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CHEM 201: An Introduction to Materials Science & Engineering

CHEM 201: An Introduction to Materials Science & Engineering. Course Objective. Introduce fundamental concepts in MSE. You will learn about:. • material structure. • how structure dictates properties. • how processing can change structure. This course will help you to:.

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CHEM 201: An Introduction to Materials Science & Engineering

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  1. CHEM 201: An Introduction to Materials Science & Engineering Course Objective... Introduce fundamental concepts in MSE You will learn about: • material structure • how structure dictates properties • how processing can change structure This course will help you to: • use materials properly • realize new design opportunities with materials a

  2. LECTURES Lecturer: Üner Çolak Time: Tuesday 13:40-15:30, Thursday 15:40-16:30 PLEASE BE ON TIME Location: BZ-04 Activities: • Present new material • Announce reading and homework • Take quizzes and midterms* *Make-ups given only for emergencies. *Discuss potential conflicts beforehand. b

  3. About me ! • Education: • B.Sc.: Istanbul Technical University, Materials and Metallurgical Engineering • M.Sc.: Iowa State University, Nuclear and Materials Engineering • Ph.D.: Iowa State University, Nuclear and Materials Engineering • Current Position:Professor, Hacettepe University, Nuclear Engineering • Research Interests: Electrospinning, nanofiber production, advanced ceramics, coating materials

  4. RECITATIONS (If needed !) Instructor: TBD Times and Places: ___. X:XXam _____ XXX ___. X:XXpm _____ XXX ___. X:XXpm _____ XXX ___. X:XXam _____ XXX ___. X:XXpm _____ XXX Purpose: • Discuss homework, quizzes, exams • Hand back graded quizzes, exams • Discuss concepts from lecture If necessary, open more recitation sections. Recitations start ??? week. c

  5. TEACHING AND GRADING ASSISTANTS E-mail Name Office Tel. _TBD___ _____ XXX X-XXXX _____ _____ _____ XXX X-XXXX _____ _____ _____ XXX X-XXXX _____ _____ _____ XXX X-XXXX _____ _____ _____ XXX X-XXXX _____ Teaching Assistants will • participate in recitation sessions, • have office hours to help you with course material and problem sets. d

  6. OFFICE HOURS Contact me for special arrangements! Activities: • Discuss homework, quizzes, exams • Discuss lectures, book • Pick up missed handouts • Any materials science related discussions e

  7. COURSE MATERIAL Required text: • Materials Science and Engineering: An Introduction W.D. Callister, Jr., 7th edition, John Wiley and Sons, Inc. (2006). Both book and accompanying CD-ROM (material on the publisher’s web page) are needed. Online Material: • Web site : http://www.fen.bilkent.edu.tr/~uner/chem201/fenis.html • Reference material • Presentations, links, papers, course-work • HW questions: • Solutions to HW • Solutions for Quiz, Midterm, Final questions f

  8. GRADING Homework 10% Midterm #1 20% Midterm #2 20% Final 40% Term paper, attendance, and participation to in-class discussions 10% g

  9. Materials Science in Industry • HONDA • TOYOTA • HYUNDAI • GM • FORD • 3M • CHRYSLER • SEAGATE • BOEING • LOCKHEED • TSMC • UMC • HP • HITACHI • MOTOROLA • In TURKEY ? • INTEL • SONY • TOSHIBA • ELPIDA • SAMSUNG • GE • IBM • SEAGATE • APPLIED MATERIALS

  10. CHAPTER 1: MATERIALS SCIENCE & ENGINEERING Materials are... engineered structures...not blackboxes! Structure...has many dimensions... Structural feature Dimension (m) -10 < 10 atomic bonding -10 missing/extra atoms 10 -8 -1 crystals (ordered atoms) 10 -10 second phase particles -8 -4 10 -10 crystal texturing -6 > 10 1

  11. Structure, Processing, & Properties • Properties depend on structure ex: hardness vs structure of steel Data obtained from Figs. 10.21(a) and 10.23 with 4wt%C composition, and from Fig. 11.13 and associated discussion, Callister 6e. Micrographs adapted from (a) Fig. 10.10; (b) Fig. 9.27;(c) Fig. 10.24; and (d) Fig. 10.12, Callister 6e. Hardness (BHN) • Processing can change structure ex: structure vs cooling rate of steel 2

