Transcript Document

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Steven M. Seghi Ph.D.
[email protected]
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* Materials science, also commonly known as materials engineering, is an
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interdisciplinary field applying the properties of matter to various areas of
science and engineering. This relatively new scientific field investigates the
relationship between the structure of materials at atomic or molecular scales and
their macroscopic properties. It incorporates elements of applied physics and
chemistry. It is an important part of forensic engineering (Forensic engineering is
the investigation of materials, products, structures or components that fail or do
not operate or function as intended, causing personal injury or damage to
property.) and failure analysis, the latter being the key to understanding, for
example, the cause of various aviation accidents. Many of the most pressing
scientific problems that are currently faced today are due to the limitations of
the materials that are currently available and, as a result, breakthroughs in this
field are likely to have a significant impact on the future of human technology
Classes of materials
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Traditionally: Metals, Ceramics, Polymers, and Electronic Materials
More recently this has been expanded:
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Biomaterials, Carbon, Ceramics, Composite Materials, Glass, Metals, Nanomaterials, Polymers, Refractory,
Semiconductors, Thin Films, Functionally Graded Materials
* Sub-disciplines of materials science/closely related fields
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Biomaterials, Ceramography, Crystallography, Electronic and Magnetic Materials, Forensic
Materials Engineering, Glass Science, Materials Characterization, Metallography, Metallurgy,
Microtechnology, Nanotechnology, Rheology, Surface Science, Tribology
* Industrial applications of materials science include materials design, cost-benefit
tradeoffs in industrial production of materials, processing, and analytical
techniques
http://en.wikipedia.org/wiki/Materials_science
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* Relevant High School Science
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Chemistry
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Physics
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Anatomical terminology, anatomical identification, and physiological processes of human body systems
Genetics
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The functions and processes of cells, tissues, organs, and systems within various species of living organisms
and the roles and interdependencies of organisms within populations, communities, ecosystems, and the
biosphere.
Anatomy
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Fundamental concepts and principles related to matter and energy, including mechanics, wave motion,
heat, light, electricity, magnetism, atomic and subatomic particles.
Biology
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Chemical reactions, and the role of energy in those reactions, chemical bonding, molecular models,
nuclear chemistry, states of matter-gases, liquids and solids, solutions and mixtures, reactions (reaction
types), stoichiometry, equilibrium, kinetics, and thermodynamics.
Understand the basic principles of genetics, including concepts of recessive and dominant alleles,
relationships of phenotype to genotype, Punnett squares, and pedigree analysis. Learn how a gene
provides the instructions for making a protein, the molecular processes of transcription and translation.
Biomedical Science
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Concepts of human medicine including introductions to topics such as physiology, genetics, microbiology
and public health. Examine the processes, structures and interactions of the human body. Explore the
prevention, diagnosis and treatment of disease.
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Education
B.S. Materials Science and Engineering University of Illinois UrbanaChampaign (UIUC) ’97 – Polymer Composites Specialization
* Research experience: Metal matrix composite (MMC) fabrication-elevated
temperature creep testing
* Ph.D. Materials Science and Engineering UIUC ’03
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Research Experience:
* High frequency polymeric adhesive bond testing
* Glass/Epoxy composite interface modification for
damage mechanism control
* Fabrication of ceramic matrix composites (CMCs)
and ceramic-carbon hybrid matrix composites via
preceramic polymer infiltration and pyrolysis (PIP)
* Tribological (friction and wear) evaluation of
resulting CMCs
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Post Graduate School Research Experience
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Coatings
– Vapor Deposition (Chemical & Physical)
Composite Fabrication
– MMCs: In Situ formation, Capillary infiltration
– CMCs: PIP, Chemical vapor infiltration, Hot Pressed
– PMCs: wet layer, prepreg, vacuum bagging, autoclave
Monolithic Ceramics
– Reactive processing, Hot pressing, Cold isostatic pressing-Sinter-Hot isostatic
pressing
Thermal Management:
– Advanced Loop Heat Pipe (LHP) wicks
– Advanced LHP condensers
– Freeze tolerant water LHP
– Unmanned Venus Lander (including structure and thermal management system)
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* Biomimicry/Biologically Inspired Systems
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Shark skin for preventing microorganism growth
Humpback whale flippers inspiring advanced wind
turbine blade design (32% less drag)
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Bottlenose dolphins potentially impacting
submarines of the future (highest lift fin)
http://sharklet.com/technology/
http://www.sustainableindustries.com/articles/2009/07/evolution-meets-creation
http://www.scientificamerican.com/blog/post.cfm?id=the-secret-right-under-our-bottleno-2009-0629
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* Biological Systems
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Tobacco plants that produce vaccines
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A team of biologists and engineers have created the first “living foundry” capable of
producing 2.5 million units of vaccine in just seven days using genetically altered tobacco
plants, tended by robots.
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http://www.healthline.com/health-news/tech-robotic-factory-farm-grows-vaccines-intobacco-plants-062913
* Piezoelectric Virus
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Berkeley Lab Scientists Generate Electricity from Viruses
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http://newscenter.lbl.gov/news-releases/2012/05/13/electricity-from-viruses/
New approach is a promising first step toward the development of tiny devices that harvest
electrical energy from everyday tasks - convert mechanical energy into electricity
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