The effect of the cooling rate or the local solidification time and composition on the secondary dendrite arm spacing during solidification PART II: Al—Mg—Si alloys
- 1 September 2001
- journal article
- research article
- Published by Taylor & Francis in International Journal of Cast Metals Research
- Vol. 14 (2) , 131-135
- https://doi.org/10.1080/13640461.2001.11819431
Abstract
In our previous work1 Al—Cu—Si alloys were investigated by DTA method and the secondary dendrite arm spacing was written as a function of the composition. The same method of examination was carried out on Al—Mg—Si alloys and is reported in this work. The evaluation was done in the same way and as a result, the secondary dendrite arm spacing can be written by these two equations:Keywords
This publication has 10 references indexed in Scilit:
- The effect of cooling rate and composition on the secondary dendrite arm spacing during solidification. Part I: Al-Cu-Si alloysInternational Journal of Cast Metals Research, 2001
- Models for the isothermal coarsening of secondary dendrite arms in multicomponent alloysMetallurgical and Materials Transactions B, 1997
- Prediction of dendrite arm spacings in unsteady-and steady-state heat flow of unidirectionally solidified binary alloysMetallurgical and Materials Transactions B, 1997
- The Effect of Temperature Gradient and Primary Arm Tip Velocity on Secondary Dendrite Arm Spacing at Steady-state Conditions SolidificationCast Metals, 1988
- Numerical calculation of microsegregation in coarsened dendritic microstructuresMaterials Science and Technology, 1986
- Coarsening kinetics during solidification of Ni-Al-Ta dendritic monocrystalsMetallurgical Transactions A, 1980
- The dendrite arm spacings of aluminum-copper alloys solidified under steady-state conditionsMetallurgical Transactions A, 1975
- Solidification processingMetallurgical Transactions, 1974
- The microscopy and composition of quenched solid-liquid interfacesJournal of Crystal Growth, 1969
- Dendritic growthActa Metallurgica, 1962