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What is the estimated flaw size responsible for the failure of a component made from silicon carbide (SiC) that fractures at a stress level of 250 MPa? Do you think this flaw can be observed without the aid of a magnification device if it is on the surface of the object? If needed, use the information on the following page.

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TABLE 8.3 Typical Values of Fracture Toughness (Kic) for Various Materials Material KIC (MPa Metal or alloy Mild steel Medium-carbon steel Rotor steels (A533; Discalloy) Pressure-vessel steels (HY130) High-strength steels (HSS) Cast iron Pure ductile metals (e.g., Cu, Ni, Ag, Al) Be (brittle, hcp metal) Aluminum alloys (high strength-low strength) Titanium alloys (Ti-6Al-4V) Ceramic or glass Partially stabilized zirconia Electrical porcelain Alumina (Al2O03) Magnesia (MgO) Cement/concrete, unreinforced Silicon carbide (SiC) Silicon nitride (Si3N4) Soda glass (Na2O-SiO₂) Polymer Polyethylene High-density Low-density Polypropylene Polystyrene Polyesters Polyamides (nylon 66) ABS 140 51 204-214 170 50-154 6-20 100-350 4 23-45 55-115 9 1 3-5 3 0.2 3 4-5 0.7-0.8 2 1 3 2 0.5 3 4 1.0-2.6 0.3-0.5 m) Polycarbonates Epoxy Source: Data from M. F. Ashby and D. R. H. Jones, Engineering Materials-An Introduction to Their Properties and Applications, Pergamon Press, Inc., Elmsford, NY, 1980; GTE Laboratories, Waltham, MA; and Design Handbook for Dupont Engineering Plastics.