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Intro To Engineering Materials

Subject : engineering
Instructions:
  • Answer 43 questions in 15 minutes.
  • If you are not ready to take this test, you can study here.
  • Match each statement with the correct term.
  • Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.
1. Metals as well as nonmetals that have more than one crystal structure.






2. Crystal structure with a hexagonal unit cell. Coordination # = 12. APF = 0.74.






3. A linear defect associated with the lattice distortion created when normally parallel planes are joined together to form a helical ramp.






4. The rate of diffusion or rate of mass transfer.






5. Crystal structure with atoms located at each of the corners and the centers of all the cube faces. Coordination # = 12. APF = 0.74.






6. Prisms having three sets of parallel faces.






7. Atomic migration in pure metals.






8. The ratio of stress to strain when deformation is totally elastic; also a measure of the stiffness of a material.






9. The sum of the sphere volumes of all atoms within a unit cell divided by the unit cell volume.






10. Deformation that is permanent or nonrecoverable after release of the applied stress.






11. The instantaneous load applied to a specimen divided by its cross - sectional area before any deformation.






12. Atomic migration from interstitial site to interstitial site. Typically happens more frequently than vacancy diffusion.






13. The total area under the material's tensile engineering stress - strain curve taken to fracture.






14. The maximum engineering stress - in tension - that may be sustained without fracture.






15. The process whereby atoms of one metal diffuse into another.






16. The change in gauge length of a specimen divided by its original gauge length.






17. Having identical values of a property in all crystallographic directions.






18. The diffusion condition for which there is no net accumulation or depletion of diffusing species.






19. The diffusion condition for which there is some net accumulation or depletion of diffusing species.






20. A homogeneous crystalline phase that contains two or more chemical species.






21. The manner in which atoms - ions - or molecules are spatially arranged.






22. The onset of plastic deformation.






23. The measure of a material's resistance to deformation by surface indentation or by abrasion.






24. Crystal structure with atoms located at all eight corners and a single atom at the cube center. Coordination # = 8. APF = 0.68.






25. The slope of the concentration profile at a specific position.






26. Deformation that is non - permanent and totally recovered upon release of applied stress.






27. Atomic migration from a normal lattice position to an adjacent vacant lattice site or vacancy.






28. Product of the calculated stress level and a design factor.






29. Linear defect associated with the lattice distortion produced in the vicinity of the end of an extra half- plane of atoms within a crystal.






30. The capacity of a material to absorb energy when it is elastically deformed.






31. A three- dimensional array of points coinciding with atom positions.






32. 1.38e-23

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33. A stress used for design purposes; for ductile metals - it is the yield strength divided by a factor of safety.






34. Material in which the atoms are situated in a repeating or periodic array over large atomic distances.






35. The energy required to separate two atoms that are chemically bonded to each other.






36. Time- dependent elastic deformation.






37. The stress required to produce a very slight yet specified amount of plastic strain.






38. Exhibiting different values of a property in different crystallographic directions.






39. The natural logarithm of the ratio of instantaneous gauge length to original guage length of a specimen being deformed by a uniaxial force.






40. Material transport by atomic motion.






41. The instantaneous applied load divided by the instantaneous cross - sectional area of a specimen.






42. A measure of a material's ability to undergo appreciable plastic deformation before fracture; may be expressed as percent elongation (%EL) or percent reduction area (%RA) from a tensile test.






43. The curve that results when the concentration of a chemical species is plotted versus position in a material.