The cold working tool steels are of high carbon steels with metallic alloy additions which impart higher hardenability, abrasion resistance and less distortion in quenching. The microstructure changes occurring in tool steel during heat treatment is of very much importance as the final properties of the steel depends upon these changes occurred during the process. In order to obtain the desired performance the alloy constituents and its ratio plays a vital role as the steel transformation itself is complex in nature and depends very much upon the time and temperature. The proper treatment can deliver satisfactory results, at the same time process deviation can completely spoil the results. So knowing time temperature transformation (TTT) of phases is very critical which varies for each type depending upon its constituents and proportion range. To obtain adequate post heat treatment properties the percentage of retained austenite should be lower and metallic carbides obtained should be fine in nature. Support vector machine is a computational model which can learn from the observed data and use these to predict or solve using mathematical model. Back propagation feedback network will be created and trained for further solutions. The points on the TTT curve for the known transformations curves are used to plot the curves for different materials. These data will be trained to predict TTT curves for other steels having similar alloying constituents but with different proportion range. The proposed methodology can be used for prediction of TTT curves for cold working steels and can be used for prediction of phases for different heat treatment methods.
[1]
W. Brostow,et al.
Improvement of wear resistance of some cold working tool steels
,
2017
.
[2]
Yudong Zhang,et al.
Classification of Fruits Using Computer Vision and a Multiclass Support Vector Machine
,
2012,
Sensors.
[3]
Maozhen Li,et al.
A MapReduce-based distributed SVM algorithm for automatic image annotation
,
2011,
Comput. Math. Appl..
[4]
Daoliang Li,et al.
Original paper: Classification of foreign fibers in cotton lint using machine vision and multi-class support vector machine
,
2010
.
[5]
Subhas Ganguly,et al.
Simulating Time Temperature Transformation Diagram of Steel Using Artificial Neural Network
,
2009
.
[6]
M. Maalekian.
Christian Doppler Laboratory for Early Stages of Precipitation The Effects of Alloying Elements on Steels (I)
,
2007
.
[7]
V. K. Jayaraman,et al.
Regression Models Using Pattern Search Assisted Least Square Support Vector Machines
,
2005
.
[8]
Božidar Liščić,et al.
Theory and Technology of Quenching
,
1992
.
[9]
H. Hougardy.
Transformation of Steels During Cooling
,
1992
.
[10]
K. H. Prabhudeve.
Handbook of heat treatment of steels
,
1988
.