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• catalog contributor b7627850.
• catalog created "1993.".
• catalog date "1993".
• catalog date "1993.".
• catalog dateCopyrighted "1993.".
• catalog description "11.5 Active contraction of ureteral segments -- 11.6 Resting smooth muscle : taenia coli -- 11.7 Other smooth muscle organs -- Problems -- References -- Chapter 12: Bone and cartilage -- 12.1 Introduction -- 12.2 Bone as a living organ -- 12.3 Blood circulation in bone -- 12.5 Viscoelastic properties of bone -- 12.6 Functional adaptation of bone -- 12.7 Cartilage -- 12.8 Viscoelastic properties of articular cartilage -- 12.9 The lubrication quality of articular cartilage surfaces -- 12.10 Constitutive equations of cartilage according to a triphasic theory -- 12.11 Tendons and ligaments -- Problems -- References.".
• catalog description "7.3 Collagen -- 7.4 Thermodynamics of elastic deformation -- 7.5 Behavior of soft tissues under uniaxial loading -- 7.6 Quasi-linear viscoelasticity of soft tissues -- 7.7 Incremental laws -- 7.8 The concept of pseudo-elasticity -- 7.9 Biaxial loading experiments on soft tissues -- 7.10 Description of three-dimensional stress and strain states -- 7.11 Strain-energy function -- 7.12 An example : the constitutive equation of skin -- 7.13 Generalized viscoelastic relations -- 7.14 The complementary energy function : inversion of the stress-strain relationship -- 7.15 Constitutive equation derived according to microstructure -- Problems -- References -- Chapter 8: Mechanical properties and active remodeling of blood vessels -- 8.1 Introduction -- 8.2 Structure and composition of blood vessels -- 8.3 Arterial wall as a membrane : behavior under uniaxial loading -- 8.4 Arterial wall as a membrane : biaxial loading and torsion experiments -- 8.5 Arterial wall as a membrane : dynamic modulus of elasticity from flexural wave propagation measurements -- 8.6 Mathematical representation of the Pseudo-elastic stress-strain relationship -- 8.7 Blood vessel wall as a three-dimensional body : the zero stress state -- 8.8 Blood vessel wall as a three-dimensional body : stress and strain, and mechanical properties of the intima, media, and adventitia layers -- 8.9 Arterioles. mean stress-mean diameter relationship -- 8.10 Capillary blood vessels -- 8.11 Veins -- 8.12 Effect of stress on tissue growth -- 8.13 Morphological and structural remodeling of blood vessels due to change of blood pressure -- 8.14 Remodeling the zero stress state of a blood vessel -- 8.15 Remodeling of mechanical properties -- 8.16 A unified interpretation of the morphological, structural, zero stress state, and mechanical properties remodeling -- Problems -- References.".
• catalog description "Chapter 1: Introduction : A sketch of the history and scope of the field -- 1.1 What is biomechanics? -- 1.2 Historical background -- 1.3 What's in a name? -- 1.4 Mechanics in physiology -- 1.5 What contributions has biomechanics made to health science? -- 1.6 Our method of approach -- 1.7 Tools of investigation -- 1.8 What contributions has biomechanics made to mechanics? -- 1.9 On the law of Laplace -- Problems -- References -- Chapter 2: The meaning of the constitutive equation -- 2.1 Introduction -- 2.2 Stress -- 2.3 Strain -- 2.4 Strain rate -- 2.5 Constitutive equations -- 2.6 The nonviscous fluid -- 2.7 The Newtonian viscous fluid -- 2.8 The Hookean elastic solid -- 2.9 The effect of temperature -- 2.10 Materials with more complex mechanical behavior -- 2.11 Viscoelasticity -- 2.12 Response of a viscoelastic body to harmonic excitation -- 2.13 Use of viscoelastic models -- 2.14 Methods of testing -- 2.15 Mathematical development of constitutive equations -- Problems -- ".
