NANOTECHNOLOGY IN AEROSPACE APPLICATIONS
Team S5
Pradip Rijal, Jason Savatsky,
Trevor Seidel, and Laura Young
“The problems of chemistry and biology can be greatly helped if our ability to see what we are doing, and to do things on an atomic level, is ultimately developed---a development which I think cannot be avoided.”
–Richard P. Feynman
THE FOCUS
NASA Commercial Military
http://corvusart.com/blog/wp-content/uploads/2008/10/fishbowl2.jpg
WHAT DOES THE INDUSTRY WANT?
Materials that are: Lighter Stronger More Durable Resistant to Extreme
Conditions Also interested in
materials that have unique properties
http://www.washingtonstatewire.com/admin/contentmanager/photos/1914090722%20Boeing%20787.jpg
THE TECHNOLOGIES
Improved Electronics Advanced
Composites Improved Paints and
Sealants Carbon Nanotubes
http://static.commentcamarche.net/en.kioskea.net/faq/images/372-phenom-x4-processors-01-s-.png
OUR ROLE
Advanced material research
Electronics Production
http://www.europavalve.com/images/chemical-plant.jpg
AEROSPACE NANOTECHNOLOGY: NASA
High level of funding Four Areas of Focus Materials Electronics and Data
Processing Sensors and
Components Basic Research
http://www.azonano.com/details.asp?ArticleID=1174
NASA: COMPUTER TECHNOLOGY
Moore’s Law Manipulate
molecules with sub-angstrom accuracy
Engrave patterns on silicon surface
Application to electronics
Carbon Nanotube SPM Tips
http://nanotechnologytoday.blogspot.c
om/2007_09_01_archive.html
NASA: AEROSPACE TRANSPORTATION
Diamondoid material
Price of diamondoid vehicles compared to that of titanium vehicles
Carbon nanotubes have a Young’s modulus comparable to diamond
Launch Vehicles
http://pix.motivatedphotos.com/2009/5/15/633780049382659605-USSenterprise.jpg
NASA: AEROSPACE TRANSPORTATION
Cable from Earth to space
Strength of cable must be tapered
Taper factor of steel and diamond
Material must be stronger than current technology provides
Safety is still an issue
Space Elevator
http://www.cmp.caltech.edu/refael/league/Space_elevator2.jpg
NASA: ACTIVE MATERIALS
The smallest feature size in production systems: 250 nm
Nanotubes are smaller
Human tissue as an active material
http://www.ndriresource.org/SiteData/images/20042C/
9d57dcc0be146cf6680a7085b8c25615/20042C.jpg
NASA NANOTECHNOLOGY VIDEOhttp://www.azonano.com/nanotechnology-video-details.asp?VidID=143
INDUSTRIAL/COMMERCIAL APPLICATIONS
Advanced Composites Materials
Aerospace Paint Deicing Materials
http://www.backpackersguide.co.uk/images/plane-travel.jpg
ADVANCED COMPOSITES MATERIALS
http://authors.library.caltech.edu/5456/1/hrst.mit.edu/hrs/materials/public/composites/Composites_rotor.gif
Schematic section of a helicopter rotor blade Composites materials are combinations of two or more organic or inorganic components
Consist of high strength nano fibers embedded in a matrix
Materials are:o Matrix material: material
that holds everything together.e g . epoxy, bismaleimide, or polyimide.
o Fibers: serve as a reinforcement, embedded in the matrix.
e g. glass fiber, boron fiber, carbon fiber
ADVANCED COMPOSITES MATERIALS
Nano Fibers are laid out in tape or fabric form
put in a mold under heat and pressure.
The resin matrix flows over nano fibers
Heat is remover and it solidifies.
It can be formed into various shapes. In some cases,
the fibers are wound tightly to increase strength.
http://people.sabanciuniv.edu/~yusufm/research/composite.jpg
ADVANCED COMPOSITES MATERIALS Traditionally used:
Aluminum metal Aluminum made planes
heavier, consume more fuel
Fiberglass was first used in the Boeing 707 passenger jet in the 1950s, only 2% of the structure.
