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 author: Alvie Rahman
 date: \today
 title: MMME1029 // Materials
 tags: [ uni, nottingham, mmme1029, materials ]
 ---
 # Lecture 1 (2021-10-04)
 ## 1A Reading Notes
 ### Classification of Energy-Related Materials
 - Passive materials---do not take part in energy conversion e.g. structures in pipelines, turbine
  blades, oil drills
 - Active materials---directly take part in energy conversion e.g. solar cells, batteries, catalysts,
  superconducting magnests
 - The material and chemical problems for conventional energy systems are mostly well understood and
  usually associated wit structural and mechanical properties or long standing chemical effects like
  corrosion:
    - fossil fuels
    - hydroelectric
    - oil from shale and tar
    - sands
    - coal gasification
    - liquefaction
    - geothermal energy
    - wind power
    - bomass conversion
    - solar cells
    - nuclear reactors
 ### Applications of Energy-Related Materials
 #### High Temperature Materials (and Theoretical Thermodynamic Efficiency)
 - Thermodynamics indicated that the higher the temperature, the greater the efficiency of heat to
 work:
  $= \frac{T_{high}-T_{low}}{T_{high}}$ (in kelvin)
 - The first steam engines were only 1% efficient, while modern steam engines are 35% efficient
  primarily due to improved high-temperature materials.
 - Early engines made from cast iron while modern engines made from alloys containing nickel,
  molybdenum, chromium, and silicon, which don't fail at temperature above 540 \textdegree{}C
 - Modern combustion engines are nearing the limits of metals so new materials that can function
  at even higher temperatures must be found--- particularly intermetallic compounds and ceramics are
  being developed
 ## Types of Stainless Steel
 - Type 304---common; iron, carbon, nickel, and chromium
 - Type 316---expensive; iron, carbon, chromium, nickel, molybdenum
 ## Self Quiz 1
 1. What is made of billion year old carbon + water + sprinkling of stardust?
   > Me
 2. What are the main classifications of metals?
   > Metals, glass and ceramics, plastics, elastomers, 
 3. [There are] Few Iron Age artefacts left. Why?
   > They rusted away
 4. What is maens by 'the micro-structure of a material'?
   > The very small scale structure of a material which can have strong influence on its physical
   > properties like toughness and ductility and corrosion resistance
 5. What is a 'micrograph' of a material?
   > A picture taken through a microscope
 6. What microscope is used to investage the microstructure of a material down to a 1 micron scale
   resolution?
   > Optical Microscope
 7. What microscope is used [to investigate] the microstructure of a material down to a 100 nm scale
   resolution?
   > Scanning Electron Microscope
 8. What length scales did you see in the first slide set?
   > 1 mm, 0.5 mm, 1.5 \textmu{}m
 9. What material properties were mentioned in the first slide set?
   > Hardness, brittleness, melting point, corrosion, density, thermal insulation
 ## Self Quiz 2
 1. What is the effect of lowering the temperature of rubber?
   > Makes it more brittle, much less elastic and flexible
 2. What material properties were mentioned in the second slide set?
   > Young's modulus, specific heat, coefficient of thermal expansion