• catalog description "Chapter 5: Interaction of red cells with vessel wall, and wall shear with endothelium -- 5.1 Introduction -- 5.2 Apparent viscosity and relative viscosity -- 5.3 Effect of size of the blood vessel on the apparent viscosity of blood : The Fahreaus-Lindqvist effect -- 5.4 The distribution of suspened particles in fairly narrow rigid tubes -- 5.5 The motion of red cells in tightly fitting tubes -- 5.6 Inversion of the Fahraeus-Lindqvist effect in very narrow tubes -- 5.7 Hematocrit in very narrow tubes -- 5.8 Theoretical investigations -- 5.9 The vascular endothelium -- 5.10 Blood shear load acting on the endothelium -- 5.11 Tension field in endothelial cell membranes under the fluid interior hypothesis -- 5.12 The shape of endothelial cell nucleus under the fluid interior hypothesis -- 5.13 Transmission of the tension in the upper endothelial cell membrane to the basal lamina through the sidewalls -- 5.14 The hypothesis of a solid-like cell content -- 5.15 The effect of turbulent flow on cell stress -- Problems -- References to blood cells in microcirculation -- References to endothelial cells -- Chapter 6: Bioviscoelastic fluids -- 6.1 Introduction -- 6.2 Methods of testing and data presentation -- 6.3 Protoplasm -- 6.4 Mucus from the respiratory tract -- 6.5 Saliva -- 6.6 Cervical mucus and semen -- 6.7 Synovial fluid -- Problems -- References -- Chapter 7 : Bioviscoelastic solids -- 7.1 Introduction -- 7.2 Some elastic materials.".
• catalog description "Chapter 9: Skeletal muscle -- 9.1 Introduction -- 9.2 The functional arrangement of muscles -- 9.3 The structure of skeletal muscle -- 9.4 The sliding element theory of muscle action -- 9.5 Single twitch and wave summation -- 9.6 Contraction of skeletal muscle bundles -- 9.7 Hill's equation for tetanized muscle -- 9.8 Hill's three-element model -- 9.9 Hypotheses of cross-bridge theory -- 9.10 Evidences in support of the cross-bridge hypotheses -- 9.11 Mathematical development of the cross-bridge theory -- 9.12 Constitutive equation of the muscle as a three-dimensional continuum -- 9.13 Partial activation -- Problems -- References -- Chapter 10: Heart muscle -- 10.1 Introduction : the difference between myocardial and skeletal muscle cells -- 10.2 Use of the papillary of trabecular muscles as testing specimens -- 10.3 Use of the whole ventricle to determine material properties of the heart muscle -- 10.4 Properties of unstimulated heart muscle -- 10.5 Force, length, velocity of shortening, and calcium concentration relationship for the cardiac muscle -- 10.6 The behavior of active myocardium according to Hill's equation and its modification -- 10.7 Pinto's method -- 10.8 Micromechanical derivation of the constitutive law for the passive myocardium -- 10.9 Other topics -- Problems -- References -- Chapter 11: Smooth muscles -- 11.1 Types of smooth muscles -- 11.2 The contractile machinery -- 11.3 Rhythmic contraction of smooth muscle -- 11.4 The property of a resting smooth muscle : ureter.".
• catalog description "Includes bibliographical references and index.".
• catalog description "References -- Chapter 3: The flow properties of blood -- 3.1 Blood rheology : an outline -- 3.2 The constitutive equation of blood based on viscometric data and Casson's equation -- 3.3 Laminar flow of blood in a tube -- 3.4 Speculation on why blood viscosity is the way it is -- 3.5 Fluid-mechanical interaction of red blood cells with a solid wall -- 3.6 Thrombus formation and dissolution -- 3.7 Medical applications of blood rheology -- Problems -- References -- Chapter 4: Mechanics of erythrocytes, leukocytes, and other cells -- 4.1 Introduction -- 4.2 Human red cell dimensions and shape -- 4.3 The extreme-value distribution -- 4.4 The deformability of red blood cells (RBC) -- 4.5 Theoretical considerations of the elasticity of red cells -- 4.6 Cell membrane experiments -- 4.7 Elasticity of the red cell deformability on turbulence in blood flow -- 4.10 Passive deformation of leukocytes -- 4.11 Cell adhesion : multipipets experiments -- 4.12 Topics of cell mechanics -- Problems -- ".
• catalog description "References to erythrocytes -- References to leukocytes and other cells.".
• catalog extent "xviii, 568 p. :".
• catalog identifier "0387979476 (New York : acid-free paper)".
• catalog identifier "3540979476 (Berlin : acid-free paper)".
• catalog issued "1993".
• catalog issued "1993.".
• catalog language "eng".
• catalog publisher "New York : Springer-Verlag,".
• catalog subject "612/.014 20".