Now , about one-third of the structure of the commercial planes uses composites
Composites are stronger Composites makes
aircrafts lighter :~ 20% lighter
Fuel efficient
http://oea.larc.nasa.gov/PAIS/Concept2Reality/graphics/fig060.jpg
AEROSPACE PAINT AND SEALANT Sealants to seal the
structures like fuel tanks, aerodynamic sealing, and windshield installation
Based on nanotechnology e. g. PRC® and Pro-Seal™
PPG Aerospace chromate-free de-paint/repaint process includes a epoxy primer
Based on nanotechnology Environment friendly Better adhesion Corrosion resistant e. g. DeSoto® Aerospace
Coatings
http://www.aerospace-technology.com/contractors/paints/ppg-aerospace/ppg-aerospace3.html
DEICING
http://news.bbc.co.uk/2/hi/8504734.stm
http://www.nano.org.uk/news/370/
•When a plane is in the air, icing can occur•plane’s performance suffers and disasters can occur. •Currently used techniques:
• use bleed air: heating the surface with engine bleed air
• mechanical boot: breaking the bond between surface and ice
• Issues: • Too complex, • too heavy • draws too much power
to be effective
DEICING
Solution by scientists at Battelle, U. K. : deicing fluid is based on nano technology weighs 1/100th of current ice protection systems uses simple painting methods can be applied to a variety of curved surfaces
without needing a custom heater pad design. How?
sprayed on planes prior to flight. carbon nanotube coating is applied to surfaces
then energize that coating using the plane’s on-board electrical system.
causes the nanotube coating to heat up, thus preventing ice from forming.
MILITARY APPLICATIONS
Satellites weighing 15 tons or more derive 1/3 of their weight from copper harnesses
Boeing 747 uses up to 135 of copper wire that can weight more than 4000 pounds
Copper wires also oxidize and corrode, are susceptible to vibration fatigue, and create premature electronics failures due to overheating conditions.
Will replace copper wiring on aerospace systems with carbon nanotube sheets
http://base1.googlehosted.com/base_media?q=http://www.capitolsupply.com/ImageServer.ashx%3Ft%3Dproduct
%26h%3D200%26w%3D200%26imageid%3DCS8516813&size=20&dhm=fdfe56f1&hl=en
MILITARY APPLICATIONS Conductive coating
to be used on jet fighter canopies - clear bubbles that cover planes' cockpits - for the US air force
Coating will improve electromagnetic shielding and electrostatic discharge to prevent electronic disruptionhttp://upload.wikimedia.org/wikipedia/commons/thumb/c/c9/F-
16_June_2008.jpg/800px-F-16_June_2008.jpg
REFERENCEShttp://www.azonano.com/details.asp?ArticleID=1174#_The_Main_Nanotechnology_Sectors%20tha
http://alglobus.net/NASAwork/papers/nano1997/applications/
Group S5 Nanotechnology and Aerospace
ApplicationsRebuttal
S5 Rebuttal of Presentation 2
• S5 feels that for the most part, the criticism was accurate and just. Laura should have tried to memorize the material to a greater extent and not read from notes as much. Pradip had extensive writing on his slides, as the audience reviewed on. Jason could have put more effort into his slides and rehearsed his part. More research would have been good too. One of the reviews commented on the irrelevance of the futuristic things that NASA is working on as they are too far in the future, however, these are big projects and definitely worth focusing on now. I think that we should have discussed the space elevator—it shows that NASA is aimed toward highly technological advances and is focused on succeeding in their goals.
Group 1 Evaluation of Group 5
Presentation:Nanotechnology and Aerospace Applications
By Group 5
Good presentation skills◦ Seemed knowledgeable◦ Good pace◦ Three of the presenters showed good preparation
skills, except last presenter. Slides had good format
◦ Good graphics Presenters answered questions with further
information than what was presented Enough presentation was presented by the
first presenters to make up for lack of information by the fourth presenter.
