作者: Robert M.Jones
出版社:泰勒-弗朗西斯出版社 作者简介
Robert M, Jones 博士是弗吉尼亚理工大学工程科学与力学教授。他是弗吉尼亚复合材料与结构技术中心的创始人之一,并担任中心的首位主任。在过去的35年间,Jones博士撰写了一本专著,并编辑和合作出版了另外两本专著,还发表了超过80余篇文章。他是美国机械工程协会会员、美国航空航天研究所副研究员和美国复合材料协会前会长。关于复合材料力学及复合材料结构设计,他已在全世界范围内开设了超过80次的短期课程。 内容简介:
复合材料是结构力学20世纪60年以来最为重要的应用。《复合材料力学》(第二版)是高年级本科生和研究生学习复合材料力学课程的经典教材。对复合材料及其层合结构的力学性能的基本概念进行了合理介绍。
本书涵盖微观力学、宏观力学、层合板理论和板的弯曲、屈曲以及振动的相关内容,Jones博士阐明了复合材料的物理特性。本书中,理论与实验的比较贯穿始终,以证明所推导理论的正确性。《复合材料力学》(第二版)的特点是采用工程常数描述应力-应变关系,并基于材料力学和弹性力学方法系统地介绍了微观力学问题。此外,针对简单情况下的层合板变形的拉-弯耦合、弯-扭耦合、屈曲载荷和振动频率进行了阐述。
《复合材料力学》(第二版)与(第一版)相比,增加了理论与实验相比较的内容;提高了文字和图表表述;增加了习题。为便于应用,书中采用两种单位制(国际和美国标准),并新增加了大量的复合材料设计的内容。 目录:
1. Introduction to Composite Materials
1.1 Introduction
1.2 The waht -what is a composite material
1.3 The why- current and potential advantages of fiber-reinforced composite materials
1.4 The how-application of composite materials
1.5 Summary
2. Macromechanical Behavior Of A Lamina
2.1 Introduction
2.2 Stress-strain relation for anisotropic materials
2.3 Stiffnesses compliances and engineering constant for orthotropic materials
2.4 Restrictions on engineering contants
2.5 Stress-strain relation for plane stress in an orthotropic material
2.6 Stress-strain relation for a lamina of arbitrary orientation
2.7 Invariant properties of an orthotropic lamina
2.8 Strengths of orthotropic lamina
2.9 Biaxial strength griteria for an orthotropic lamina
2.10 Summary
3. Micromechanical Behavior of a Lamina
3.1 Introduction
3.2 Mechanics of materails approach to stiffness
3.3 Elasticity approach to stiffness
3.4 Comparison of approaches to stiffness
3.5 Mechanics of materails approach to strength
3.6 Summary remarks on micromechanics
4. Macromechanical Behavior of a Laminate
4.1 Introduction
4.2 Classical laminaton theory
4.3 Special cases of laminate stiffnesses
4.4 Theoretical versus measured laminate stiffnesses
4.5 Strength of laminates
4.6 Interlaminar stresses
5. Bending, Buckling, and Vibration of Laminated Plates
5.1 Introduction
5.2 Governing equations for bending buckling and vibration of laminated plates
5.3 Deflection of simply supported laminated plates under distributed transverse load
5.4 Bucking of simply supported laminated plates under in-plane load
5.5 Vibration of simply supported laminated plates
5.6 Summary remarks on effects of stiffnesses
6. Other Analysis and Behavior Topics
6.1 Introduction
6.2 Review of chapters 1 through 5
6.3 Fatigue
6.4 Holes in laminates
6.5 Fracture mechanics
6.6 Transverse shear effects
6.7 Postcuring shapes of unsymmetric laminates
6.8 Environmental effects
6.9 Shells
6.10 Miscellaneous topics
7. Introduction to Design of Composite Structures Appendix
7.1 Introduction
7.2 Introduction to structural design
7.3 Materails selection
7.4 Configuration selection
7.5 Laminate joints
7.6 Design requirements and design failure criteria
7.7 Optimization concepts
7.8 Design analysis philosophy for composite structures
7.9 Summary