Mechanics of composite structures / László P. Kollár, George S. Springer.
Kollar, L. Peter (Laszlo Peter), 1926-| Call Number | 624.1/8 |
| Author | Kollar, L. Peter 1926- author. |
| Title | Mechanics of composite structures / László P. Kollár, George S. Springer. |
| Physical Description | 1 online resource (xvii, 480 pages) : digital, PDF file(s). |
| Notes | Title from publisher's bibliographic system (viewed on 05 Oct 2015). |
| Contents | Introduction -- Displacements, strains, stresses -- Laminated composites -- Thin plates -- Sandwich plates -- Beams -- Beams with shear deformation -- Shells -- Finite element analysis -- Failure criteria -- Micromechanics -- Cross-sectional properties of thin-walled composite beams -- Buckling loads and natural frequencies of orthotropic beams with shear deformation -- Typical material properties. |
| Summary | An increase in the use of composite materials in areas of engineering has led to a greater demand for engineers versed in the design of structures made from such materials. This book offers students and engineers tools for designing practical composite structures. Among the topics of interest to the designer are stress-strain relationships for a wide range of anisotropic materials; bending, buckling, and vibration of plates; bending, torsion, buckling, and vibration of solid as well as thin walled beams; shells; hygrothermal stresses and strains; finite element formulation; and failure criteria. More than 300 illustrations, 50 fully worked problems, and material properties data sets are included. Some knowledge of composites, differential equations, and matrix algebra is helpful but not necessary, as the book is self-contained. Graduate students, researchers, and practitioners will value it for both theory and application. |
| Added Author | Springer, George S., author. |
| Subject | Composite materials Mechanical properties. |
| Multimedia |
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| Summary | An increase in the use of composite materials in areas of engineering has led to a greater demand for engineers versed in the design of structures made from such materials. This book offers students and engineers tools for designing practical composite structures. Among the topics of interest to the designer are stress-strain relationships for a wide range of anisotropic materials; bending, buckling, and vibration of plates; bending, torsion, buckling, and vibration of solid as well as thin walled beams; shells; hygrothermal stresses and strains; finite element formulation; and failure criteria. More than 300 illustrations, 50 fully worked problems, and material properties data sets are included. Some knowledge of composites, differential equations, and matrix algebra is helpful but not necessary, as the book is self-contained. Graduate students, researchers, and practitioners will value it for both theory and application. |
| Notes | Title from publisher's bibliographic system (viewed on 05 Oct 2015). |
| Contents | Introduction -- Displacements, strains, stresses -- Laminated composites -- Thin plates -- Sandwich plates -- Beams -- Beams with shear deformation -- Shells -- Finite element analysis -- Failure criteria -- Micromechanics -- Cross-sectional properties of thin-walled composite beams -- Buckling loads and natural frequencies of orthotropic beams with shear deformation -- Typical material properties. |
| Subject | Composite materials Mechanical properties. |
| Multimedia |