Template for Paper of High Temperature Processing Symposium (Title of
the Topic 14 point Bold)
First Author1, Second Author2 (12 pt. Use first name, middle initial, and last name format)
1
Institution of the first author (12 pt.)
2
Institution of the second author (12 pt.)
Keywords: Keyword1, Keyword2, Keyword3
This instruction is to guide authors in preparing a paper for the High Temperature Processing
Symposium 2016. The paper will be compiled in a proceeding that will be distributed to the
registered attendees. All papers must be formatted for A4 paper. All margins should be set to
25.4 mm. Single column formats must be used. The paper has to be written in Times Roman
font with 12 pt. size. The page limit of the paper is 8 pages including References (written
using the format given below). The authors can use headings accordingly. An example is
given in this document as shown below. The paper should be submitted as an MS-word file to
the following email address: htp@swin.edu.au by 1 Dec 2015, for reviewing process.
1. INTRODUCTION
Introduction introduction introduction introduction introduction introduction
introduction introduction introduction introduction introduction introduction
introduction introduction introduction introduction introduction introduction
introduction introduction introduction introduction introduction introduction
introduction introduction introduction introduction introduction introduction
introduction introduction introduction introduction introduction introduction
introduction introduction introduction introduction introduction introduction
introduction introduction introduction introduction.
introduction
introduction
introduction
introduction
introduction
introduction
introduction
2. METHODOLOGY
Methodology methodology methodology methodology
methodology methodology methodology methodology
methodology methodology methodology methodology
methodology methodology methodology methodology
methodology methodology methodology methodology
methodology methodology methodology methodology
methodology.
methodology
methodology
methodology
methodology
methodology
methodology
methodology
methodology
methodology
methodology
methodology
methodology
Table 1: Data obtained from industrial trials
Trials #1
Trials #2
Trials #3
Trials #4
Data 1
1
4
7
10
Data 2
2
5
8
11
Data 3
3
6
9
12
3. RESULTS AND DISCUSSION
Results results results results results results results results results results results results
results results results results results results results results results results results results results
results results results results results results results results results results results results results
results results results results results results results results results results results results results
results results results results results results results results results results results results results
results results results results results results results results results results results results results
results results results results results results results results results results.
Figure 1: The comparison of bulk carbon content in metal bath calculated by the global model with
the study of Cicutti et al.
4. SUMMARY
Summary summary summary summary summary summary summary summary summary
summary summary summary summary summary summary summary summary summary
summary summary summary summary summary summary summary summary summary
summary summary summary summary summary summary summary summary summary
summary summary summary summary summary summary summary summary summary
summary summary summary summary summary summary summary summary summary
summary summary summary summary summary summary summary summary summary
summary summary summary summary summary summary summary summary summary
summary summary summary summary summary summary summary summary summary
summary summary summary summary summary summary summary summary summary
summary.
References
1. G. A. Brooks, et al., "Modeling of Trajectory and Residence Time of Metal Droplets in
Slag-Metal-Gas Emulsions in Oxygen Steelmaking," Metallurgical and Materials
Transaction B, Vol.36B, No.2005, pp. 525-535.
2. C. Cicutti, et al., "Study of Slag-Metal Reactions in an Converter," in 6th International
Conference on Molten Slags, Fluxes and Salts, 2000, City, p. 367.
3. C. Cicutti, et al., "Analysis of Slag Foaming During the Operation of an Industrial
Converter," Latin American Applied Research, Vol.32, No.3, 2002, pp. 237-240.
4. N. Dogan, G. A. Brooks, and M. A. Rhamdhani, "Analysis of Droplet Generation in
Oxygen Steelmaking," ISIJ International, Vol.49, No.1, 2009, pp. 24-28.
5. N. Dogan, G. A. Brooks, and M. A. Rhamdhani, "Kinetics of Flux Dissolution in
Oxygen Steelmaking," ISIJ International, Vol.49, No.10, 2009, pp. 1474-1482.
6. P. Kozakevitch, "Study of Basic Phosphate Slag Foams," International Congress of
Oxygen Steelmaking, Le Touquet, 1963.
7. H. W. Meyer, et al., "Slag-Metal Emulsions and Their Importance in BOF Steelmaking,"
JOM, Vol.20, No.1968, pp. 35-42.