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Page 69
... cubic cell . The axes in the cubic system are orthogonal ( all angles 90 ° ) and the lengths of the sides of the cube are equal . Hence , a cubic crystal is completely characterized by a single lattice parameter , a 。. The lattice ...
... cubic cell . The axes in the cubic system are orthogonal ( all angles 90 ° ) and the lengths of the sides of the cube are equal . Hence , a cubic crystal is completely characterized by a single lattice parameter , a 。. The lattice ...
Page 96
... cubic crystal structure is composed of an FCC lattice with two atoms per lattice point . One atom from each pair is centered on each lattice point , and the second atom is positioned at ( a , √3 / 4 ) [ 1 1 Ī ] ; ( b ) the zinc ...
... cubic crystal structure is composed of an FCC lattice with two atoms per lattice point . One atom from each pair is centered on each lattice point , and the second atom is positioned at ( a , √3 / 4 ) [ 1 1 Ī ] ; ( b ) the zinc ...
Page 112
... cubic system , what is the Bravais lattice ? 16. Construct a cubic structure and show [ 1 2 1 ] , [ 2 1 1 ] , and [ 1 1 2 ] . To what family do these directions belong ? 17. Why will you never see a Miller index in a plane or a ...
... cubic system , what is the Bravais lattice ? 16. Construct a cubic structure and show [ 1 2 1 ] , [ 2 1 1 ] , and [ 1 1 2 ] . To what family do these directions belong ? 17. Why will you never see a Miller index in a plane or a ...
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Materials Science and Engineering | 2 |
CHAPTER | 4 |
CHAPTER | 12 |
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alloy aluminum anion applications atoms band band gap BCC structure bond-energy curve brittle Calculate carbon cation ceramics chain Chapter charge carriers classes of materials close-packed coefficient component composition compound conductivity containing corrosion covalent bonds crack crystal structure crystalline cubic decreases defects density determined dielectric diffusion dipole direction discussed dislocation ductility elastic elastic modulus electrical electronegative energy engineering Equation equilibrium eutectic eutectoid Example Problem fatigue ferromagnetic fibers fraction fracture glass glass transition temperature grain boundaries heat impurity increases interface interstitial ions lattice liquid load magnetic martensite matrix mechanical melting metal microstructure modulus molecules nucleation occurs oxide pearlite peritectic phase diagram plane polyethylene polymers primary bonds properties quench ratio reaction region resistance result schematic secondary bonds semiconductors shown in Figure shows silicon SiO2 solid solution steel strain strength stress surface tensile tetrahedral transformation unit cell vacancies valence band