MAE 3272 - Lecture 1B Notes Supplement - Material Microstructure and Mechanical Behavior
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Transcript of MAE 3272 - Lecture 1B Notes Supplement - Material Microstructure and Mechanical Behavior
![Page 1: MAE 3272 - Lecture 1B Notes Supplement - Material Microstructure and Mechanical Behavior](https://reader034.fdocuments.in/reader034/viewer/2022042510/55cf980a550346d033953811/html5/thumbnails/1.jpg)
WSachse; 1/2012;M&AE 3272 - Supplementary Lecture Materials 1
The Fundamental Materials Triangle
Structure
Internal Structure and Composition of materials dictates their Properties
Material Properties determine the
Processing Operations that can be used
Processing Operations change a material’s
internal structure (“the material’s state evolves”)
Properties
M&AE 3272: Mechanical Propertyand Performance Laboratory
Processing
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WSachse; 1/2012;
Classes of Materials
M&AE 3272 - Supplementary Lecture Materials 2
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WSachse; 1/2012;
Material Size Scales
M&AE 3272 - Supplementary Lecture Materials 3
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WSachse; 1/2012;
Mechanical Properties are Critical -Consequences can be catastrophic!
M&AE 3272 - Supplementary Lecture Materials 4
Failure of:• Bridges, Buildings, Structures• Aircraft• Medical Devices
Failure of F-15: The Air Force determined that the cause of the accident was a defective metal support beam . . .A failure of the upper right longeron, a critical support structure in the F-15C Eagle, caused the crash of a Missouri Air National Guard F-15C . . .The longeron didn't meet blueprint specifications. This defect led to a series of fatigue cracks in the right upper longeron which expanded under life cycle stress, causing the longeron to fail, thus initiating a catastrophic failure of the entire aircraft.
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WSachse; 1/2012;
Properties of Metals:
M&AE 3272 - Supplementary Lecture Materials 5
Atomic Scale: Bonding• Metallic
Microstructure• Defects and Imperfections• Crystal grains; LamellaUseful Characteristics• Mechanical Properties• Electrical Conductivity• Huge Information and Experience Base• Machinability; FormabilityConcerns:• Fracture• Fatigue• Corrosion• Oxidation
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WSachse; 1/2012;
Properties of Metals:
M&AE 3272 - Supplementary Lecture Materials 6
Aluminum – 20%Cu Aluminum – 33%Cu
Fe – 0.83%C: PearliteExample: Dislocations in Aluminumhttp://aluminium.matter.org.uk/content/html/ENG/default.asp?catid=71&pageid=1006363262
Atomic Scale: Bonding• Metallic
Microstructure• Defects and Imperfections• Crystal grains; LamellaUseful Characteristics• Mechanical Properties• Electrical Conductivity• Huge Information and Experience Base• Machinability; FormabilityConcerns:• Fracture• Fatigue• Corrosion• Oxidation
![Page 7: MAE 3272 - Lecture 1B Notes Supplement - Material Microstructure and Mechanical Behavior](https://reader034.fdocuments.in/reader034/viewer/2022042510/55cf980a550346d033953811/html5/thumbnails/7.jpg)
WSachse; 1/2012;
Properties of Metals:
M&AE 3272 - Supplementary Lecture Materials 7
Aluminum – 20%Cu Aluminum – 33%Cu
Fe – 0.83%C: Pearlite
Decarburized Original
Example: Dislocations in Aluminumhttp://aluminium.matter.org.uk/content/html/ENG/default.asp?catid=71&pageid=1006363262
Atomic Scale: Bonding• Metallic
Microstructure• Defects and Imperfections• Crystal grains; LamellaUseful Characteristics• Mechanical Properties• Electrical Conductivity• Huge Information and Experience Base• Machinability; FormabilityConcerns:• Fracture• Fatigue• Corrosion• Oxidation
![Page 8: MAE 3272 - Lecture 1B Notes Supplement - Material Microstructure and Mechanical Behavior](https://reader034.fdocuments.in/reader034/viewer/2022042510/55cf980a550346d033953811/html5/thumbnails/8.jpg)
WSachse; 1/2012;
Properties of Metals:
M&AE 3272 - Supplementary Lecture Materials 8
Atomic Scale: Bonding• Metallic
Microstructure• Defects and Imperfections• Crystal grains; LamellaUseful Characteristics• Mechanical Properties• Electrical Conductivity• Huge Information and Experience Base• Machinability; FormabilityConcerns:• Fracture• Fatigue• Corrosion• Oxidation
![Page 9: MAE 3272 - Lecture 1B Notes Supplement - Material Microstructure and Mechanical Behavior](https://reader034.fdocuments.in/reader034/viewer/2022042510/55cf980a550346d033953811/html5/thumbnails/9.jpg)
WSachse; 1/2012;
Aluminum and Steel Alloys:
M&AE 3272 - Supplementary Lecture Materials 9
Yield Strength depends on Composition
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WSachse; 1/2012;
Effect of Alloying Additions and Grain Size:
Effect of alloying additions on the yield strength
of ferrite + pearlite structural steels.
1/2kd −+= 0σσ yM&AE 3272 - Supplementary Lecture Materials 10
Hall-Petch equation relating grain size to yield strength
of structural steels:
Effect of alloying additions on the yield strength
of ferrite + pearlite structural steels.
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WSachse; 1/2012;
Steel: Hot and Cold Rolling and Microstructure:
M&AE 3272 - Supplementary Lecture Materials 11
Hot Rolling:Cold Rolling:
Yield Strength
Reduction of Area
Elongation
Tensile Strength
Reduction during Cold Working, %D
ecre
asin
g, %
Incr
easi
ng, %
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WSachse; 1/2012;
The Magic of Steel (Part 1):Plentiful; Inexpensive; Easily processed to obtain materials of
varying strength
M&AE 3272 - Supplementary Lecture Materials 12
http://www.matter.org.uk/steelmatter/metallurgy/6_1_3_1.html
The carbon content at which the minimum austenite temperature is attained is called the eutectoid carbon content (0.68 wt. % C in case of themetastable Fe-C phase diagram.) The ferrite-cementite phase mixture of this composition formed during slow cooling has a characteristic appearance and is called pearlite and can be treated as a microstructural entity or microconstituent. It is an aggregate of alternating ferrite and cementite lamellae that coarsens (or "spheroidizes") into cementite particles dispersed within a ferrite matrix after extended holding at a temperature close to A1.
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WSachse; 1/2012;
The Magic of Steel (Part 2):
M&AE 3272 - Supplementary Lecture Materials 13
Heat treatments of steel involve austenizing at temperature, followed by continuous cooling to room temperature.
• Ms - The highest temperature at which transformation of austenite to martensite starts during rapid cooling.
• Mf -The temperature at which martensite formation completes during rapid cooling.
CCT Diagram: AISI-SAE 1080 Steel
Time-Temperature-Transformation (TTT) DiagramExample: Iron-Carbon
http://www.matter.org.uk/steelmatter/metallurgy/7_1_2.html