1. METALS Introduction to MATERIAL SCIENCE HONORS

3. Atomic Structure

4. Metallic Bonding “Sea of Electrons”

5. Properties of Metals Metals are strong.

6. Metals have a lustrous look when polished.

7. Metals are flexible.

8. Metals are malleable.

9. Lab: Metal Malleability

10. Properties of Metals Metals expand when heated.

11. Thermal Expansion

12. Properties of Metals Metals have a very high conductivity rate of heat and electricity.

13. Commercial Applications Cookware Copper Cast Iron Aluminum Steel

14. Medical Applications Metal nanoparticles, such as gold, can heat an area up to 1,000 times its size.

15. A short peptide is attached to the nanospheres of gold that enabled them to bind to tumor cells.

16. Using laser light, Ohio University scientists uses gold nanoparticles to kill cancer tumors.

17. Electrical Applications

18. Properties of Metals Certain metals can be magnetic.

19. Non-Magnetic Metals

20. Magnetic Metals

21. Properties of Metals Metals are crystalline in structure.

22. Crystal Structures of Metals AluminumFCC CadmiumHCP ChromiumBCC CobaltHCP CopperFCC GoldFCC IronBCC LeadFCC MagnesiumHCP NickelFCC NiobiumBCC PlatinumFCC PoloniumCubic SilverFCC TitaniumHCP VanadiumBCC ZincHCP ZirconiumHCP

23. Disadvantages of Metals Metals corrode!

24. Unit #1: History of Metals

25. Metallurgy Metallurgy is one of the oldest applied sciences. The history of metals is closely linked to that of coins and gemstones.

26. As early as 3400 B.C., at the beginning of the historical period, the Egyptians had an intimate knowledge of gold, copper ores and of processes of extracting metals.

27. Metallurgy Metals were also known to the Mesopotamians, Greeks and the Romans.

28. Native Metals Copper Gold MercurySilver

29. Iron

30. Native iron is easily distinguishable because it contains 6-8% nickel. Iron was available to the ancients in small amounts from meteors.

31. Copper Age (~4000 B.C.) The first metal to be used was copper.

32. The first tools, implements & weapons were made from copper.

33. The oldest known casting in existence, a pure copper frog, was cast in Mesopotamia.

34. Bronze Age (~3000 B.C.) Bronze was the first alloy used. Bronze = Copper & 5-10% Tin

35. New discoveries near Ban Chiang, Thailand, indicate that bronze technology was maybe known there as early as 4500 BC!

36. Iron Age (~2000 B.C.) Iron smelting began in Egypt.

37. Process of Iron Smelting A mixture of iron and oxide impurities is heated to about 1,500°C. Molten iron is drawn off on one side, and slag (waste) on the other.

38. Iron Age (~2000 B.C.) Iron weapons revolutionized warfare and iron implements did the same for farming.

39. Iron Pillar ~ 400A.D. This iron pillar dating to 400 A.D., remains standing today in Delhi, India. Corrosion to the pillar has been minimal a skill lost to current ironworkers.

40. Cast Iron (~800) Chinese were the first in the production of cast iron.

41. Molten iron is "cast" into forms made of sand.

42. Steel (~500)

43. Steel Production Fe 2 O 3(s) + 3CO (g) = 2Fe( l ) + 3CO 2(g) Step 1:

44. Molten iron is mixed with carbon & other elements. Step 2:

45. How To Smelt Iron? Wood Wood was needed as timber and it takes too much wood so smelt iron.

46. Coal Although cheap and plentiful, coal contained sulphur that made the iron too brittle to be of any use.

47. Abraham Darby In 1709, Abraham Darby finally succeeded in smelting iron with coke.

48. 1750 Steel becomes the world’s most used material.

49. 1850 Charles Martin Hall Isolated Pure Aluminum

50. 1900

51. Specialty Alloys (1935-1955)

52. Human Body Parts (1955-present) High quality alloys of titanium & cobalt.

53. Super Alloys (1970-Present) Since they can sustain high temperatures, super alloys were developed for jet engines.

54. Transparent Aluminum (2010) Fine grained aluminum is heated to 1200°C! 3X tougher than steel & it’s see-through!

55. Unit #2: Metal Processing

56. Cold Working Altering the shape or size of a metal by plastic deformation.

57. Types of Cold-Working Rolling Drawing Pressing

58. Hot Working Hot working refers to plastic deformation carried out above the recrystallization temperature.

59. Annealing

60. Quenching

61. Tempering

62. Unit #3: Alloys An alloy is a metal composed of more than one element.

63. Examples of Alloys Bronze Brass Steel

64. Desirable Properties Corrosion Prevention Mechanical Performance

65. Unit #4: Corrosion Process & Prevention