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Engineering Materials

Instructions:

Answer 50 questions in 15 minutes.
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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. A three terminal device that acts like a simple "on-off" switch. (the basis of Integrated Circuits (IC) technology - used in computers - cell phones - automotive control - etc) - If voltage (potential) applied to the "gate" - current flows between th
Opacifiers
Soft Magnetic Materials
How an LCD works
The Transistor

2. 1. Tensile (opening) 2. Sliding 3. Tearing
Heat Capacity
Brittle Materials
The three modes of crack surface displacement
Dependence of Heat Capacity on Temperature

3. Emitted light is in phase
Elastic Deformation
Metallization
Coherent
Energy States: Insulators and Semiconductors

4. Process by which geometric patterns are transferred from a mask (reticle) to a surface of a chip to form the device.
IC Devices: P-N Rectifying Junction
Lithography
Impact - Toughness
Impact energy

5. Cracks propagate along grain boundaries.
Why materials fail in service
To improve fatigue life
What do magnetic moments arise from?
Intergranular Fracture

6. 1. Impose a compressive surface stress (to suppress surface cracks from growing) - Method 1: shot peening - Method 2: carburizing 2.Remove stress concentrators.
Slip Bands
Brittle Materials
Generation of a Magnetic Field - Vacuum
To improve fatigue life

7. For a metal - there is no ______ - only reflection
Refraction
Thermal Expansion: Asymmetric curve
Superconductivity
Hard Magnetic Materials

8. Ability to transmit a clear image - The image is clear.
HB (Brinell Hardness)
Pure Semiconductors: Conductivity vs. T
Transparent
Bending tests

9. Becomes harder (more strain) to stretch (elongate)
Scattering
Coherent
Work Hardening
Rockwell

10. 1. Metals: Thermal energy puts many electrons into a higher energy state. 2. Energy States: Nearby energy states are accessible by thermal fluctuations.
Conduction & Electron Transport
Intergranular Fracture
What do magnetic moments arise from?
Reflection of Light for Metals

11. Superconductors expel magnetic fields - This is why a superconductor will float above a magnet.
4 Types of Magnetism
Rockwell
Refraction
Meissner Effect

12. Because of ionic & covalent-type bonding.
Insulators
Metallization
Why do ceramics have larger bonding energy?
Heat Capacity

13. There is always some statistical distribution of flaws or defects.
How an LCD works
There is no perfect material?
Why do ceramics have larger bonding energy?
Lithography

14. Materials change size when temperature is changed
Reflectance of Non-Metals
IC Devices: P-N Rectifying Junction
Large Hardness
Thermal expansion

15. Degree of opacity depends on size and number of particles - Opacity of metals is the result of conduction electrons absorbing photons in the visible range.
High impact energy
Ductile Materials
Opacity
Luminescence

16. Is reflected - absorbed - scattered - and/or transmitted: Io=It+Ia+Ir+Is
Incident Light
Iron-Silicon Alloy in Transformer Cores
Electromigration
Thermal Shock Resistance

17. Undergo little or no plastic deformation.
Brittle Materials
Intergranular Fracture
Fatigue
Translucent

18. Allows you to calculate what happened G=F' x cos(lambda) - F=F' x cos(phi)
Relative Permeability
Specific Heat
Thermal Shock Resistance
Force Decomposition

19. 1. Insulators: Higher energy states NOT ACCESSIBLE due to gap 2. Semiconductors: Higher energy states separated by a smaller gap.
Energy States: Insulators and Semiconductors
Conduction & Electron Transport
Influence of Temperature on Magnetic Behavior
Incident Light

20. Metals are good conductors since their _______is only partially filled.
The Transistor
Pure Semiconductors: Conductivity vs. T
Metallization
Valence band

21. Width of smallest feature obtainable on Si surface
Griffith Crack Model
How an LCD works
Where does DBTT occur?
Linewidth

22. Digitalized data in the form of electrical signals are transferred to and recorded digitally on a magnetic medium (tape or disk) - This transference is accomplished by a recording system that consists of a read/write head - "write" or record data by
Not severe
Magnetic Storage
What do magnetic moments arise from?
M is known as what?

