homogenization and Topology Optimization I--Homogenization Theory for Media with Periodic Structure   [0100] 
A Review of Homogenization and Topology Opimization li--Analytical and Numerical Solution of Homogenization Equations   [0100] 
A Review of Homogenization and Topology Optimization I I I--Topology Optimization Using Optimality Criteria   [0100] 
A Method for Shape Optimization of a Hip Prosthesis to Maximize the Fatigue Life of the Cement   [0100] 
Improved Design of Cementless Hip Stems Using Two-Dimensional Functionally Graded Materials   [0100] 
Design Optimization of Functionally Graded Dental Implant   [0100] 
Cellular Ti-6al-4v Structures with Interconnected Macro Porosity for Bone Implants Fabricated by Selective Electron Beam Melting   [0100] 
The Brittle Strength of Orthotropic Material   [0100] 
A Comparison of Homogenization and Standard Mechanics Analyses for Periodic Porous Composites   [0100] 
Porous Scaffold Design for Tissue Engineering   [0100] 
Computational Design and Simulation of Tissue Engineering Scaffolds   [0100] 
Fatigue of Cellular Materials   [0100] 
Fatigue of Honeycombs Under In-Plane Multiaxial Loads   [0100] 
Fatigue of Isotropic Open-Cell Foams Under Multiaxial Loads   [0100] 
Adaptive Bone-Remodeling Theory Applied to Prosthetic-Design Analysis   [0100] 
The Relationship between Stress Shielding and Bone Resorption around Total Hip Stems and the Effects of Flexible Materials   [0100] 
Asymptotic Homogenization of Composite Materials and Structures   [0100] 
Topology Optimization of Three Dimensional Tissue Engineering Scaffold Architectures for Prescribed Bulk Modulus and Diffusivity   [0100] 
Multiscale Methods for Composites: A Review   [0100] 
Biomaterials in Total Joint Replacement   [0100] 
The Effects of Static, Dynamic and Fatigue Behavior on Three-Dimensional Shape Optimization of Hip Prosthesis by Finite Element Method   [0100] 
Multiscale Design and Multiobjective Optimization of Orthopedic Hip Implants with Functionally Graded Cellular Material   [0100] 
Poor Bone Quality or Hip Structure as Risk Factors Affecting Survival of Total-Hip Arthroplasty   [0100] 
Design Optimization of Cementless Femoral Hip Prostheses Using Finite Element Analysis   [0100] 
Homogenized and Relocalized Mechanical Fields   [0100] 
Recent Advances in Computer Methods in Biomechanics & Biomedical Engineering   [0100] 
Friction and Stem Stiffness Affect Dynamic Interface Motion in Total Hip Replacement   [0100] 
Mathematical Optimization of Elastic Properties: Application to Cementless Hip Stem Design   [0100] 
Generalized Continuum Modeling of 2-D Periodic Cellular Solids   [0100] 
History and Systematic Review of Wear and Osteolysis Outcomes for First-Generation Highly Crosslinked Polyethylene   [0100] 
Projections of Primary and Revision Hip and Knee Arthroplasty in the United States from 2005 to 2030   [0100] 
Fe Modelling of a Boundary Layer Corrector for Composites Using the Homogenization Theory   [0100] 
Progressive Failure Analysis of Laminated Composite Femoral Prostheses for Total Hip Arthroplasty   [0100] 
Compression Fatigue Behavior of Ti-6AI-4V Mesh Arrays Fabricated by Electron Beam Melting   [0100] 
A Novel Method for Biomaterial Scaffold Internal Architecture Design to Match Bone Elastic Properties with Desired Porosity   [0100] 
Modeling Failure Modes of Isotropic Three-Dimensional Reticulated Porous Metal Foams Under Several Typical Loads   [0100] 
Models for the Elastic Deformation of Honeycombs   [0100] 
Two-Scale Finite Element Analysis of Heterogeneous Solids with Periodic Microstructures   [0100] 
A Monoblock Porous Tantalum Acetabular Cup Has No Osteolysis on Ct at 10 Years   [0100] 
Next-Generation Biomedical Implants Using Additive Manufacturing of Complex, Cellular and Functional Mesh Arrays   [0100] 
Microstructure and Mechanical Behavior of Ti-6AI-4V Produced by Rapid-Layer Manufacturing, for Biomedical Applications   [0100] 
Long-Term Results of a Contemporary Metal-on-Metal Total Hip Arthroplasty: A 10-Year Follow-up Study   [0100] 
