materials engineering
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materials engineering - Marcador
materials engineering - Detalles
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77 preguntas
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What is the process that addresses relationships between processing materials, structures of materials and properties of materials | Material engineering |
What is the hardest known material, what element is it made from, and why is it so hard? | Diamond, carbon, has strong IMFs |
Carbon in equilibrium is... | Graphite |
Stone was used in the... | Stone age |
-polymers that soften when heated and regain their form when cooled -acrylic, ABS, PLA | Thermoplastics |
Modulus of elasticity that describes stiffness and is a very important property of solid materials | Young's modulus |
Type 1 platic that is commonly used in commercially sold water bottles, soft drink bottes, sports drink bottles and condiment bottles | PET (polyethylene terephthalate) |
Type 2 plastic that is used is milk and juice bottles, detergent bottles, shampoo bottles, grocery bags, and ceral box liners | PE-HD (polyethylene high density) |
Type 3 plastic that can be flexible or rigid, and is used for plumbing pipes, clear food packaging, shrink wrap, platic toys, tablecloths, vinyl flooring, and blister pacts | PVC (polyvinyl chloride) |
Type 4 plastic that can be used for dry bags, bread bags, newspaper bags, and paper milk cartons | PE-LD (polyethylene low density) |
Type 5 plastic that is used to make yogurt containers, furniture luggage, and winter clothing insulation | PP (polypropylene) |
NA | NA |
Used to decompose ores and to "drive off" other elements so that only the metal remains | Reducing agent |
Benefits of aluminum | Low weight, high strength, good formability, high corrosion resistance |
What are the main energy sources that are used to power smelting | Coal, hydro, natural gas, and nuclear |
Melt metals to ---- C for efficient smelting, ---- C for excellent smelting and ---- C for amazing smelting | 1200, 1300, 1500 |
In a crystal, all atoms are arranged in .... | A regular grid pattern (lattice) |
What characteristic of non dense and random packed structures causes it to have higher energies | Vibration of atoms |
A = b ≠ c α = β = γ = 90 | Tetragonal |
A ≠ b ≠ c α = β = γ = 90 | Orthohombic |
On it's side a = b = c α = β = γ ≠ 90 | Rhombohedral |
A = b ≠ c α = β = 90 γ = 120 | Hexagonal |
A ≠ b ≠ c α = γ = 90 ≠ β | Monoclinic |
A ≠ b ≠ c α ≠ β ≠ γ | Triclinic |
6 face atoms at 1/2 each 8 corner atoms at 1/8 each 4 atoms coordination number : 12 | FCC ( face centered cubic) |
1 center atom counts for 1 8 corner atoms at 1/8 each 2 atoms coordination number: 8 | BCC (body centered cubic) |
12 corner atoms at 1/6 each 2 face atoms at 1/2 each 3 internal atoms for 1 each 6 atoms coordination number: 12 | HCP (hexagonal close packed) |
Number of nearest neighbor atoms surrounding an atom or ion | Coordination number |
Packing efficiency in a crystal structure that is occupied by constituent particles | Atomic packing factor |
Apf of bcc | 0.68 |
Apf of fcc | 0.74 |
Apf of hcp | 0.74 |
Indicated with parenthesis and based on reciprocal of the intersection of plane with cell axes | Planes |
What is indicated by <> | Families |
Directions and planes are indicated by... | Miller indices |
Stress/strain or the slope of a stress/strain curve | Young's modulus |
The highest point of a stress/strain curve | Ultimate strength |