Mechanics of Bonded and Adhesively Bonded Joints
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Mechanics of Bonded and Adhesively Bonded Joints
Wu, Xiang-fa
Elsevier - Health Sciences Division
12/2024
372
Mole
Inglês
9780323951449
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1. Introduction to Joining Technology and Classification of Joints
2. Fundamentals of Elasticity
3. Introduction to Fracture Mechanics
4. Selected Analytical Solutions to Interfacial Stresses of Bonded and Adhesively Bonded Joints
5. Stress-function Variational Methods for Interfacial Stress Analysis of Bonded Joints
6. Applications of Stress-Function Variational Method for Adhesively-Bonded Joints
7. Strength and Toughness of Bonded and Adhesively Bonded Joints
8. Mechanical Behavior of Adhesives
9. Applications of Joining Theories
2. Fundamentals of Elasticity
3. Introduction to Fracture Mechanics
4. Selected Analytical Solutions to Interfacial Stresses of Bonded and Adhesively Bonded Joints
5. Stress-function Variational Methods for Interfacial Stress Analysis of Bonded Joints
6. Applications of Stress-Function Variational Method for Adhesively-Bonded Joints
7. Strength and Toughness of Bonded and Adhesively Bonded Joints
8. Mechanical Behavior of Adhesives
9. Applications of Joining Theories
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adhesive; Adhesively bonded joint (ABJ); Adhesively bonded joints; Adhesively bonded joints (ABJs); Adhesively bonded single-lap joint; Adhesively bonded single-lap joint (ABSLJ); Adhesively single-sided joint; Adhesively single-sided strip joint; Adhesives; Bonded joint; Bonded joints; Bonded single-lap joint; Bonded strip joint; Classic beam theory; Cohesive zone model (CZM); Complex compliance; Complex modulus; Composites; Constitutive law; Creeping; Deformation; Double cantilever beam (DCB); Elasticity; Energy method; Energy release rate (ERR); Equations of equilibrium; Euler-Bernoulli beam; Failure criterion; Finite element method (FEM); Fracture mechanics; Fracture toughness; Free-edge stresses; Interfacial crack; Interfacial fracture; Interfacial stress; Interfacial stresses; J-integral; Kevin model; Linear elastic fracture mechanics; Linear elastic fracture mechanics (LEFM); Loss modulus; Maxwell model; Mechanical strength; Microelectronic packaging; Mode partition; Nonlinear fracture mechanics; Principal stresses; Principles of variation; Progressive cracking; Single-sided joint; Smart materials; Spring back; Standard linear solid model; Storage modulus; Strain; Strength; Stress; Stress intensity factor (SIF); Stress relaxation; Stress transformation; Surface coatings; Thermomechanical stress; Variational method; Viscoelastic model
1. Introduction to Joining Technology and Classification of Joints
2. Fundamentals of Elasticity
3. Introduction to Fracture Mechanics
4. Selected Analytical Solutions to Interfacial Stresses of Bonded and Adhesively Bonded Joints
5. Stress-function Variational Methods for Interfacial Stress Analysis of Bonded Joints
6. Applications of Stress-Function Variational Method for Adhesively-Bonded Joints
7. Strength and Toughness of Bonded and Adhesively Bonded Joints
8. Mechanical Behavior of Adhesives
9. Applications of Joining Theories
2. Fundamentals of Elasticity
3. Introduction to Fracture Mechanics
4. Selected Analytical Solutions to Interfacial Stresses of Bonded and Adhesively Bonded Joints
5. Stress-function Variational Methods for Interfacial Stress Analysis of Bonded Joints
6. Applications of Stress-Function Variational Method for Adhesively-Bonded Joints
7. Strength and Toughness of Bonded and Adhesively Bonded Joints
8. Mechanical Behavior of Adhesives
9. Applications of Joining Theories
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adhesive; Adhesively bonded joint (ABJ); Adhesively bonded joints; Adhesively bonded joints (ABJs); Adhesively bonded single-lap joint; Adhesively bonded single-lap joint (ABSLJ); Adhesively single-sided joint; Adhesively single-sided strip joint; Adhesives; Bonded joint; Bonded joints; Bonded single-lap joint; Bonded strip joint; Classic beam theory; Cohesive zone model (CZM); Complex compliance; Complex modulus; Composites; Constitutive law; Creeping; Deformation; Double cantilever beam (DCB); Elasticity; Energy method; Energy release rate (ERR); Equations of equilibrium; Euler-Bernoulli beam; Failure criterion; Finite element method (FEM); Fracture mechanics; Fracture toughness; Free-edge stresses; Interfacial crack; Interfacial fracture; Interfacial stress; Interfacial stresses; J-integral; Kevin model; Linear elastic fracture mechanics; Linear elastic fracture mechanics (LEFM); Loss modulus; Maxwell model; Mechanical strength; Microelectronic packaging; Mode partition; Nonlinear fracture mechanics; Principal stresses; Principles of variation; Progressive cracking; Single-sided joint; Smart materials; Spring back; Standard linear solid model; Storage modulus; Strain; Strength; Stress; Stress intensity factor (SIF); Stress relaxation; Stress transformation; Surface coatings; Thermomechanical stress; Variational method; Viscoelastic model