Modelling and optimization of sulfur addition during 70MnVS4 steelmaking: An industrial case study
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- @Article{Kovacic:2021:APEM,
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author = "Miha Kovacic and Borut Leser and Miran Brezocnik",
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title = "Modelling and optimization of sulfur addition during
{70MnVS4} steelmaking: An industrial case study",
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journal = "Advances in Production Engineering \& Management",
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year = "2021",
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volume = "16",
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number = "2",
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pages = "253--261",
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month = jun,
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keywords = "genetic algorithms, genetic programming, Metallurgy,
Steel making, High-strength steel 70MnVS4, Microalloyed
steel, Modeling, Optimization, Evolutionary algorithms,
Multiple linear regression",
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ISSN = "1854-6250",
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URL = "https://apem-journal.org/Archives/2021/VOL16-ISSUE02.html",
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URL = "https://apem-journal.org/Archives/2021/APEM16-2_253-261.pdf",
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DOI = "doi:10.14743/apem2021.2.398",
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size = "9 pages",
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abstract = "Store Steel Ltd. is one of the major flat spring steel
producers in Europe. Among several hundred steel
grades, 70MnVS4 steel is also produced. In the paper
optimization of steelmaking of 70MnVS4 steel is
presented. 70MnVS4 is a high-strength micro-alloyed
steel which is used for forging of connecting rods in
the automotive industry. During 70MnVS4 ladle
treatment, the sulfur addition in the melt should be
conducted only once. For several reasons the sulfur is
repeatedly added and therefore threatening clogging
during continuous casting and as such influencing
surface defects occurrence and steel cleanliness.
Accordingly, the additional sulfur addition was
predicted using linear regression and genetic
programming. Following parameters were collected within
the period from January 2018 to December 2018 (78
consequently cast batches): sulfur and carbon cored
wire addition after chemical analysis after tapping,
carbon, manganese and sulfur content after tapping,
time between chemical analysis after tapping and
starting of the casting, ferro-manganese and
ferro-silicon addition and additional sulfur cored wire
addition. Based on modelling results it was found out
that the ferromanganese is the most influential
parameter. Accordingly, 12 consequently cast batches
(from February 2019 to October 2019) were produced with
as lower as possible addition of ferromanganese. The
additional sulfur addition in all 12 cases was not
needed. Also, the melt processing time, surface quality
of rolled material and sulfur cored wire consumption
did not change statistically significantly after
reduction of ferromanganese addition. The steel
cleanliness was statistically significantly better.",
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notes = "also known as \cite{Kovacic2021253}
Store Steel, d.o.o., Store, Slovenia",
- }
Genetic Programming entries for
Miha Kovacic
Borut Leser
Miran Brezocnik
Citations