Five Decades of the Zener Equation
スポンサーリンク
概要
- 論文の詳細を見る
The Zener equation was first reported by C. S. Smith in 1948 and since then it has become an integral part of any theory which deals with recovery, recrystallization and grain growth in particle-containing materials. Several modifications to the original equation have been made over the past five decades to improve its applicability to more realistic situations. This paper summarises these modifications and discusses which modifications are reasonable and justifiable based on the analytical models and experimental evidence reported in the literature. Several examples of the applications of the equation are provided to describe annealing phenomena in a wide variety of materials. The paper also examines the impact of the equation in the field of materials science and engineering and suggests a direction for its future development.
- 社団法人 日本鉄鋼協会の論文
- 1998-09-15
著者
-
Ferry M
Univ. New South Wales Nsw Aus
-
MANOHAR P.
Department of Materials Science and Engineering, Carnegie Mellon University
-
CHANDRA T.
Department of Materials Engineering, University of Wollongong
-
FERRY M.
Department of Materials Engineering, University of Wollongong
-
Manohar P.
Department Of Materials Engineering University Of Wollongong
-
Chandra T.
Department Of Materials Engineering University Of Wollongong
関連論文
- Computational Exploration of Microstructural Evolution in a Medium C-Mn Steel and Applications to Rod Mill
- Dimensions of Grain Boundary Mobility
- Continuous Cooling Transformation Behaviour of Microalloyed Steels Containing Ti, Nb, Mn and Mo
- Grain Growth Predictions in Microalloyed Steels
- Effect of Large Particles and Fine Precipitates on Recrystallization and Transformation Behaviour of Ti Treated Low Carbon TiO Steel
- Five Decades of the Zener Equation
- Prediction of Ferrite Grain Size after Warm Deformation of Low Carbon Steel
- Continuous Cooling Transformation Behaviour of High Strength Microalloyed Steels for Linepipe Applications
- Influence of Hot Deformation Conditions on the Annealing Behaviour of Cold Rolled Ultra Low Carbon Steel