Instructor's Solutions Manual for Engineering Mechanics of Composite Materials
Title | Instructor's Solutions Manual for Engineering Mechanics of Composite Materials PDF eBook |
Author | Isaac M. Daniel |
Publisher | Oxford University Press, USA |
Pages | 186 |
Release | 2006 |
Genre | Composite materials |
ISBN | 9780195150988 |
Principles of Composite Material Mechanics
Title | Principles of Composite Material Mechanics PDF eBook |
Author | Ronald F. Gibson |
Publisher | CRC Press |
Pages | 660 |
Release | 2016-02-10 |
Genre | Science |
ISBN | 1498788246 |
Principles of Composite Material Mechanics covers a unique blend of classical and contemporary mechanics of composites technologies. It presents analytical approaches ranging from the elementary mechanics of materials to more advanced elasticity and finite element numerical methods, discusses novel materials such as nanocomposites and hybrid multis
Mechanics Of Composite Materials
Title | Mechanics Of Composite Materials PDF eBook |
Author | Robert M. Jones |
Publisher | CRC Press |
Pages | 538 |
Release | 2018-10-08 |
Genre | Science |
ISBN | 1498711065 |
This book balances introduction to the basic concepts of the mechanical behavior of composite materials and laminated composite structures. It covers topics from micromechanics and macromechanics to lamination theory and plate bending, buckling, and vibration, clarifying the physical significance of composite materials. In addition to the materials covered in the first edition, this book includes more theory-experiment comparisons and updated information on the design of composite materials.
Intermediate Mechanics of Materials
Title | Intermediate Mechanics of Materials PDF eBook |
Author | J. R. Barber |
Publisher | Springer Science & Business Media |
Pages | 629 |
Release | 2010-11-02 |
Genre | Science |
ISBN | 9400702957 |
This book covers the essential topics for a second-level course in strength of materials or mechanics of materials, with an emphasis on techniques that are useful for mechanical design. Design typically involves an initial conceptual stage during which many options are considered. At this stage, quick approximate analytical methods are crucial in determining which of the initial proposals are feasible. The ideal would be to get within 30% with a few lines of calculation. The designer also needs to develop experience as to the kinds of features in the geometry or the loading that are most likely to lead to critical conditions. With this in mind, the author tries wherever possible to give a physical and even an intuitive interpretation to the problems under investigation. For example, students are encouraged to estimate the location of weak and strong bending axes and the resulting neutral axis of bending before performing calculations, and the author discusses ways of getting good accuracy with a simple one degree of freedom Rayleigh-Ritz approximation. Students are also encouraged to develop a feeling for structural deformation by performing simple experiments in their outside environment, such as estimating the radius to which an initially straight bar can be bent without producing permanent deformation, or convincing themselves of the dramatic difference between torsional and bending stiffness for a thin-walled open beam section by trying to bend and then twist a structural steel beam by hand-applied loads at one end. In choosing dimensions for mechanical components, designers will expect to be guided by criteria of minimum weight, which with elementary calculations, generally leads to a thin-walled structure as an optimal solution. This consideration motivates the emphasis on thin-walled structures, but also demands that students be introduced to the limits imposed by structural instability. Emphasis is also placed on the effect of manufacturing errors on such highly-designed structures - for example, the effect of load misalignment on a beam with a large ratio between principal stiffness and the large magnification of initial alignment or loading errors in a strut below, but not too far below the buckling load. Additional material can be found on http://extras.springer.com/ .
Engineering Mechanics of Composite Materials
Title | Engineering Mechanics of Composite Materials PDF eBook |
Author | Isaac M. Daniel |
Publisher | |
Pages | 411 |
Release | 2007 |
Genre | Composite materials |
ISBN | 9780198098386 |
Elasticity
Title | Elasticity PDF eBook |
Author | Martin H. Sadd |
Publisher | Elsevier |
Pages | 474 |
Release | 2010-08-04 |
Genre | Technology & Engineering |
ISBN | 008047747X |
Although there are several books in print dealing with elasticity, many focus on specialized topics such as mathematical foundations, anisotropic materials, two-dimensional problems, thermoelasticity, non-linear theory, etc. As such they are not appropriate candidates for a general textbook. This book provides a concise and organized presentation and development of general theory of elasticity. This text is an excellent book teaching guide. Contains exercises for student engagement as well as the integration and use of MATLAB Software Provides development of common solution methodologies and a systematic review of analytical solutions useful in applications of
Stress Analysis of Fiber-reinforced Composite Materials
Title | Stress Analysis of Fiber-reinforced Composite Materials PDF eBook |
Author | M. W. Hyer |
Publisher | DEStech Publications, Inc |
Pages | 718 |
Release | 2009 |
Genre | Technology & Engineering |
ISBN | 193207886X |
Updated and improved, Stress Analysis of Fiber-Reinforced Composite Materials, Hyer's work remains the definitive introduction to the use of mechanics to understand stresses in composites caused by deformations, loading, and temperature changes. In contrast to a materials science approach, Hyer emphasizes the micromechanics of stress and deformation for composite material analysis. The book provides invaluable analytic tools for students and engineers seeking to understand composite properties and failure limits. A key feature is a series of analytic problems continuing throughout the text, starting from relatively simple problems, which are built up step-by-step with accompanying calculations. The problem series uses the same material properties, so the impact of the elastic and thermal expansion properties for a single-layer of FR material on the stress, strains, elastic properties, thermal expansion and failure stress of cross-ply and angle-ply symmetric and unsymmetric laminates can be evaluated. The book shows how thermally induced stresses and strains due to curing, add to or subtract from those due to applied loads.Another important element, and one unique to this book, is an emphasis on the difference between specifying the applied loads, i.e., force and moment results, often the case in practice, versus specifying strains and curvatures and determining the subsequent stresses and force and moment results. This represents a fundamental distinction in solid mechanics.