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This document provides an overview of an introduction to materials science and engineering course. It outlines the required textbook, grading breakdown, and chapters to be covered. Chapter 1 introduces materials science and engineering and why it is studied. The main types of materials are discussed as metals, ceramics, polymers, and composites. Advanced materials and the relationship between material structure, processing, and properties are also introduced.

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Chapter 1 - MENG286: INTRODUCTION TO MATERIALS SCIENCE & ENGINEERING
Chapter 1 - 2 COURSEMATERIALS Required text: •Materials Science and Engineering: An Introduction, W.D. Callister, Jr. and D.G. Rethwisch, 8th edition, John Wiley and Sons, Inc. (2010).
Chapter 1 - 3 GRADING Biweekly quizzes: 20% • Held at the beginning of tutorial hours • Based on core textbook problems Laboratory reports :30% Four laboratory reports Midterm: 20% Final :30% Attends : <%50=NG. Filed to submit the lab or never attend lab hours=NG.
Chapter 1 - 4 Chapter 1 - Introduction • What is materials science? • Why should we know about it? • Materials drive our society – Stone Age – Bronze Age – Iron Age – Now? • Silicon Age? • Polymer Age?
Chapter 1 - WHY STUDY MATERIALS SCI. & ENG.? 5 • To be able to select a material for a given use based on considerations of cost and performance. • To understand the limits of materials and the change of their properties with use. • To be able to create a new material that will have some desirable properties.
Chapter 1 - MATERIALS SICENCE VS MATERIALS ENG. 6 On the basis of structure-property correlations: •Materials science involves investigating the relationship btw structures & properties of materials. •Materials Eng. is designing or engineering the structure of a material to produce a predetermined set of properties.
Chapter 1 - MATERIALS SICENCE VS MATERIALS ENG. 7 On the basis of functional prospective: •The role of materials scientist is to develop or synthesize new materials •Materials Eng. is called upon to create new products or systems using existing materials, and/or develop techniques for processing materials.
Chapter 1 - TYPESOFMATERIALS 8 Most engineering materials can be classified into one of three basic categories: 1. Metals 2. Ceramics 3. Polymers Their chemistries are different, and their mechanical and physical properties are different In addition, there is a fourth category: 4. Composites -is a nonhomogeneous mixture of the other three types, rather than a unique category
Chapter 1 - 1 1 Source: Fundamentals of Modern Manufacturing materials: processes and systems, M.P. Groover, 5th edition, John Wiley & Sons Inc. (2007). TYPESOF MATERIALS (con’t)
Chapter 1 - METALS Fig 1.8 Familiar objects that are made of metals and metal alloys Metallic bonds – Strong, ductile, resistant to fracture – High thermal & electrical conductivity – Opaque, reflective.
Chapter 1 - CERAMICS 13 Fig 1.8 Familiar objects that are made of ceramic materials Ionic bonding –Brittle, glassy, elastic –Non-conducting (insulative to the passage of heat & electricity) –Transparent, translucent, or opaque –Some exhibit magnetic behavior (e.g. Fe3O4)
Chapter 1 - POLYMERS/PLASTICS Fig 1.8 Familiar objects that are made of polymeric materials Covalent bonding  sharing of e’s –Soft, ductile, low strength, low density –Thermal & electrical insulators –Optically translucent or transparent. –Chemically inert and unreactive –Sensitive to temperature changes
Chapter 1 - COMPOSITES 13 – Light, strong, flexible – High costs
Chapter 1 - ADVANCEDMATERIALS 14 Materials that are utilized in high-tech applications •Semiconductors Have electrical conductivities intermediate between conductors and insulators •Biomaterials Must be compatible with body tissues •Smart materials Could sense and respond to changes in their environments in predetermined manners •Nanomaterials Have structural features on the order of a nanometer, some of which may be designed on the atomic/molecular level
Chapter 1 - Example– HIP IMPLANT 15 • Requirements – mechanical strength (many cycles) – good lubricity – biocompatibility Adapted from Fig. 22.26, Callister 7e.