Positive Notes
Jason must improve speaking skills◦ Seemed in a hurry to finish presentation◦ Read straight from slides
Laura was able to get the audience’s attention; however, less reading from notes would have increased interaction with audience.
One of the slides from composite material section seemed overcrowded as well as the last two slideso Design of the slides could have been more creative.
Opportunities for Improvement
Group S2’s Review of S5 Second Presentation
Micheal JonesRachel HoukChris Heflin
Positive Aspects
• Appearance of the Slides– The layout was professional– Figures were relevant to the concepts being
described and helped with understanding– Text to figure ratio was acceptable
• Oral Presentation– For the most part, the presenters seemed
prepared with the use of minimal filler words and good posture and body language
Room for Improvement• Consistency
– The formatting and aesthetics of a few slides were inconsistent, it seemed as though one group member through his slides in last minute without formatting with the rest of the group
– Other than that, some of the slides that were consistent format wise had too much text with respect to the other slides and seemed out of place
• Preparation– The group as a whole seemed well prepared except for the last
presenter. He seemed as though this was the first time he was actually going over his material. Although this is not the rest of the groups responsibility, it would be more professional if he would have pulled his own weight in the presentation.
Review of S5—Nanotechnology in Aerospace Applications
By S3:James KancewickMichael Koetting
Bradford Lamb
PositivesSlides were well-made and contained a nice
text-to-image ratio.Speaking was fairly good through the first
three presenters.Contained a lot of good technical information
regarding the applications, especially in regard to the “Advanced Composite Materials” slides.
Areas for ImprovementThe final presenter really needs to practice more. He seemed
very nervous and unsure of himself. His entire section was very short and was read completely off the slides, with his speaking adding nothing to the presentation. Rehearsal would have greatly helped!
Use of the video by NASA was somewhat distracting. The information from the video should have just been incorporated into your slides, with you presenting the information. This would have reinforced your position as the “experts” on the topic, rather than deferring to outside expertise.
Occasional format discrepancies between slides (e.g. different bullets, inconsistent capitalization, etc.)
Speakers seemed to be lacking knowledge of the material during the Q/A section, especially regarding the space elevator.
S4 Review of S5Danielle MillerJoshua Moreno
Scott Marwil
Good ThingsSlides looked very professional.Pictures were vibrant and great attention
grabbers.Laura and Trevor were very strong
presenters, they did a great job of keeping the attention of the audience and delivering their message.
Prapid was a good presenter, but was soft spoken. Just needed to speak up and show more energy.
Places for ImprovementJason was very nervous. Said “uh” and “um”
a lot. He did not appear to be well rehearsed- giant pause at the beginning. His section was less developed than other sections of the presentation. All these things can be easily fixed by rehearsing and putting more time into preparation.
Laura read from notes. Try to have more memorized, but it was not that distracting.
Places for ImprovementUse consistent and parallel structure in
bulleted lists. Punctuation should be consistent throughout slide (have all statements start with a capital letter & use clauses OR complete sentences).
Some slides had too many words on them. This takes the attention away from your main point you are trying to get across.
S6CHEN 481
2nd Presentation by S5 Review
John BaumhardtDaniel Arnold
Michael TrevathanMichael Tran
Presentation Review
• Slide layout was agreeable and pleasant to look at. The text on the slides seemed to be occasionally light on content in the presentation.
• The presentation was detailed and well thought out.• The final comment holds true throughout both of the
presentations: the final presenter was sub-par when compared with the rest of the group. Everybody has difficulties when it comes to presentations, but practice serves to eliminate these difficulties. The fact that there was no improvement between the presentations means that no effort has been made to improve, and this is unfair to the rest of your group.
Critique of Information
• The applications of nanotechnology in aerospace were very interesting. Some of the applications appear to be so far in the future that they are not worth mentioning, such as the space elevator.
• Would have liked to see an analysis for the time estimate to implement the carbon nano-tubes in the replacing copper wires.
• Since there are other advancing aerospace programs, we would have liked to know about any other applications that these programs are exploring. We would like to know if these programs are progressing in this research more rapidly then NASA.