nanotechnology in aerospace applications - club of amsterdam · nanotechnology in aerospace...
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Nationaal Lucht- en Ruimtevaartlaboratorium – National Aerospace Laboratory NLR
Nanotechnology in aerospace applications current research at NLR
A.M. Vollebregt, department manager Gas Turbines & Structural Integrity
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Topics
The National Aerospace Laboratory NLR
What do we mean with nanotechnology?
Nanotechnology and coatings
Nanotechnology bulk metals
Conclusions
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Where is NLR located?
N L R - A m s t e r d a m N L R - F l e v o l a n d
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Mission
NLR is the national centre of expertise for aerospace, with the targets of:
promoting the innovative and decisive capabilities of the government and industry
Developing and applying high quality technology
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Organisation
NLR is one of the four big technological institutes in the Netherlands (700 employees)
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What do we mean with nanotechnology?
People tend to think of nanostructures like fullerenes:
The discovery of this new molecular family made a whole new range of applications possible
heat transfer of nanotubeselectrical conductivity of nanotubes
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What do we mean with nanotechnology?
a field of applied science and technology whose unifying theme is the control of matter on the atomic and molecular scale, normally 1 to 100 nanometers, and the fabrication of devices with critical dimensions that lie within that size range (source: wikipedia)
NLR research has been on material properties on the nanoscale
Thermal Barrier CoatingsEngineering properties of nanotechnology bulk metals
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Thermal Barrier Coatings for gas turbines
Insulate superalloy turbine blades and vanes from the hot gas stream
There is a need for improved durability and performance
Solution in strengthening the coating by refining the structure to the nanoscale
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Thermal Barrier Coatings
Coating has to be strong (erosion resistant) and have low thermal conductivity
Application process SPPS / SPS
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Thermal Barrier Coatings
the nanometer sized microstructure results in enhanced mechanical properties
controlled vertical cracksfor strain relief
nanometerporosity
improvedadhesion
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Commonly Held Ideas About Nano Structured Metals
Reducing the average grain size of a material below 100 nm significantly changes the mechanical (and other) properties. – Usually True
Large “volume” of grain boundariesAlteration of deformation mechanisms
Reducing the average grain size improves properties. -- Sometimes
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Metallic material properties
Materials get stronger with decreasing grain size
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Metallic material properties
Nano-metals comparison
(grain size)-1/2H
ardn
ess (
arbi
trary
uni
ts)
Smaller grain size
Ductility (arbitrary units)
“We have managed to turn a good metal into a bad ceramic.”Prof. Julia Weertman
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Nanotechnology bulk metals
Research on bulk metals and alloys with ultrafine and nanoscale grain sizes
There are at least five ways of producing nanotechnology bulk metals. A widely used one is:
Equal Channel Angular Extrusion (ECAE)
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Nanotechnology bulk metals
Bird Strike
Impact
Bird Strike
Impact
Strength & Fatigue
(ground load cases)
Static Strength & Fatigue
(internal pressure)
Upper Fuselage:- Crack Growth
- Residual Strength
Lower Fuselage:- Static Strength
- Buckling/Stability
- Corrosion Resistance
the major structural design criteria for the fuselage panels of a commercial transport aircraft
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Nanotechnology bulk metals
Nanotechnology metal properties
Ranking compared to conventional materials
Manufacturing costs - / --
Strength + / □
Ductility □ / -
LCF -
HCF
- unnotched
- notched
+
□ / -
Fatigue crack growth --
Wear resistance + / □
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Conclusions
Research of nanotechnology at NLR is not about buckeyballs, nanotubes, etc.
Nanoscale microstructure does not, in itself, insure superior properties. It represents an additional “degree of freedom” which can be used to design new materials with unprecedented combinations of properties (Kabacoff)
Several applications of nanotechnology in gas turbines:TBCCompressor coatings
Nanotechnology bulk metals are still a long way from industrial scale processing
Proposed applications are generally based only on the high strengths that are achievable. However:
equal or worse ductility, LCF, notched HCF, and fatigue crack growth resistance
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Further Research
Characterising nanocoatings using FEG-SEM and testing using e.g. burner rig in cooperation with Forschungszentrum Jülich (Germany)
Need for more data on the HCF properties of bulk nano metal high strength alloys
Mixing large and small grains (2X in strength but ductility comparable to conventional heat treated alloy)