Chapter 1 - Typesof Materials(Con’t) 16 Fig 1.3 Bar chart of room-temperature density values for various metals, ceramics, polymers, and composite materials
Chapter 1 - Typesof Materials(Con’t) 17 Fig 1.4 Bar chart of room-temperature stiffness values for various metals, ceramics, polymers, and composite materials
Chapter 1 - Typesof Materials(Con’t) Fig 1.5 Bar chart of room-temperature strength (i.e. tensile strength) values for various metals, ceramics, polymers, and composite materials
Chapter 1 - Typesof Materials(Con’t) Fig 1.6 Bar chart of room-temperature resistance to fracture for various metals, ceramics, polymers, and composite materials
Chapter 1 - 20 1. Pick Application Determine required Properties Processing: changes structure and overall shape ex: casting, sintering, vapor deposition, doping forming, joining, annealing. Properties: mechanical, electrical, thermal, magnetic, optical, deteriorative. Material: structure, composition. 2. Properties Identify candidate Material(s) 3. Material Identify required Processing The Materials Selection Process
Chapter 1 - 22 STRUCTURE,PROCESSING, & PROPERTIES • One aspect of Materials Science is the investigation of relationships that exist between the processing, structures, properties, and performance of materials. • The performance of a material depends on its properties • Properties depend on structure ex: hardness vs structure of steel • Processing can change structure Ex: structure vs cooling rate of steel Fig 1.1 The four components of the discipline of materials science and engineering and their interrelationship
Chapter 1 - 22 • Transmittance: -- Aluminum oxide may be transparent, translucent, or opaque depending on the material’s structure (i.e., single crystal vs. polycrystal, and degree of porosity). Fig. 1.2, Callister & Rethwisch 9e. (Specimen preparation, P.A. Lessing) single crystal polycrystal: no porosity polycrystal: some porosity
Chapter 1 - 23 STRUCTUREOFMATERIALS • By structure we mean how some internal components of the material is (are) arranged. • In terms of dimensionality, structural elements include subatomic, atomic, microscopic, and macroscopic
Chapter 1 - 24 ex: hardness vs structure of steel • Properties depend on structure Data obtained from Figs. 12.31(a) and 12.32 with 4 wt% C composition, and from Fig. 17.8, Callister & Rethwisch 9e. Micrographs adapted from (a) Fig. 12.19; (b) Fig. 11.29; (c) Fig. 12.33; and (d) Fig. 12.21, Callister & Rethwisch 9e. (Figures 12.19, 12.21, & 12.33 copyright 1971 by United States Steel Corporation. Figure 9.30 courtesy of Republic Steel Corporation.) ex: structure vs cooling rate of steel • Processing can change structure Structure, Processing, & Properties Hardness (BHN) Cooling Rate (ºC/s) 100 200 300 400 500 600 0.01 0.1 1 10 100 1000 (d) 30 μm (c) 4 μm (b) 30 μm (a) 30 μm

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introductiontomaterialsscience-230405091335-21acfcbb.pdf

  • 1. Chapter 1 - MENG286: INTRODUCTION TO MATERIALS SCIENCE & ENGINEERING
  • 2. Chapter 1 - 2 COURSEMATERIALS Required text: •Materials Science and Engineering: An Introduction, W.D. Callister, Jr. and D.G. Rethwisch, 8th edition, John Wiley and Sons, Inc. (2010).
  • 3. Chapter 1 - 3 GRADING Biweekly quizzes: 20% • Held at the beginning of tutorial hours • Based on core textbook problems Laboratory reports :30% Four laboratory reports Midterm: 20% Final :30% Attends : <%50=NG. Filed to submit the lab or never attend lab hours=NG.
  • 4. Chapter 1 - 4 Chapter 1 - Introduction • What is materials science? • Why should we know about it? • Materials drive our society – Stone Age – Bronze Age – Iron Age – Now? • Silicon Age? • Polymer Age?
  • 5. Chapter 1 - WHY STUDY MATERIALS SCI. & ENG.? 5 • To be able to select a material for a given use based on considerations of cost and performance. • To understand the limits of materials and the change of their properties with use. • To be able to create a new material that will have some desirable properties.
  • 6. Chapter 1 - MATERIALS SICENCE VS MATERIALS ENG. 6 On the basis of structure-property correlations: •Materials science involves investigating the relationship btw structures & properties of materials. •Materials Eng. is designing or engineering the structure of a material to produce a predetermined set of properties.
  • 7. Chapter 1 - MATERIALS SICENCE VS MATERIALS ENG. 7 On the basis of functional prospective: •The role of materials scientist is to develop or synthesize new materials •Materials Eng. is called upon to create new products or systems using existing materials, and/or develop techniques for processing materials.
  • 8. Chapter 1 - TYPESOFMATERIALS 8 Most engineering materials can be classified into one of three basic categories: 1. Metals 2. Ceramics 3. Polymers Their chemistries are different, and their mechanical and physical properties are different In addition, there is a fourth category: 4. Composites -is a nonhomogeneous mixture of the other three types, rather than a unique category
  • 9. Chapter 1 - 1 1 Source: Fundamentals of Modern Manufacturing materials: processes and systems, M.P. Groover, 5th edition, John Wiley & Sons Inc. (2007). TYPESOF MATERIALS (con’t)
  • 10. Chapter 1 - METALS Fig 1.8 Familiar objects that are made of metals and metal alloys Metallic bonds – Strong, ductile, resistant to fracture – High thermal & electrical conductivity – Opaque, reflective.