• catalog subject "Biomechanical Phenomena".
• catalog subject "Biomechanics.".
• catalog subject "Culture Techniques".
• catalog subject "QP88 .F87 1993".
• catalog subject "QT 34 F981b 1993".
• catalog subject "Rheology (Biology)".
• catalog subject "Rheology.".
• catalog subject "Tissues.".
• catalog tableOfContents "11.5 Active contraction of ureteral segments -- 11.6 Resting smooth muscle : taenia coli -- 11.7 Other smooth muscle organs -- Problems -- References -- Chapter 12: Bone and cartilage -- 12.1 Introduction -- 12.2 Bone as a living organ -- 12.3 Blood circulation in bone -- 12.5 Viscoelastic properties of bone -- 12.6 Functional adaptation of bone -- 12.7 Cartilage -- 12.8 Viscoelastic properties of articular cartilage -- 12.9 The lubrication quality of articular cartilage surfaces -- 12.10 Constitutive equations of cartilage according to a triphasic theory -- 12.11 Tendons and ligaments -- Problems -- References.".
• catalog tableOfContents "7.3 Collagen -- 7.4 Thermodynamics of elastic deformation -- 7.5 Behavior of soft tissues under uniaxial loading -- 7.6 Quasi-linear viscoelasticity of soft tissues -- 7.7 Incremental laws -- 7.8 The concept of pseudo-elasticity -- 7.9 Biaxial loading experiments on soft tissues -- 7.10 Description of three-dimensional stress and strain states -- 7.11 Strain-energy function -- 7.12 An example : the constitutive equation of skin -- 7.13 Generalized viscoelastic relations -- 7.14 The complementary energy function : inversion of the stress-strain relationship -- 7.15 Constitutive equation derived according to microstructure -- Problems -- References -- Chapter 8: Mechanical properties and active remodeling of blood vessels -- 8.1 Introduction -- 8.2 Structure and composition of blood vessels -- 8.3 Arterial wall as a membrane : behavior under uniaxial loading -- 8.4 Arterial wall as a membrane : biaxial loading and torsion experiments -- 8.5 Arterial wall as a membrane : dynamic modulus of elasticity from flexural wave propagation measurements -- 8.6 Mathematical representation of the Pseudo-elastic stress-strain relationship -- 8.7 Blood vessel wall as a three-dimensional body : the zero stress state -- 8.8 Blood vessel wall as a three-dimensional body : stress and strain, and mechanical properties of the intima, media, and adventitia layers -- 8.9 Arterioles. mean stress-mean diameter relationship -- 8.10 Capillary blood vessels -- 8.11 Veins -- 8.12 Effect of stress on tissue growth -- 8.13 Morphological and structural remodeling of blood vessels due to change of blood pressure -- 8.14 Remodeling the zero stress state of a blood vessel -- 8.15 Remodeling of mechanical properties -- 8.16 A unified interpretation of the morphological, structural, zero stress state, and mechanical properties remodeling -- Problems -- References.".
• catalog tableOfContents "Chapter 1: Introduction : A sketch of the history and scope of the field -- 1.1 What is biomechanics? -- 1.2 Historical background -- 1.3 What's in a name? -- 1.4 Mechanics in physiology -- 1.5 What contributions has biomechanics made to health science? -- 1.6 Our method of approach -- 1.7 Tools of investigation -- 1.8 What contributions has biomechanics made to mechanics? -- 1.9 On the law of Laplace -- Problems -- References -- Chapter 2: The meaning of the constitutive equation -- 2.1 Introduction -- 2.2 Stress -- 2.3 Strain -- 2.4 Strain rate -- 2.5 Constitutive equations -- 2.6 The nonviscous fluid -- 2.7 The Newtonian viscous fluid -- 2.8 The Hookean elastic solid -- 2.9 The effect of temperature -- 2.10 Materials with more complex mechanical behavior -- 2.11 Viscoelasticity -- 2.12 Response of a viscoelastic body to harmonic excitation -- 2.13 Use of viscoelastic models -- 2.14 Methods of testing -- 2.15 Mathematical development of constitutive equations -- Problems -- ".