  12. The Materials Selection Process 1. Pick Application Determine required Properties Properties: mechanical, electrical, thermal, magnetic, optical, deteriorative. 2. Properties Identify candidate Material(s) Material: structure, composition. 3. Material Identify required Processing Processing: changes structure and overall shape ex: casting, sintering, vapor deposition, doping forming, joining, annealing. 3

  13. ELECTRICAL • Electrical Resistivity of Copper: Adapted from Fig. 18.8, Callister 6e. (Fig. 18.8 adapted from: J.O. Linde, Ann Physik5, 219 (1932); and C.A. Wert and R.M. Thomson, Physics of Solids, 2nd edition, McGraw-Hill Company, New York, 1970.) • Adding “impurity” atoms to Cu increases resistivity. • Deforming Cu increases resistivity. 4

  14. THERMAL • Space Shuttle Tiles: --Silica fiber insulation offers low heat conduction. • Thermal Conductivity of Copper: --It decreases when you add zinc! Fig. 19.0, Callister 6e. (Courtesy of Lockheed Missiles and Space Company, Inc.) Adapted from Fig. 19.4W, Callister 6e. (Courtesy of Lockheed Aerospace Ceramics Systems, Sunnyvale, CA) (Note: "W" denotes fig. is on CD-ROM.) Adapted from Fig. 19.4, Callister 6e. (Fig. 19.4 is adapted from Metals Handbook: Properties and Selection: Nonferrous alloys and Pure Metals, Vol. 2, 9th ed., H. Baker, (Managing Editor), American Society for Metals, 1979, p. 315.) 5

  15. MAGNETIC • Magnetic Storage: --Recording medium is magnetized by recording head. • Magnetic Permeability vs. Composition: --Adding 3 atomic % Si makes Fe a better recording medium! Adapted from C.R. Barrett, W.D. Nix, and A.S. Tetelman, The Principles of Engineering Materials, Fig. 1-7(a), p. 9, Electronically reproduced by permission of Pearson Education, Inc., Upper Saddle River, New Jersey. Fig. 20.18, Callister 6e. (Fig. 20.18 is from J.U. Lemke, MRS Bulletin, Vol. XV, No. 3, p. 31, 1990.) 6

  16. OPTICAL • Transmittance: --Aluminum oxide may be transparent, translucent, or opaque depending on the material structure. polycrystal: low porosity polycrystal: high porosity single crystal Adapted from Fig. 1.2, Callister 6e. (Specimen preparation, P.A. Lessing; photo by J. Telford.) 7

  17. DETERIORATIVE • Stress & Saltwater... --causes cracks! • Heat treatment: slows crack speed in salt water! Adapted from Fig. 11.20(b), R.W. Hertzberg, "Deformation and Fracture Mechanics of Engineering Materials" (4th ed.), p. 505, John Wiley and Sons, 1996. (Original source: Markus O. Speidel, Brown Boveri Co.) Adapted from Fig. 17.0, Callister 6e. (Fig. 17.0 is from Marine Corrosion, Causes, and Prevention, John Wiley and Sons, Inc., 1975.) 4mm --material: 7150-T651 Al "alloy" (Zn,Cu,Mg,Zr) Adapted from Fig. 11.24, Callister 6e. (Fig. 11.24 provided courtesy of G.H. Narayanan and A.G. Miller, Boeing Commercial Airplane Company.) 8

  18. Materials • Metals : • Ceramics : • Polymers : • Composites : SPORTS, DEFENSE • Semiconductors : ELECTRONICS • Bio-materials : BIO-MEDICAL APPLICATIONS • Nano technology : FUTURE • Fullerenes, Nanotubes, etc • MEMS • NANOMACHINES

  19. Examples • Semiconductors: • Prediction • Devices, surfaces, etc • Structure – Property relationship: • BN • Nano-materials: • Fullerenes • Future: • Nano-machines

  20. As of 2001 • Semiconductors: minimum feature size 180 nm. • 90 nm (65 nm) in year 2005. • 30 nm in year 2014. (updated est 32 nm in year 2009) • Data storage: largest areal density ~30Gbit/in2. • ~100 Gbit/in2 in year 2001-2002. • 1Tbit/in2 in year 2015. • Fullerenes and nanotubes: synthesis 1985 and 1991.

  21. SUMMARY Course Goals: • Use the right material for the job. • Understand the relation between properties, structure, and processing. • Recognize new design opportunities offered by materials selection. 9

  22. ANNOUNCEMENTS Reading: Chapter 1 and Chapter 2 Core Problems: Self-help Problems: 0

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