1 |
E.F. Emley: Principles of Magnesium Technology, Oxford, Pergamon Press, (1966) 206-223
|
2 |
P. Lyon, I Syed and S. Heaney: Proc. 7th Inter. Conf. on Magnesium Alloys and Their Application, 'Elektron 21-An aerospace magnesium alloy for sand cast & investment cast application', Wiley-VCH, (2006) 20-25
|
3 |
C.J. Bettles, C.T. Forwood, D.H. StJohn, M.T. Frost, D.S. Jones, M. Qian, G-L. Song, J.R. Griffiths and J.F. Nie: Magnesium Technology 2003, 'AMC-SC1: An elevated temperature magnesium alloy suitable for precision sand casting of powertrain components', T.MS, (2003) 223-226
|
4 |
A. Ramirez and M. Qian: Magnesium Technology 2007, 'Grain refinement of magnesium alloys by ultrasonic vibration', TMS, (2007) 127-132
|
5 |
V.B. Kurfman: Trans. Metall. Soc. AIME, 'Nucleation catalysis by carbon additions to magnesium alloys', 221 (1961) 540-546
|
6 |
L. Lu, A.K. Dahle and D.H. StJohn: Scripta Mater., 'Heterogeneous nucleation of Mg-Al alloys', 54 (2006) 2197-2201
DOI
ScienceOn
|
7 |
M.A. Easton, A. Schiffl, J.Y. Yao and H. Kaufmann: Scripta Mater., 'Grain refinement of Mg-Al(-Mn) alloys by SiC additions', 55 (2006) 379-382
DOI
ScienceOn
|
8 |
T. Hatitani, Y. Tamura, E. Yano, T. Motegi, N. Kono and E. Sato: J. Jan. Inst. Light metals, 'Grain refining mechanism of high-purity Mg-9 mass%Al alloy ingot and influence of Fe or Man addition on cast grain size', 51 (2001) 403-408
DOI
|
9 |
P. Cao, M. Qian, D.H. StJohn: Scripta Mater., 'Effect of iron on grain refinement of high-purity Mg-Al alloys', 51 (2004) 125-129
DOI
ScienceOn
|
10 |
J.Y. Byun, S.I. Kwon, H.P. Ha and J.K. Yoo: Magnesium alloys and their applications, 'A manufacturing technology of AZ91 alloy slurry for semi solid forming', Wiley-VCH, (2003) 713-718
|
11 |
Q. Jin, J.P. Eom, S.G. Lim, W.W. Park and B.S. You: Scripta Mater., 'Grain refining mechanism of a carbon addition method in a Mg-Al magnesium alloy', 49 (2003) 1129-1132
DOI
ScienceOn
|
12 |
H. Dieringa, J. Bohlen, N. Hort, D. Letzig and K.U. Kainer: Magnesium Technology 2007, 'Advances in manufacturing process for magnesium alloys', TMS, (2007) 3-8
|
13 |
D.H. StJohn, M. Qian, M.A. Easton, P. Cao and Z. Hidebrand: Metall. Mater. Tran., 'Grain refinement of magnesium alloy', 36A (2005) 1669-1678
|
14 |
G.S. Cole: Magnesium Technology 2007, 'Summary of magnesium vision 2020: A north american automotive strategic vision for magnesium', TMS, (2007) 35-40
|
15 |
P. Cao, M. Qian, K Kondoh and D.H. StJohn: Proc. 7th Inter. Conf. on Magnesium Alloys and Their Application, 'A comparative study of carbon additives on grain refinement of magnesium alloys', Wiley-VCH, (2006) 8-13
|
16 |
M. Qian and P. Cao: Scripta Mater., 'Discussions on grain refinement of magnesium alloys by carbon addition', 52 (2005) 415-419
DOI
ScienceOn
|
17 |
Y.M. Kim, C.D. Yim, Y.H. Kim and B.S. You: Magnesium Technology 2007, 'The role of carbon for grain refinement in Mg-Al base alloys', TMS, (2007) 121-126
|
18 |
M. Qian, D.H. StJohn, M.T. Fost and M.R. Bamett: Magnesium Technology 2003, 'Grain refinement of pure magnesium using rolled ZIRMAX master alloy (Mg-33.3Zr)', TMS, (2003) 215-220
|
19 |
J.A. Davis, L.W. Eastwood and J.C. Dehaven: Trans. AFS, 'Grain refinement in magnesium casting alloys', 53 (1945) 352-362
|
20 |
J.C. Viala, G. Claveyrolas, F. Bosselet and J. Bouix: J. Mater. Sci., 'The chemical behavior of carbon fibres in magnesium base Mg-Al alloys', 35 (2000) 1813-1825
DOI
ScienceOn
|
21 |
M. Bamberger: Mater. Sci. Tech., 'Structural refinement of cast magnesium alloys', 17 (2001) 15-24
DOI
|
22 |
N. Tiner: Metals Technology, AIME Tech. Pub, 12 (1945) 1
|
23 |
C.E. Nelson: Trans. AFS, 'Grain size behavior in magnesium alloy', 56 (1948) 1-23
|
24 |
P. Cao, M. Qian and D.H. StJohn: Scripta Mater., 'Effect of manganese on grain refinement of Mg-Al based alloys', 54 (2006) 1853-1858
DOI
ScienceOn
|
25 |
M.X. Zhang, P.M. Kelly, M. Qian and J.A. Taylor: Acta Mater., 'Crystallography of grain refinement in Mg-Al based alloys', 53 (2005) 3261-3270
DOI
ScienceOn
|
26 |
L. Lu, A.K. Dahle and D.H. StJohn: Scripta Mater., 'Grain refinement efficiency and mechanism of aluminum carbide in Mg-Al alloys', 53 (2005) 517-522
DOI
ScienceOn
|
27 |
Y.M. Kim, C.D. Yim and B.S. You: Scripta Mater., 'Inoculation of carbonates and grain refinement of Mg-Al base alloys', submitted (2007)
|
28 |
P. Cao, M. Qian and D.H. StJohn: Scripta Mater., 'Native grain refinement of magnesium alloys', 53 (2005) 841-844
DOI
ScienceOn
|
29 |
Y.C. Lee, A.K. Dahle and D.H. StJohn: Metal. Mater. Trans., 'The role of solute in grain refinement of magnesium', 31A (2000) 2895-2906
|
30 |
M. Qian and A. Das: Scripta Mater., 'Grain refinement of magnesium alloys by zirconium: Formation of equaxed grains', 54 (2006) 881-886
DOI
ScienceOn
|
31 |
C.H. Mahoney, A.L. Tarr and P.E. LeGrand: Metals Technology, 'A study of factors influencing grain size in magnesium alloys and a carbon inoculation method for grain refinement', 12 (1945) 1-20
|
32 |
A. Feldhoff, E. Pippel and J. Woltersdorf: Phil. Mag. A, 'Structure and composition of ternary carbides in carbon-fibre reinforced Mg-Al alloys', 79 (1999) 1263-1277
|