Materials Science |
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Page 16
... aluminum may not be just aluminum but may contain 5 % or so of alloying elements ( elements which are purposely added ) which make it possible , after going through an appropriate temperature - time history ( heat treatment ) , to ...
... aluminum may not be just aluminum but may contain 5 % or so of alloying elements ( elements which are purposely added ) which make it possible , after going through an appropriate temperature - time history ( heat treatment ) , to ...
Page 666
... aluminum matrix . EXAMPLE 25.3.4 If the alloy of Example 25.3.2 is aged until the CuAl2 particles are spheres with a diameter of 2 μ , estimate the distance between particles . Answer . Using Nv = 0.05 and v ( 10-4 ) 3 we have N≈ 1010 ...
... aluminum matrix . EXAMPLE 25.3.4 If the alloy of Example 25.3.2 is aged until the CuAl2 particles are spheres with a diameter of 2 μ , estimate the distance between particles . Answer . Using Nv = 0.05 and v ( 10-4 ) 3 we have N≈ 1010 ...
Page 697
... Aluminum 3S Aluminum 61S Aluminum 63S Aluminum 52 Low steel Alloy steel Cast iron Type 410 stainless steel ( active ** ) Type 430 stainless steel ( active ) Type 304 stainless steel ( active ) Type 316 stainless steel ( active ) Ni ...
... Aluminum 3S Aluminum 61S Aluminum 63S Aluminum 52 Low steel Alloy steel Cast iron Type 410 stainless steel ( active ** ) Type 430 stainless steel ( active ) Type 304 stainless steel ( active ) Type 316 stainless steel ( active ) Ni ...
Common terms and phrases
alloy aluminum Answer assume atoms band behavior bonds Burgers vector Calculate called carbon cell coefficient component composition concentration conduction band constant cooling copper crystal structure cubic crystal curve deformation density dielectric diffusion dipole discussed dislocation line edge dislocation elastic electrical electron entropy Equation equilibrium eutectic eutectoid EXAMPLE fcc crystal field fraction fracture free energy frequency function Gibbs free energy given glass grain boundary heat Hence high temperatures hydrogen ions lattice layer liquid magnetic martensite materials mechanical melting metals modulus mole molecules NaCl Note p-n junction particles pearlite plane plastic polymer potential pressure Problem properties radius room temperature screw dislocation Section semiconductor shear stress shown in Figure silicon single crystals steel strain superconducting surface Table tensile tensile stress thermal tion transformation unit vacancy valence valence band vector velocity viscosity volume yield strength York zero