Nonlinear Analyses of Laminated Plates and Shells with Damage

Professor Yi-Ming Fu was born in August, 1945 in southern China. He obtained a bachelor degree of mechanical engineering in Hunan University in 1968. After that, he worked as a R&D engineer in the Great Wall Control Electric Co., LTD for 11 years. In 1981, He obtained a master degree of solid mechanics from the graduate school of Tongji University in Shanghai, China. From then on, he has been teaching and researching on solid mechanics at Hunan University for about 30 years. During this period, He was the department chair, for 18 years, of engineering mechanics of Hunan University and, he also did research in other universities, such as, the University of Calgary, Hong Kong University for over 4 years. Besides, he has been part of the editorial board of many journals including Acta Mechanica Solida Sinica, Applied Mathematics and Mechanics, Chinese Journal of Applied Mechanics, Journal of Vibration and Shock, etc. His research interest is mainly on the elasto-plastic theory, damage mechanics, structural nonlinear dynamics, and composite structures. He has authored eight monographs and textbooks as well as more than 250 refereed journal articles in those fields.

Contents Chapter 1 Fundamentals of nonlinear elastic mechanics for laminated plates and shells Nonlinear geometric relations of laminated moderately thick plates; Elastic constitutive relations of laminated moderately thick plates; Nonlinear differential equations of motion of elastic laminated moderately thick plates; Nonlinear geometric relations of laminated moderately thick shells; Elastic constitutive relations of laminated moderately thick shells; Nonlinear differential equations of motion of elastic laminated moderately thick shells Chapter 2 Fundamentals of viscoelastic mechanics for laminated plates and shells Viscoelastic mechanical behaviors; Linear viscoelastic mechanical models; One-dimensional linear viscoelastic constitutive relations; Three-dimensional isotropic linear viscoelastic constitutive relations; Linear viscoelastic constitutive relations of fiber-reinforced composite; Linear viscoelastic constitutive relations of laminated moderately thick plates and shells; Dynamic behaviors of viscoelastic materials Chapter 3 Fundamentals of damage mechanics for laminated plates and shells Concepts of damage mechanics; Basic principles of damage mechanics; Anisotropic damage model; Damage model of fiber-reinforced composite materials Chapter 4 Nonlinear analysis of elastic and elasto-plastic laminated plates and shells with damage Post-buckling of elastic composite rectangular thin plates with damage; Post-buckling of elastic laminated rectangular thin plates with damage; Nonlinear dynamic response of elastic laminated rectangular thin plates with damage; Nonlinear dynamic response of elastic laminated moderately thick shallow spherical shells with damage under low velocity impact; Post-buckling of elasto-plastic laminated rectangular thin plates with damage; Nonlinear dynamic response of elasto-plastic laminated rectangular thin plates with damage Chapter 5 Nonlinear analysis of viscoelastic laminated plates and shells with damage Creep buckling of viscoelastic laminated moderately thick rectangular plates; Creep buckling of viscoelastic laminated moderately thick cylindrical shells; Dynamic stability of viscoelastic laminated rectangular thin plates; Dynamic stability of viscoelastic laminated cylindrical thin shells; Nonlinear creep buckling of viscoelastic laminated moderately thick cylindrical panels with damage; Nonlinear creep buckling of viscoelastic laminated cylindrical thin shells with damage; Creep post-buckling of viscoelastic laminated moderately thick cylindrical panels with damage; Nonlinear vibration of viscoelastic laminated moderately thick rectangular plates with damage; Nonlinear dynamic response of viscoelastic laminated rectangular thin plates with damage; Dynamic bifurcation and chaos of viscoelastic laminated moderately thick rectangular plates with damage 332 Chapter 6 Nonlinear analysis of elastic piezoelectric plates and piezoelectric laminated plates and shells with damage Post-buckling of elastic piezoelectric rectangular thin plates with Damage; Nonlinear dynamic response of elastic piezoelastic rectangular thin plates with damage; Nonlinear fatigue failure of elastic piezoelastic rectangular thin plates with damage; Dynamic bifurcation and chaos of the elastic piezoelectric rectangular thin plates with damage; Nonlinear dynamic response of elastic piezoelastic laminated rectangular thin plates with damage; Nonlinear dynamic stability of elastic piezoelectric laminated moderately thick rectangular plates with damage; Nonlinear vibration and active control of elastic Piezoelectric Laminated moderately thick rectangular plates with damage; Nonlinear dynamic response of elastic piezoelastic laminated moderatelythick shallow spherical shells with damage under low velocity impact Chapter 7 Nonlinear analysis of elastic laminated and piezoelectric laminated plates and shells with delamination Post-buckling of elastic laminated moderately thick circular plates with delamination; Nonlinear vibration of elastic laminated moderately thick circular plates with delamination; Post-buckling of elastic laminated cylindrical thin shells with delamination; Nonlinear vibration of elastic laminated cylindrical thin shells with delamination; Nonlinear dynamic response of elastic laminated cylindrical thin shells with delamination; Delamination growth of elastic laminated cylindrical thin shells with delamination under axial compressive load; Delamination growth of elastic laminated cylindrical thin shell with delamination under radial load; Fatigue delamination growth of elastic piezoelectric laminated cylindrical thin shell with delamination Chapter 8 Nonlinear analysis of elastic laminated and piezoelectric laminated plates and shells with interfacial damage Nonlinear mechanical model of elastic laminated rectangular flat shells with interfacial damage; Interlaminar stresses of elastic laminated beams with interfacial Damage; Interlaminar stresses of elastic laminated rectangular plates with interfacial damage; Interlaminar stresses of elastic laminated flat shells with interfacial damage; Nonlinear dynamic response of elastic laminated rectangular plates with interfacial damage; Nonlinear mechanical model of elastic piezoelectric laminated rectangular plates with interfacial damage; Interlaminar stress and electric potential distribution of elastic piezoelectric rectangular plates with interfacial damage; Nonlinear dynamic response of piezoelectric laminated rectangular plates with interfacial damage; Nonlinear vibration of piezoelectric laminated rectangular plates with interfacial damage; Nonlinear vibration active control of piezoelectric laminated rectangular plates with interfacial damage