  • 11. Chapter 1 - CERAMICS 13 Fig 1.8 Familiar objects that are made of ceramic materials Ionic bonding –Brittle, glassy, elastic –Non-conducting (insulative to the passage of heat & electricity) –Transparent, translucent, or opaque –Some exhibit magnetic behavior (e.g. Fe3O4)
  • 12. Chapter 1 - POLYMERS/PLASTICS Fig 1.8 Familiar objects that are made of polymeric materials Covalent bonding  sharing of e’s –Soft, ductile, low strength, low density –Thermal & electrical insulators –Optically translucent or transparent. –Chemically inert and unreactive –Sensitive to temperature changes
  • 13. Chapter 1 - COMPOSITES 13 – Light, strong, flexible – High costs
  • 14. Chapter 1 - ADVANCEDMATERIALS 14 Materials that are utilized in high-tech applications •Semiconductors Have electrical conductivities intermediate between conductors and insulators •Biomaterials Must be compatible with body tissues •Smart materials Could sense and respond to changes in their environments in predetermined manners •Nanomaterials Have structural features on the order of a nanometer, some of which may be designed on the atomic/molecular level
  • 15. Chapter 1 - Example– HIP IMPLANT 15 • Requirements – mechanical strength (many cycles) – good lubricity – biocompatibility Adapted from Fig. 22.26, Callister 7e.
  • 16. Chapter 1 - Typesof Materials(Con’t) 16 Fig 1.3 Bar chart of room-temperature density values for various metals, ceramics, polymers, and composite materials
  • 17. Chapter 1 - Typesof Materials(Con’t) 17 Fig 1.4 Bar chart of room-temperature stiffness values for various metals, ceramics, polymers, and composite materials
  • 18. Chapter 1 - Typesof Materials(Con’t) Fig 1.5 Bar chart of room-temperature strength (i.e. tensile strength) values for various metals, ceramics, polymers, and composite materials
  • 19. Chapter 1 - Typesof Materials(Con’t) Fig 1.6 Bar chart of room-temperature resistance to fracture for various metals, ceramics, polymers, and composite materials
  • 20. Chapter 1 - 20 1. Pick Application Determine required Properties Processing: changes structure and overall shape ex: casting, sintering, vapor deposition, doping forming, joining, annealing. Properties: mechanical, electrical, thermal, magnetic, optical, deteriorative. Material: structure, composition. 2. Properties Identify candidate Material(s) 3. Material Identify required Processing The Materials Selection Process
  • 21. Chapter 1 - 22 STRUCTURE,PROCESSING, & PROPERTIES • One aspect of Materials Science is the investigation of relationships that exist between the processing, structures, properties, and performance of materials. • The performance of a material depends on its properties • Properties depend on structure ex: hardness vs structure of steel • Processing can change structure Ex: structure vs cooling rate of steel Fig 1.1 The four components of the discipline of materials science and engineering and their interrelationship
  • 22. Chapter 1 - 22 • Transmittance: -- Aluminum oxide may be transparent, translucent, or opaque depending on the material’s structure (i.e., single crystal vs. polycrystal, and degree of porosity). Fig. 1.2, Callister & Rethwisch 9e. (Specimen preparation, P.A. Lessing) single crystal polycrystal: no porosity polycrystal: some porosity
  • 23. Chapter 1 - 23 STRUCTUREOFMATERIALS • By structure we mean how some internal components of the material is (are) arranged. • In terms of dimensionality, structural elements include subatomic, atomic, microscopic, and macroscopic
  • 24. Chapter 1 - 24 ex: hardness vs structure of steel • Properties depend on structure Data obtained from Figs. 12.31(a) and 12.32 with 4 wt% C composition, and from Fig. 17.8, Callister & Rethwisch 9e. Micrographs adapted from (a) Fig. 12.19; (b) Fig. 11.29; (c) Fig. 12.33; and (d) Fig. 12.21, Callister & Rethwisch 9e. (Figures 12.19, 12.21, & 12.33 copyright 1971 by United States Steel Corporation. Figure 9.30 courtesy of Republic Steel Corporation.) ex: structure vs cooling rate of steel • Processing can change structure Structure, Processing, & Properties Hardness (BHN) Cooling Rate (ºC/s) 100 200 300 400 500 600 0.01 0.1 1 10 100 1000 (d) 30 μm (c) 4 μm (b) 30 μm (a) 30 μm