23. 1. Diamagnetic (Xm ~ 10^-5) - small and negative magnetic susceptibilities 2. Paramagnetic (Xm ~ 10^-4) - small and positive magnetic susceptibilities 3. Ferromagnetic - large magnetic susceptibilities 4. Ferrimagnetic (Xm as large as 10^6) - large m
Metallization
Transparent
4 Types of Magnetism
Influence of Temperature on Magnetic Behavior

24. Failure under cyclic stress 1. It can cause part failure - even though (sigma)max < (sigma)c 2. Causes ~90% of mechanical engineering failures.
LASER
Linewidth
Fatigue
Modulus of Rupture (MOR)

25. Ohms Law: voltage drop = current * resistance
Thermal Expansion: Asymmetric curve
Electrical Conduction
Holloman Equation
Luminescence

26. Cracks pass through grains - often along specific crystal planes.
LASER
Transgranular Fracture
Electromigration
Slip Bands

27. 1. Data for Pure Silicon - electrical conductivity increases with T - opposite to metals
Rockwell
Impact energy
Two kinds of Reflection
Pure Semiconductors: Conductivity vs. T

28. - The emission of light from a substance due to the absorption of energy. (Could be radiation - mechanical - or chemical energy. Could also be energetic particles.) - Traps and activator levels are produced by impurity additions to the material - Whe
Coherent
Luminescence
Critical Properties of Superconductive Materials
Transparent

29. These materials are "attracted" to magnetic fields.
M is known as what?
Paramagnetic Materials
What do magnetic moments arise from?
Why do ceramics have larger bonding energy?

30. Diffuse image
Thermal expansion
Insulators
Brittle Materials
Translucent

31. If a material has ________ - then the field generated by those moments must be added to the induced field.
Internal magnetic moments
Specific Heat
Hardness
Transparent

32. 1. Hard disk drives (granular/perpendicular media) 2. Recording tape (particulate media)
Magnetic Storage Media Types
Charpy or Izod test
Valence band
Specific Heat

33. Specific heat = energy input/(mass*temperature change)
Specific Heat
Translucent
Plastic Deformation (Metals)
Modulus of Rupture (MOR)

34. The ability of a material to be rapidly cooled and not fracture
Brittle Ceramics
Insulators
Thermal Shock Resistance
Heat Capacity

35. - A magnetic field is induced in the material B= Magnetic Induction (tesla) inside the material mu= permeability of a solid
Large Hardness
Generation of a Magnetic Field - Within a Solid Material
Internal magnetic moments
Insulators

36. Defines the ability of a material to resist fracture even when a flaw exists - Directly depends on size of flaw and material properties - K(ic) is a materials constant
Linewidth
Stress Intensity Factor
Not severe
Energy States: Insulators and Semiconductors

37. A measure of the ease with which a B field can be induced inside a material.
Thermal Conductivity
Relative Permeability
Linewidth
Hard Magnetic Materials

38. 1. Tc= critical temperature- if T>Tc not superconducting 2. Jc= critical current density - if J>Jc not superconducting 3. Hc= critical magnetic field - if H > Hc not superconducting
Linewidth
Pure Semiconductors: Conductivity vs. T
Critical Properties of Superconductive Materials
Stress Intensity Factor

39. Process by which metal atoms diffuse because of a potential.
Translucent
Impact energy
Etching
Electromigration

40. This strength parameter is similar in magnitude to a tensile strength. Fracture occurs along the outermost sample edge - which is under a tensile load.
The Transistor
Slip Bands
Modulus of Rupture (MOR)
Work Hardening

41. These are liquid crystal polymers- not your normal "crystal" -Rigid - rod shaped molecules are aligned even in liquid form.

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42. Dimples on fracture surface correspond to microcavities that initiate crack formation.
Dependence of Heat Capacity on Temperature
Iron-Silicon Alloy in Transformer Cores
Ductile Fracture
Color

43. Undergo extensive plastic deformation prior to failure.
Brittle Ceramics
Refraction
Where does DBTT occur?
Ductile Materials

44. A high index of refraction (n value) allows for multiple internal reactions.
True Strain
Sparkle of Diamonds
Thermal Expansion: Symmetric curve
Opacity

45. Second phase particles with n > glass.
Incident Light
True Strain
Opacifiers
Hysteresis and Permanent Magnetization

46. A parallel-plate capacitor involves an insulator - or dielectric - between two metal electrodes. The charge density buildup at the capacitor surface is related to the dielectric constant of the material.
Insulators
What do magnetic moments arise from?
Rockwell
The three modes of crack surface displacement

47. To build a device - various thin metal or insulating films are grown on top of each other - Evaporation - MBE - Sputtering - CVD (ALD)
Diamagnetic Materials
Hard Magnetic Materials
Fourier's Law
Film Deposition

48. Plastic means permanent! When a small load is applied - bonds stretch & planes shear. Then when the load is no longer applied - the planes are still sheared.
Transgranular Fracture
Linewidth
Pure Semiconductors: Conductivity vs. T
Plastic Deformation (Metals)

49. Increase temperature - increase in interatomic separation - thermal expansion
Thermal Expansion: Asymmetric curve
Charpy or Izod test
Bending tests
Why fracture surfaces have faceted texture

50. Growing interconnections to connect devices -Low electrical resistance - good adhesion to dielectric insulators.
Reflectance of Non-Metals
Metallization
How an LCD works
Fatigue