Mechanical Testing of Bone and the Bone-Implant InterfaceYuehuei H. An, Robert A. Draughn CRC Press, 1999 M11 29 - 648 páginas The mechanical properties of whole bones, bone tissue, and the bone-implant interfaces are as important as their morphological and structural aspects. Mechanical Testing of Bone and the Bone-Implant Interface helps you assess these properties by explaining how to do mechanical testing of bone and the bone-implant interface for bone-related research |
Contenido
| 3 | |
Chapter 2 Basic Concepts of Mechanical Property Measurement and Bone Biomechanics | 23 |
Chapter 3 Mechanical Properties of Bone | 41 |
Chapter 4 Factors Affecting Mechanical Properties of Bone | 65 |
Chapter 5 Basic Facilities and Instruments for Mechanical Testing of Bone | 87 |
Chapter 6 Methods of Evaluation for Bone Dimensions Densities Contents Morphology and Structures | 103 |
Chapter 7 General Considerations of Mechanical Testing | 119 |
Chapter 8 A Hierarchical Approach to Exploring Bone Mechanical Properties | 133 |
Chapter 23 Observation of Material Failure Mode Using a SEM with a BuiltIn Mechanical Testing Device | 349 |
Chapter 24 Ultrasonic Methods for Evaluating Mechanical Properties of Bone | 357 |
Chapter 25 Evaluating Mechanical Properties of Bone Using Scanning Acoustic Microscopy | 371 |
Chapter 26 Peripheral Quantitative Computed Tomography for Evaluating Structural and Mechanical Properties of Small Bone | 385 |
Chapter 27 Computer Modeling for Evaluating Trabecular Bone Mechanics | 407 |
Methods of Mechanical Testing of the BoneImplant Interface | 437 |
Chapter 28 Factors Affecting the Strength of the BoneImplant Interface | 439 |
Chapter 29 Implant Pushout and Pullout Tests | 463 |
Chapter 9 Nondestructive Mechanical Testing of Cancellous Bone | 151 |
Chapter 10 Synthetic Materials and Structures Used as Models for Bone | 159 |
Methods of Mechanical Testing of Bone | 173 |
Chapter 11 Tensile and Compression Testing of Bone | 175 |
Chapter 12 Bending Tests of Bone | 207 |
Chapter 13 Torsional Testing of Bone | 219 |
Chapter 14 Indentation Testing of Bone | 233 |
Chapter 15 Penetration Testing of Bone Using an Osteopenetrometer | 241 |
Chapter 16 Microhardness Testing of Bone | 247 |
Chapter 17 Nanoindentation Testing of Bone | 257 |
Chapter 18 Single Osteon Micromechanical Testing | 271 |
Chapter 19 Micromechanical Testing of Single Trabeculae | 291 |
Chapter 20 Strain Gauge Measurements from Bone Surfaces | 305 |
Chapter 21 Screw Pullout Test for Evaluating Mechanical Properties of Bone | 321 |
Chapter 22 Viscoelastic Properties of Bone and Testing Methods | 329 |
Chapter 30 The Validity of a Single Pushout Test | 477 |
Chapter 31 Tensile Testing of BoneImplant Interface | 489 |
Chapter 32 Fracture Toughness Tests of the BoneImplant Interface | 499 |
Chapter 33 In Vitro Measurements of Implant Stability | 515 |
Chapter 34 In Vitro Testing of the Stability of Acetabular Components | 527 |
Chapter 35 In Vitro Testing of the Stability of Femoral Components | 541 |
Chapter 36 Screw Pullout Testing | 551 |
Chapter 37 Finite Element Analysis for Evaluating Mechanical Properties of the BoneImplant Interface | 567 |
Chapter 38 Fatigue Testing of Bioabsorbable Screws in a Synthetic Bone Substrate | 581 |
Chapter 39 Testing Intervertebral Stability after Spinal Fixation | 593 |
Unit Conversions | 607 |
Useful Journals and Books on Bone Mechanics | 609 |
| 611 | |
Back cover | 625 |
Otras ediciones - Ver todas
Mechanical Testing of Bone and the Bone-Implant Interface Yuehuei H. An,Robert A. Draughn Vista previa limitada - 1999 |
Mechanical Testing of Bone and the Bone-Implant Interface Yuehuei H. An,Robert A. Draughn Sin vista previa disponible - 1999 |
Términos y frases comunes
allows analysis applied axial behavior bending Biomech biomechanical body bone specimens bone tissue calculated cancellous bone cement changes Clin coated collagen compared component compression computed cortical bone curve cylinder deformation density dependent described determined direction displacement effects elastic elements et al evaluation experimental factors failure fatigue femoral femur Figure fixation force fracture function gauge geometry human implant important increase indentation initial interface Joint lamellae length limit load machine material measured mechanical properties mechanical testing method mineral modulus motion obtained orientation Orthop osteons performed plate porous preparation proximal pullout range region relative relaxation Research rotation sample screw shape shear shows single spine stability standard stiffness strain strength stress structure surface Surg techniques tensile tibia torsional trabecular bone transverse ultimate values vivo
Referencias a este libro
Scattering and Biomedical Engineering: Modeling and Applications : Corfu ... Dimitrios Ioannou Fotiadis Vista previa limitada - 2002 |