Materials for Biomedical Engineering. Mohamed N. Rahaman

Materials for Biomedical Engineering - Mohamed N. Rahaman


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of ceramics is that their tensile or flexural strength is also much lower than their compressive strength, often by a factor of ~5–10 or more (Table 4.1). This is because cracks propagate more stably under compressive loads. Cracks have to twist out of their original orientation to propagate parallel to the direction of compression. Consequently, fracture does not occur by the rapid propagation of one crack (usually the largest crack) as in tensile loading. Instead, fracture in compression occurs by the slow extension of many cracks that eventually lead to crushing of the specimen.

      Overall, because of the difference in crack propagation:

       Metals (and other ductile materials) have approximately the same measured strength in compression and in tension

       Ceramics (and other brittle materials) have a measured compressive strength that is much higher than their tensile (or flexural) strength

      Consequently, proper design of structural ceramics is required to avoid their exposure to excessively high tensile stresses.

      The fracture surface of ductile metals is often considerably rougher than that of ceramics or glasses due to the high degree of plastic deformation. Ceramics show a smoother fracture surface because crack propagation involves little or no plastic deformation but instead, involves cleavage of atomic planes. Another characteristic difference is that ductile fracture in metals occurs more slowly than brittle fracture of ceramics due to the energy absorbing process of plastic deformation during crack propagation.

      Theoretical Analysis of Brittle Fracture

Schematic illustration of geometrical model used in the Griffith theory of brittle fracture.

      Equation (4.24) is often written

      (4.25)equation

      where, Gc is called the toughness, equal to 2 γ (Section 4.2.6). Thus, we can say that brittle facture will occur when

      (4.28)equation

      Brittle materials do not contain just one crack but many cracks that differ in size. In tension (or flexure), fracture occurs typically by rapid propagation of the largest crack of length 2c. On the other hand, fracture in compression typically occurs less rapidly by extension of many cracks. Thus, the fracture strength in compression is given as

equation

      where, H is ~10 and images is the average crack length.

      4.2.6 Toughness and Fracture Toughness

      Toughness refers to the ability of a material to withstand rapid propagation of a crack through it. The toughness Gc of a material is defined as the energy absorbed per unit area of crack (units J/m2). A high Gc means that it is difficult for a crack to propagate through a material, as in pure ductile metals such as aluminum and copper, for example, which have Gc values in the range 100–1000 kJ/m2. In comparison, brittle materials such as ceramics have low Gc values, in the range 0.01–0.1 kJ/m2, and, thus, it is easy for cracks to propagate through them.


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