1. (a) Describe the two main uses of phase diagrams [2 marks] (b) Sketch the Lead-Tin phase diagram and label and define

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1 A Describe The Two Main Uses Of Phase Diagrams 2 Marks B Sketch The Lead Tin Phase Diagram And Label And Define 1 (31.49 KiB) Viewed 14 times

1 A Describe The Two Main Uses Of Phase Diagrams 2 Marks B Sketch The Lead Tin Phase Diagram And Label And Define 2 (35.39 KiB) Viewed 14 times

1 A Describe The Two Main Uses Of Phase Diagrams 2 Marks B Sketch The Lead Tin Phase Diagram And Label And Define 3 (13.79 KiB) Viewed 14 times

1. (a) Describe the two main uses of phase diagrams [2 marks] (b) Sketch the Lead-Tin phase diagram and label and define the 'liquidus', 'solidus' and 'eutectic'. Determine the percentage of tin in the alloy when the specimen is at 250°C with 30% liquid and remainder being at solid phase. [14 marks) (c) Explain how the Lead-Tin phase diagram can be used to identify alloy compositions having the best properties for use as a solder in electronics. [4 marks) Total marks: 20
Formula sheet a. Casting Solidification time=0 TE Volume Area Bernoulli's Theorem ht+ P11 + =ht P2 + 12 pg 29 pg Mass continuity equation : Q = A v; = AzV2 = Area x velocity Reynold Number: Re = vDp Flow speed x Diamater x Fluid Density Dynamic viscosity of the fluid H b. Rolling Power per roll πFKN 60 where N(rpm) Roll force, approximate (frictionless condition) F = Lwo', Roll force, approximate (frictional condition) F = Lwo" (1+ ul 2h Contact Length L = VRAM Average flow stress in plain strain of material in the roll gap: 0; = 1.15 KE Average flow stress, og n+1 True strain, E = In c. Sheet metal forming Maximum punch force in shearing Fmax = 0.7SUTEL Average normal anisotropy ratio for rolled sheet R = Ro + 2R9s + Ryo D. Limited Drawing ratio, LDR Dp Springback estimation, approximate R = 4 RI ( ) - (2) - +1 Et
2R (284) + 1 af Sprinback factor, K = αι +1 = 2R () + 1 d. Generated Heat in resistance welding H = 12Rt Heat for melting certain volume of material, H = uvm