Ebook: Delamination Buckling of Composite Materials
Author: L. M. Kachanov (auth.)
- Genre: Technique // Mechanical Engineering
- Tags: Mechanics, Automotive Engineering, Characterization and Evaluation of Materials
- Series: Mechanics of Elastic Stability 14
- Year: 1988
- Publisher: Springer Netherlands
- City: Dordrecht; Boston :, Norwell, MA, U.S.A
- Edition: 1
- Language: English
- djvu
LIOn Delamination of Laminated Composites (a) Fiber-Reinforced Composites Considerable technological advances in the production of high-strength fibers (graphite, boron, etc.) have led to a wide use of light high-strength composite materials (graphite epoxy, boron-epoxy, etc.). It is expedient, to make thin walled composite rods, plates, and shells from such materials. Plates can be made by bonding a set of unidirectional thin fiber layers, Fig.l.l. Such plates are orthotropic, as a rule. A random short-fiber composite is shown in Fig. 1.2. Fiber-reinforced composites are widely used in thin-walled aircraft structures because of their specific high strength. For example, the graphite-epoxy composite is characterized by a unidirectional tensile strength of 1.4 GPa while the density is 1.6 Mg/rrt? . For comparison, we may take a steel (steel 4340) whose corresponding properties are identified by values like 1.2 GPa and 7.8 Mg/rrt? . 1. INTRODUCTION Figure 1.1 2 1.1. On Delamination of Laminated Composites Figure 1.2 3 1. INTRODUCTION It is characteristic for laminated plastic material to possess a fairly low bonding. Therefore, low-velocity impacts and defects in manufacturing lead to local delamination. (b) Linear Problems of Delamination Buckling Delamination can significantly reduce the compressive strength and stiffness of the laminate. Local delamination can be considered as a crack in the bond. Under buckling there appears a high interlaminate stress at the crack edge that leads to a spreading of the crack. Delamination growth can lead to structural instability.
It is with great pleasure that I present to the public the masterful treatise of Professor L.M. Kachanov on delamination buckling of composite materials. As the author has pointed out so rightly, an application of composite materials becomes more and more common in many branches of engineering practice. Therefore, it is essential that designers are aware of possible failure modes of such materials and understand their mechanisms. One of these failure modes is delamination buckling, and Professor L.M. Kachanov presents its theory in this book in his usual ingenious way.H. Leipholz