(a) How does the Griffith criterion help to explain the fracture of brittle materials?(b) Describe how it can be extended to semi-brittle materials.

Fracture can be classified as either ductile or brittle. Discuss both types of fracture,including examples of types of material that exhibit the corresponding fracture mechanism

QUESTION TWO (20 MARKS)a. Briefly explain why HCP metals are typically more brittle than FCC and BCC metals.(4 marks)b. The key to strengthening metals is in hindering the motion of dislocations. Briefly describethe four strengthening mechanisms in metals. Be sure to explain how dislocations areinvolved in each of the strengthening mechanisms. (8 marks)c. In one of the four strengthening mechanisms above (Question 1a), identify anothermechanical property that is significantly degraded, and explain why this has occurred eventhough strength is increased. (2 marks)d. Determine whether or not it is possible to cold work steel to give a minimum Brinellhardness of 225, and at the same time have a ductility of at least 12%EL. Justify yourdecision. Use equation 1 and Figure 1. (6 marks)𝑇𝑆(𝑀𝑃𝑎) = 3.45 𝑥 𝐻𝐵……………(1)Where TS = Tensile strength and HB = Brinnel hardnessFigure 1: For 1040 steel, brass, and copper, (a) the increase in yield strength, (b) theincrease in tensile strength, and (c) the decrease in ductility (%EL) with per cent (%) coldwork.

(a)(b)(c)(d)(e)Whatareintergranularfractureandtransgranularfracture?Andwhatarethemechanismsassociatedwiththem?(4marks)Whatcrystallinestructureshouldamaterialhaveforliquidnitrogencontainers?Why?|(3marks)Withtheaidofsketch,describetheeffectofgrainsizeon ductile-brittletransitiontemperature.(4marks)Arelativelylargeandthickceramicplateissubjecttoatensilestressoandhasaninternalcrackwithalengthof 0.2mm.AssumetheplanestrainfracturetoughnessKie oftheceramicis0.5MPV,calculatethe criticaltensilestressrequiredforthepropagationofthiscrack.Assumeavalueof1.0forY.~(4marks)Steady-statecreepratedataaregivenbelowforaluminumat260°C:é, (x) o (MPa)2x 104 33.65 25Computethesteady-statecreeprateatastressof10MPaand260°C,(5marks)P.6 of 7

Discuss the failure theories for ductile and brittle materials.

What are those four (4) types of defects? Briefly explain each category.2. A relatively large plate of a glass is subjected to a tensile stress of 40 MPa. If the specificsurface energy and modulus of elasticity for this glass are 0.3 J/m2 and 69 GPa,respectively, determine the maximum length of a surface flaw that is possible withoutfracture.3. What is the magnitude of the maximum stress that exists at the tip of an internalcrack having a radius of curvature of 2.5 x 10-4 mm and a crack length of 2.5 x 10-2mm when a tensile stress of 170 MPa is applied?4. A fatigue test was conducted in which the mean stress was 50 MPa and the stressamplitude was 225 MPa.(a) Compute the maximum and minimum stress levels.(b) Compute the stress ratio.(c) Compute the magnitude of the stress range.5. The fatigue data for a brass alloy are given as follows:(a) Make an S–N plot (stress amplitude versus logarithm cycles to failure) using thesedata.(b) Determine the fatigue strength at 5 x 105 cycles.(c) Determine the fatigue life for 200 MPa.