1. Pendahuluan Material Komposit
BAB 2 Macromechanical Analysis of a Lamina
Angle Lamina Stress-Strain
Qomarul Hadi, ST,MT
Teknik Mesin
Universitas Sriwijaya
Sumber Bacaan
Mechanics of Composite Materials by Kaw

2. Hooke's Law for a 2D Angle Lamina
Gambar 2.20
Local and global axes of an angle lamina

3. Relationship of Global and Local Stresses

4. Relationship of Global and Local Strains

5. Expanding Global Strain-Local Strain Relationship

6. Global Stress and Strain

7. Transformed Compliance Matrix

8. Transformed Reduced Stiffness Matrix

9. END

10. Pendahuluan Material Komposit
BAB 2 Macromechanical Analysis of a Lamina
Engineering Constants
Qomarul Hadi, ST,MT
Teknik Mesin
Universitas Sriwijaya
Sumber Bacaan
Mechanics of Composite Materials by Kaw

11. Pure Axial Load in Direction x
Gambar 2.23
Application of stresses to find
engineering constants of an angle lamina

12. Engineering Constants

13. Pure Axial Load in Direction y
(b)
Gambar 2.23
Application of stresses to find
engineering constants of an angle lamina

14. Engineering Constants

15. Pure Shear Load in x-y Plane
(c)
Gambar 2.23
Application of stresses to find
engineering constants of an angle lamina

16. Engineering Constants

17. Stress-Strain Relationships for Angle Lamina

18. Engineering Constant Ex of an Angle Lamina

19. Engineering Constant Ey of an Angle Lamina

20. Engineering Constant Gxy of an Angle Lamina

21. Engineering Constant mx of an Angle Lamina

22. Engineering Constant my of an Angle Lamina

23. END

24. Pendahuluan Material Komposit
BAB 2 Macromechanical Analysis of a Lamina
Invariant Form of Transformed Matrices
Qomarul Hadi, ST,MT
Teknik Mesin
Universitas Sriwijaya
Sumber Bacaan
Mechanics of Composite Materials by Kaw

25. Invariant Form of Stiffness Matrix

26. Invariant Form of Compliance Matrix

27. END

28. Pendahuluan Material Komposit
BAB 2 Macromechanical Analysis of a Lamina
Maximum Stress Failure Theory
Qomarul Hadi, ST,MT
Teknik Mesin
Universitas Sriwijaya
Sumber Bacaan
Mechanics of Composite Materials by Kaw

29. Strength Failure Theories for an Angle Lamina
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

30. Maximum Stress Failure Theory
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.

31. Example Find the maximum value of S>0 if a stress of
is applied to a 60o 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.
Gambar 2.33
Off-axis loading in the x-direction

32. Solution
The stresses in the local axes are

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

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

35. END