Post on 11-Jan-2017
Aluminium Alloys – OverviewNaveed Akhtar
Contents
1. Introduction
2. Chemistry
3. Classification
4. Applications
5. Manufacturing
6. Heat treatment
7. Common Defects
8. Conclusions
2
Introduction Abundance
Oxygen
Aluminum Oxide / Bauxite
Silicon
Iron
All Others
3
Introduction Advantages
• High strength to weight ratio
• High electrical and thermal conductivity
• High reflectivity and resistance to
corrosion
• Non-toxic (ideal for packaging and cooking
material)
• Ductility-easy to cold work and fabricate
4
History Aluminum Production
• The first commercial batch of Aluminum
was produced in 1888
• Production Capabilities Lower the Price
– Between 1888 and 1893 Aluminum dropped
from $4.86/lb to $.78/lb
5
• Early uses for Aluminum
– Cooking utensils
– Electrical wire and cable
– Foil
– Auto bodies
– Engine parts used by the Wright Brothers’
History Use
6
Chemistry Alloying Elements
Ti, B, Zr, Cr, Ni, Bi, Pb
Cu, Mn, Mg, Si, Zn, Fe
Principal
Alloying
Elements
Additional
Alloying
Elements
7
Role of Alloying Elements
Al
Cu
1. Increases strength and hardness2. If >12% makes the alloy brittle
3. Hot cracking tendency
4. Decreases corrosion resistance
8
Role of Alloying Elements
Al
Mn
1. Increases yield and tensile strength
2. Improves ductility
3. Good resistance to corrosion
4. Decrease resistivity
9
Role of Alloying Elements
Al
Si
1. Increases tensile strength and hardness uptil 13% wt.
2. Decrease the hot cracking
3. Good resistance to corrosion
10
Role of Alloying Elements
Al
Mg
1. Increases strength and hardness
2. Good resistance to corrosion
3. Increase weldability and machinability
11
Role of Alloying Elements
Al
Zn
1. Gives heat treatable alloys when combined with Mg
2. Increase strength and hardness
3. Increased toughness but susceptible to stress corrosion cracking
12
Classification Alloy Designation System
Al
13
Applications 1XXX
14
Applications 2XXX
15
Applications 3XXX
16
Applications 4XXX
17
Applications 5XXX
18
Applications 6XXX
19
Applications 7XXX
20
Production Wrought Al Alloys
21
Extrusion Process
22
Heat Treatment Al Alloys
Annealing Treatment
Solution heat treatment
Precipitation (Hardening) treatment
23
Before Solution Heat Treatment After Solution Heat Treatment
Heat Treatment
24
Heat Treatment
Al-Cu phase diagram showing three steps in precipitation hardening 25
Common Defects
Defect
Casting Defects
Extrusion Defects
Forging Defects
Heat Treatment
Defects
26
Casting Defects
Cracks Porosity
Inclusions Segregation
27
Cracks Types
Radial Loop TransverseCentric
28
Cracks 7075
29
Cracks 2024
30
Inclusions Optical Images
31
Inclusions SEM Images
32
Inclusions SEM Analysis
33
Inclusions Fracture surface
34
Inclusions Fracture surface
35
Extrusion Defects
Extrusion tears/ cracks
Scratches
Fish scalingUn-even wall thickness
Layer Formation
Coarse grain ring
36
Drawing Defects
Scratch Bumped ring
Un-uniformity of wall thickness
Crack
Wrinkle End break
37
Cracks in Extrusion Unetched form
38
Cracks in Extrusion T6 etched form
39
Heat treatment Defects
Unqualified mechanical properties
Over firing
Coarse grain Quenching cracks
40
Grain Coarsening
41
Control of Grain Coarsening
42
43