In Vitro Assessment of Strength, Fatigue Durability, and Disassembly of Ti6Al4V and CoCrMo Necks in Modular Total Hip Replacements   [0100] 
Objet-Geometries   [0100] 
Fatigue Crack Propagation in Aluminium Alloy Foams   [0100] 
A Numerical Study of Failure Mechanisms in the Cemented Resurfaced Femur: Effects of Interface Characteristics and Bone Remodelling   [0100] 
Mechanical Evaluation of Porous Titanium (Ti6al4v) Structures with Electron Beam Melting (Ebm)   [0100] 
Numerical Homogenization of Periodic Composite Materials with Non Linear Material Components   [0100] 
Comparison of Isotropic and Orthotropic Material Property Assignments on Femoral Finite Element Models Under Two Loading Conditions   [0100] 
Comparative Analysis of Bone Remodelling Models with Respect to Computerised Tomography-Based Finite Element Models of Bone   [0100] 
Subject Specific Finite Element Analysis of Stress Shielding Around a Cementless Femoral Stem   [0100] 
Hip Stem Fatigue Test Prediction   [0100] 
Concurrent Multi-Scale Analysis of Elastic Composites by a Multi-Level Computational Model   [0100] 
Modelling Evaluation of the Testing Condition Influence on the Maximum Stress Induced in a Hip Prosthesis During ISO 7206 Fatigue Testing   [0100] 
Intrinsic Extracellular Matrix Properties Regulate Stem Cell Differentiation   [0100] 
Hierarchical Optimization of Material and Structure   [0100] 
Static, Dynamic and Fatigue Behavior of Newly Designed Stem Shapes for Hip Prosthesis Using Finite Element Analysis   [0100] 
Comparison of the Mechanical Properties Between Tantalum and Nickel-Titanium Foams Implant Materials for Bone Ingrowth Applications   [0100] 
Effects of Solid Distribution on the Stiffness and Strength of Metallic Foams   [0100] 
The Development of a Scanning Strategy for the Manufacture of Porous Biomaterials by Selective Laser Melting   [0100] 
A Homogenization Method for Shape and Topology Optimization   [0100] 
Multi-Scale Finite Element Analysis of Porous Materials and Components by Asymptotic Homogenization Theory and Enhanced Mesh Superposition Method   [0100] 
Mechanical Properties of Bioactive Glasses, Glass-Ceramics and Composites   [0100] 
Poor Results from the Isoelastic Total Hip Replacement   [0100] 
The Effect of Pore Geometry on the In Vitro Biological Behavior of Human Periosteum-Derived Cells Seeded on Selective Laser-Melted Ti6Al4V Bone Scaffolds   [0100] 
Primary Stability of an Anatomical Cementless Hip Stem: A Statistical Analysis   [0100] 
Even a Thin Layer of Soft Tissue May Compromise the Primary Stability of Cementless Hip Stems   [0100] 
Large-Sliding Contact Elements Accurately Predict Levels of Bone-Implant Micromotion Relevant to Osseointegration   [0100] 
The Perioperative Complication Rate of Orthopedic Surgery in Sickle Cell Disease: Report of the National Sickle Cell Surgery Study Group   [0100] 
Stiffness and Strength of Tridimensional Periodic Lattices   [0100] 
In-Plane Stiffness and Yield Strength of Periodic Metal Honeycombs   [0100] 
A Unit Cell Approach for Lightweight Structure and Compliant Mechanism   [0100] 
New Solution Method for Homogenization Analysis and Its Application to the Prediction of Macroscopic Elastic Constants of Materials with Periodic Microstructures   [0100] 
Three-Fold Symmetry Restrictions on Two-Dimensional Micropolar Materials   [0100] 
Fabrication and Properties of Functionally Graded Dental Implant   [0100] 
Effects of Material Properties of Femoral Hip Components on Bone Remodeling   [0100] 
The Behavior of Adaptive Bone-Remodeling Simulation Models   [0100] 
The Design of Scaffolds for Use in Tissue Engineering. Part li. Rapid Prototyping Techniques   [0100] 
Size Scales for Accurate Homogenization in the Presence of Severe Stress Gradients   [0100] 
Structure, Metallurgy, and Mechanical Properties of a Porous Tantalum Foam   [0100] 
Compression-Compression Fatigue of Open Cell Aluminum Foams: Macro-/Micro- Mechanisms and the Effects of Heat Treatment   [0100] 
The Finite Element Method for Solid and Structural Mechanics   [0100]