materials science and engineering by: jake burden
Post on 23-Dec-2015
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Materials Science and Engineering By: Jake Burden
What is Materials Science and Engineering?
The Engineering field that deals with researching, producing, and testing new materials for a wide range of uses.
Some things that involve MSE: Airplane materials, Engines, Golf clubs,
Automobiles, and Computer chips.
What is the Goal of MSE?
To create products that meet a chemical, electrical, and physical need.
“To create the stuff we need”
MSE Tetrahedron• Shows how one aspect of a material affects
the rest of the properties. • If the structure is altered, the properties,
characterization of atoms, processing, and performance will ALL be altered
• Illustrates all of the aspects of a material that the engineer should look out for.
How to Become a Materials Scientist?
Minimum education- Bachelors Degree in ABET- certified MSE program
Pass series of engineering tests FE exam- Fundamentals of Engineering PE exam- Professional Engineering
Main Areas of MSE1. Ceramics2. Polymers- “Plastics”3. Metallurgy 4. Biomaterials- Stents and artificial joints
Investigation: Areas of MSE
CeramicsMaterial that is not metallic nor organic
Hard, chemically non-reactive, and can be molded/ formed using heat.
Examples: Space shuttle tiles, fiber optics, body armor, and spark plugs.
Ceramics are more than typical pottery, and tiles.
Ceramics Due to semiconducting, superconducting, and ferroelectric
properties of some ceramic materials, they can be associated with electronics.
“Mag-Lev” trains involve ceramics with superconducting properties. Superconductor ( material that has no electrical resistance to an
already current flow very efficient) exposed to low temperatures of liquid nitrogen, creates levitating force.
This levitating force is due to the ceramics ability to repel both magnetic fields.
Polymers Long strands of molecules, strung together
Made up of smaller units called monomers How the strands are connected determines the properties of that
material Examples of polymer engineering– plastics, nylon, and
synthetic rubber Polymer engineer’s job chemically synthesize polymers to
meet the needs of the consumer. Thermoplastics and thermosets—important in this field
Thermoplastics- Plastics that melt above a certain temperature Used as food storage containers--due to relative melting point Intermolecular forces weaken in presence of increased heat
Polymers Thermoset- Petrochemical material that cures (hardens)
permanently after the addition of heat. Opposite of thermoplastics “molds” The curing does not always need heat sometimes uses
chemical reaction Examples: Epoxies, Phenolics
Metallurgy Branch of MSE that mainly deals with alloys; their chemical
and physical properties. How alloys can benefit our society? How to create cheap and durable metals?
Metallurgy How does metallurgy exactly work?
Engineers take properties of one metal and combine them with another metal
The Engineers use the atomic properties of each metal to determine its uses
Example: Stainless Steel Non-corrosive, no rusting, shiny How do those properties come about?
Metallurgy Stainless steel is usually Chromium and Nickel combined Nickel provides non-corrosive properties while Chromium
provides the shine. The Chromium provides a layer to the steel that prevents the
metal from oxidizing Makes it harder to give up electrons to change its composition
Metallurgy The way the atoms are organized in an element= specific
properties All metals/ elements have special properties; it is the
materials scientist’s job to combine those properties effectively and properly to create the metal alloys we use today.
Biomaterials Using Materials science to create materials to improve/ aid
the biological processes of the human body Includes
Stents Artificial Joints Artificial organs Contact lenses Artificial Heart Valves
Biomaterials Stents: Inserted in the arteries to prevent blockage from
plaque that could cause heart failure They consist of metallic alloys that help keep open the arteries
and naturally dissolve in the bloodstream over time. Once the artery is trained to stay open, the soluble contents will
dissolve in the blood Dissolvable stent- Absorb™
Revolutionizing the medical field
Biomaterials Contact lenses:
Involve polymers The attraction of the hydrophilic polymer to the eye helps keep it in
place. The thickness of the polymer determines the amount of light that can be
refracted therefore determining the amount of visual correction. The polymer of the contact lens is also antimicrobial and gentle on the
eye Not only does the engineer develop the lens but also the solution.
Peroxide solutions use a neutralization reaction to kill microbes on the lens
Peroxide is not friendly on the eye so… A silver catalyst is used in the lens case to neutralize the solution reduces
peroxide to form oxygen and water This makes the contact lens “wearable” to the eye
Biomaterials Materials scientists involved with biomaterials study how to
create materials that can benefit our lives, physically. Make sure medical materials are safe
In Conclusion MSE has new and upcoming research in nanotechnology
and electronics. MSE is a fairly “uncommon” field of engineering
It is very beneficial to our society; creating more and more things to make our lives better.
MSE is a great field to get involved in! The possibilities are endless!
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