• catalog tableOfContents "Chapter 5: Interaction of red cells with vessel wall, and wall shear with endothelium -- 5.1 Introduction -- 5.2 Apparent viscosity and relative viscosity -- 5.3 Effect of size of the blood vessel on the apparent viscosity of blood : The Fahreaus-Lindqvist effect -- 5.4 The distribution of suspened particles in fairly narrow rigid tubes -- 5.5 The motion of red cells in tightly fitting tubes -- 5.6 Inversion of the Fahraeus-Lindqvist effect in very narrow tubes -- 5.7 Hematocrit in very narrow tubes -- 5.8 Theoretical investigations -- 5.9 The vascular endothelium -- 5.10 Blood shear load acting on the endothelium -- 5.11 Tension field in endothelial cell membranes under the fluid interior hypothesis -- 5.12 The shape of endothelial cell nucleus under the fluid interior hypothesis -- 5.13 Transmission of the tension in the upper endothelial cell membrane to the basal lamina through the sidewalls -- 5.14 The hypothesis of a solid-like cell content -- 5.15 The effect of turbulent flow on cell stress -- Problems -- References to blood cells in microcirculation -- References to endothelial cells -- Chapter 6: Bioviscoelastic fluids -- 6.1 Introduction -- 6.2 Methods of testing and data presentation -- 6.3 Protoplasm -- 6.4 Mucus from the respiratory tract -- 6.5 Saliva -- 6.6 Cervical mucus and semen -- 6.7 Synovial fluid -- Problems -- References -- Chapter 7 : Bioviscoelastic solids -- 7.1 Introduction -- 7.2 Some elastic materials.".
• catalog tableOfContents "Chapter 9: Skeletal muscle -- 9.1 Introduction -- 9.2 The functional arrangement of muscles -- 9.3 The structure of skeletal muscle -- 9.4 The sliding element theory of muscle action -- 9.5 Single twitch and wave summation -- 9.6 Contraction of skeletal muscle bundles -- 9.7 Hill's equation for tetanized muscle -- 9.8 Hill's three-element model -- 9.9 Hypotheses of cross-bridge theory -- 9.10 Evidences in support of the cross-bridge hypotheses -- 9.11 Mathematical development of the cross-bridge theory -- 9.12 Constitutive equation of the muscle as a three-dimensional continuum -- 9.13 Partial activation -- Problems -- References -- Chapter 10: Heart muscle -- 10.1 Introduction : the difference between myocardial and skeletal muscle cells -- 10.2 Use of the papillary of trabecular muscles as testing specimens -- 10.3 Use of the whole ventricle to determine material properties of the heart muscle -- 10.4 Properties of unstimulated heart muscle -- 10.5 Force, length, velocity of shortening, and calcium concentration relationship for the cardiac muscle -- 10.6 The behavior of active myocardium according to Hill's equation and its modification -- 10.7 Pinto's method -- 10.8 Micromechanical derivation of the constitutive law for the passive myocardium -- 10.9 Other topics -- Problems -- References -- Chapter 11: Smooth muscles -- 11.1 Types of smooth muscles -- 11.2 The contractile machinery -- 11.3 Rhythmic contraction of smooth muscle -- 11.4 The property of a resting smooth muscle : ureter.".
• catalog tableOfContents "References -- Chapter 3: The flow properties of blood -- 3.1 Blood rheology : an outline -- 3.2 The constitutive equation of blood based on viscometric data and Casson's equation -- 3.3 Laminar flow of blood in a tube -- 3.4 Speculation on why blood viscosity is the way it is -- 3.5 Fluid-mechanical interaction of red blood cells with a solid wall -- 3.6 Thrombus formation and dissolution -- 3.7 Medical applications of blood rheology -- Problems -- References -- Chapter 4: Mechanics of erythrocytes, leukocytes, and other cells -- 4.1 Introduction -- 4.2 Human red cell dimensions and shape -- 4.3 The extreme-value distribution -- 4.4 The deformability of red blood cells (RBC) -- 4.5 Theoretical considerations of the elasticity of red cells -- 4.6 Cell membrane experiments -- 4.7 Elasticity of the red cell deformability on turbulence in blood flow -- 4.10 Passive deformation of leukocytes -- 4.11 Cell adhesion : multipipets experiments -- 4.12 Topics of cell mechanics -- Problems -- ".
• catalog tableOfContents "References to erythrocytes -- References to leukocytes and other cells.".
• catalog title "Biomechanics : mechanical properties of living tissues / Y.C. Fung.".
• catalog type "text".