Http://personal.cityu.edu.hk/~appchung Ti and Shape Memory Alloys: Ir. Dr. Jonathan C.Y. Chung...
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Transcript of Http://personal.cityu.edu.hk/~appchung Ti and Shape Memory Alloys: Ir. Dr. Jonathan C.Y. Chung...
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http://personal.cityu.edu.hk/~appchung
Ti and Shape Memory Alloys:
Ir. Dr. Jonathan C.Y. ChungAssociate ProfessorDepartment of Physics and Materials ScienceCity University of Hong Kong
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Why we choose Ti alloy?
1. Corrosion-resistant
2. High strength from low temperature up to 650oC
3. Low density: 4.5g cm-3
[Al: 2.69 g cm-3; Cu: 8.96g cm-3; Fe: 7.88g cm-3]
4. Strength is relatively low when pure
5. A lot stronger when alloyed
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Two Crystalline forms of pure Ti
1. Alpha : (room temperature to 883oC)- Hexagonal close packed (HCP)- Usually strong and brittle- Not easy to form into various shape
2. Beta : (>883oC)- Body Centered Cubic (BCC, the same as steel at room temperature)- Less strong but not so brittle- Slightly easier to form into different shapes
However, the properties of commercially pure titanium (99-99.5%) are largely determined by the oxygen content.
Hence, improper hot working such as forging may affect the properties.
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Four groups of Ti alloy
1. Alpha titanium alloys:Commercially pure, Ti-Pd
2. Near-alpha titanium alloys:Ti-11Sn-5Zr-2.25Al-1Mo-0.2Si, Ti-6Al-5Zr-0.5Mo-0.25Si,Ti-5.5Al-3.5Sn-3Zr-1Nb-0.25Mo-0.3Si
3. Alpha-beta titanium alloys:Ti-6Al-4V,Ti-4Al-4Mo-2Sn-0.5Si, Ti-4Al-4Mo-4Sn-0.5Si
4. Beta titanium alloys:Ti-11.5Mo-6Zr-4.5Sn
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Purposes of Alloying
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Steels
Mild SteelTensile strength: 200 MPa
High Strength Alloy SteelTensile strength: ~500-1000 MPa
Ultra-High Strength SteelTensile strength: >1000 MPa
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Alpha titanium alloys
Strong High strength at high temperatures (<883oC) Good weldability Difficult to work Non-heat treatable Tensile strength: 330-860 MPa Fracture toughness: >70MPa m-1/2
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Alpha-beta titanium alloys
Appreciable amount of beta phase at room temperature
Can be solution treated, quenched and aged to give higher strength
Tensile strength: 990-1330 MPa Fracture toughness: 30-60MPa m-1/2
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Near-alpha titanium alloys
Almost all alpha phase Small amount of beta phase disperse t
hroughout the alpha Improved creep resistance at temperat
ures at 450-500oC Tensile strength: 855-1040 MPa Fracture toughness: 50-70 MPa m-1/2
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Beta titanium alloys
Entirely beta phase at room temperature after quenching (fast cooling), or sometimes even upon air cooling
Ready for cold working (forming) Can be solution treated, quenched and aged to give
higher strength In high strength condition the alloys have low ductilit
y Poor fatigue performance Tensile strength: 1220-1450 MPa Fracture toughness: >50 MPa m-1/2
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Weldability
Commercially pure titanium, and near- titanium alloys have good weldability
Some - alloys are weldable: e.g. Ti6Al-4V alloys are generally not weldable O and N can cause a lot of problem during welding
at high temperatures TIG weld is the most widely used process Electron-beam, laser, plasma arc and friction weldin
g processes can also be used Resistance spot and seam welding is only used wh
en fatigue life is not important
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Shape memory Alloy (SMA) TiNi or NiTi titanium alloys
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What is shape memory materials?
Golan Initiatiative Center, Israel
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What is shape memory effect (SME)?
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Why there is shape memory properties?
Martensitic transformation:
Formation of non-equilibrium phase non-diffusion transformation
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Shape Recovery (shape memory)
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Superelastic Properties (Pseudoelastic)
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Typical Loading and Unloading Behavior of Superelastic NiTi
Large “Elastic” strain compare to most alloys A constant stress platformFrom: www.sma-inc.com
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Superelastic DevicesNiTi superelastic devices are used for applications which demand the extraordinary flexibility and torqueability of
NiTi. NiTi has the ability to absorb large amounts of strain energy and release it as the applied strain is removed. The elasticity of NiTi is approximately ten times that of steel. NiTi also has excellent torqueability and kink resistance, which are important for medical guidewires. Further, superelastic NiTi alloys provide a constant force over a large strain range. This has been exploited in the field of orthodontics where a constant force enhances tooth movement with greater patient comfort. Examples of superelastic devices include:
Vascular, Esophageal and Biliary Stents Medical Guidewires Medical Guidepins Surgical Localization Hooks Flexible, Steerable and Hingeless Laparoscopic Surgical Instruments Remote Suturing and Stapling Devices Bone Suture Anchors Eyeglass Frames Endodontic (Root Canal) Files Orthodontic Arches Brassiere Underwires Cellular Telephone Antennas Damping Devices From: http://www.sma-inc.com/
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Non-explosive Release device
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Thermo-controller
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Transformation temperature of SMA: As, Af, Ms
Heating: As, Af Cooling: Ms, Mf Superelastic pr
operties is the best around Af
-100 -50 0 50 100
Cooling
Heating
As Af
RsRf
MsMf
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Manipulation of transformation temperatures
0
10
20
30
40
50
60
200 300 400
30 mins ageing with FC (a)30 mins ageing with WQ (b)60 mins ageing with FC (c)60 mins ageing with WQ (d)
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The End
Q&A