Transcript Document
MatSE 259 Exam 1 Review Session 1. Exam structure – 25 questions, 1 mark each 2. Do NOT forget to write your student I.D. on the answer sheet 3. Exams are sent to UTS for machine grading – please mark your answers clearly. No credit will be given if the machine cannot decipher your score Steel designation AISI-SAE numbering system for steels XX XX Percent carbon (wt) x 100 Alloy content For example, 5060 has ??? Aluminium alloy designation Numbering system for Al alloys not the same as steels Number 1xxx 2xxx 3xxx 4xxx 5xxx 6xxx 7xxx 8xxx Major alloy addition Cu Mn Si Mg Mg & Si Zn other Numbering system also includes heat treatments – see website Mechanical Properties Change due to; • C content in steel • Alloying elements • Heat treatment - annealing, normalizing, tempering… • Mechanical working - cold rolling, hot rolling, STRUCTURE changes Phase Diagrams Differentiate between “phase” and “state” Phase diagram is a plot showing the relationship between temperature, composition and the quantities of phases in a system. On a phase diagram, you should be able to understand simple heat treatments, like the T4 studied in class. For example, Al 2024-T6. Mechanical properties Tensile testing • Elastic deformation – Plastic deformation – Yield • Hooke’s Law Hardness testing • Penetration by indenter under load • Types – Rockwell, Brinell, Vickers, Knoop, Mohs • Hardness-strength conversion Mechanical properties (contd.) Impact Fracture testing • Charpy and Izod • Ductile-to-brittle transition Creep testing • Primary, secondary, tertiary • Steady-state creep rate Fatigue testing • S-N curves • Fatigue limit, fatigue strength, fatigue life Investigation of the fracture surface for the origin of crack • “Chevron’’, striations, beachmarks Dislocations • Dislocations move along slip planes – ductility • It is possible to plastically deform a material which contains dislocations Crystal Structures Most common crystal structures for metals are: - Cubic close-packed - Hexagonal close-packed - Body centered cubic • close-packed; most densely packed • Slip planes are the most densely packed planes in these structures. Dislocations • The ability of a metal to deform depends on the ability of the dislocation to move • Restricting dislocation motion will strengthen the material; - solid solution hardening - grain size reduction - strain hardening (work hardening) - precipitation hardening (age hardening) Dislocations Interactions • With each other - annihilate - entangle - form generators • With grain boundaries - disappear - pile-ups