Chapter 2 Macromechanical Analysis of a Lamina Maximum Stress Failure Theory Dr. Autar Kaw Department of Mechanical Engineering University of South Florida,

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Presentation transcript:

Chapter 2 Macromechanical Analysis of a Lamina Maximum Stress Failure Theory Dr. Autar Kaw Department of Mechanical Engineering University of South Florida, Tampa, FL Courtesy of the Textbook Mechanics of Composite Materials by Kaw

 The failure theories are generally based on the normal and shear strengths of a unidirectional lamina.  In the case of a unidirectional lamina, the five strength parameters are:  Longitudinal tensile strength  Longitudinal compressive strength  Transverse tensile strength  Transverse compressive strength  In-plane shear strength

 The lamina is considered to be failed if: is violated.  Note that all five strength parameters are positive numbers.  Each component of stress does not interact with each other.

Find the maximum value of S>0 if a stress of is applied to a 60 o lamina of Graphite/Epoxy. Use Maximum Stress failure theory. Use properties of a unidirectional Graphite/Epoxy lamina given in Table 2.1 of the textbook Mechanics of Composite Materials by Autar Kaw.Mechanics of Composite Materials by Autar Kaw FIGURE 2.33 Off-axis loading in the x-direction

The stresses in the local axes are

The ultimate strengths of a unidirectional Graphite/Epoxy lamina are:

Then using the inequalities of the Maximum Stress Failure Theory: or, All the inequality conditions (and The above inequalities also show that the angle lamina will fail in shear. The maximum stress that can be applied before failure is: )are satisfied if