Skip to main content
Disciplines
Automotive Business IT + Informatics Construction + Real Estate Electrical Engineering + Electronics Energy + Sustainability Insurance + Risk Finance + Banking Management + Leadership Marketing + Sales Mechanical Engineering + Materials
Events
DE
EN
Books
Journals
Topic Page
Marketing
Start single access now
Access for companies
EXTENDED SEARCH
Log in
Top
Metallurgist
Published in: Metallurgist 3-4/2014

01-07-2014

New Generation of Automobile Sheet Steels for Domestic Automobile Manufacture and Improved Metal Product Competitiveness

Authors: I. G. Rodionova, V. A. Uglov, A. I. Zaitsev, A. V. Protasov, P. A. Mishnev, R. R. Adigamov, S. I. Pavlov, S. A. Las’kov, O. A. Nikolaev, A. A. Kiryushin, A. K. Tikhonov, V. G. Ryabchikov

Published in: Metallurgist | Issue 3-4/2014

Log in

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

Rapid development of world automobile manufacture, and before the start of the 21st century failure of domestic automobile sheet steels to keep pace with the world level, determine the importance of carrying out this work. Manufacture of a new generation of more than thirty automobile sheet steel grades has opened up for domestic metallurgical enterprises. Engineering re-equipment of enterprises, use of original scientific approaches based on controlling precipitation of nonmetallic excess phases, comprising a solid solution and grain boundaries, and forms of impurities present, make it possible to develop highly efficient resource-saving technology providing the best set of mechanical properties with minimum expenditure.
previous article Study of the Effect of Ingot Geometry on its Solidification Features Based on Cold Simulation. Part II*
next article Micro- and Economically-Alloyed Heat-Resistant Cr–Mo–V Steel

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

inform now
Footnotes
1
V. Ya. Tishkov, S. V. Zhilenko, and O. V. Dolgikh participated in the work.
 
Literature
1.
A. V. Protasov, A. I. Maiorov, B. A. Sivak, et al., “Creation and industrial assimilation of combined degassing unit,” Tyazh. Mashinostr., No. 7, 26–30 (2000).
2.
A. V. Protasov, A. F. Sarychev, V. I. Frolov, et al., “Results of operating a combined degassing unit,” Cher. Metally, No. 11, 17–21 (2000).
3.
N. G. Shaposhnikov, B. M. Magutnov, S. M. Polonskaya, et al, “Thermodynamic modeling as a tool for improving heating technology for 12Kh18N10T steel ingots for rolling,” Materialovedenie, No. 11, 2–9 (2004).
4.
F. Bezuidenhout, J. Du Plessis, and P. E. Viljgen, “The segregation of carbon to the (110) surface of a Fe-10 at.% Si single crystal,” Surf. Sci., 171, 392–399 (1986).CrossRef
5.
H. De Rugy and H. Viefhaus, “Surface segregation of Si on Fe single crystal surfaces and interaction with carbon,” Surf. Sci., 173, 418–438 (1986).CrossRef
6.
I. G. Rodionov, P. A. Mishnev, S. V. Zhelenko, et al., “Metallurgical bases and production aspects of obtaining high-strength stamping low-carbon steels in the contemporary stage of metallurgical technology development,” Probl. Chern. Metall. Metalloved., No. 4, 12–28 (2011).
7.
D. L. Vainshtein, A. I. Kovalev, A. Yu. Rashkovskii, et al., “Dependence of thermokinetic parameters of impurity element segregation and degree of cold plastic deformation in steels for deep drawing 08Yu,” Probl. Chern. Metall. Metalloved., No. 4, 57–62 (2012).
8.
I. G. Rodionova, N. G. Shaposhnikov, N. I. Endel, et al., “Conditions for nitride and sulfide phase formation in steels for deep drawing. I. Aluminum nitride,” Probl. Chern. Metall. Metalloved., No. 3, 60–67 (2008).
9.
I. G. Rodionova, N. G. Shaposhnikov, N. I. Endel, et al., “Conditions for nitride and sulfide phase formation in steels for deep drawing. II. Manganese sulfide,” Probl. Chern. Metall. Metalloved., No. 4, 52–58 (2008).
10.
Yu. S. Bykova, I. G. Rodionova, P. A. Mishnev, et al., “Study of the effect of impurities on properties of steel 08Yu and development of methods for improving property level by adjusting production parameters in relation to impurity content,” New Steels for Engineering and Their Heat Treatment: Proc. 3rd Sci.-Techn. Conf. on Heat Treatment, April 13–15, 20011, AVTOVAZ, Toliatti (2011), pp. 53–54.
11.
I. N. Chirkina, I. G. Rodionova, E. I. Zhadanovskii, et al., “Methods for improving a set of properties for steel 08Yu including optimizing annealing parameters in bell-type furnaces,” ibid., pp. 57–58.
12.
I. G. Rodionova, P. A. Mishnev, R. R. Adigamov, et al., “Features of structure formation and properties of cold-rolled low-carbon steel for automobile manufacture in relation to degree of reduction during cold rolling,” Metallurg, No. 2, 62–69 (2012).
13.
R. Brisberger, H. Bechem, and L. Leyhe, MPT Int., No. 3, 60–70 (2001).
14.
M. Hua, C. I. Garcia, and A. J. DeArdo, “Precipitation behavior in ultra-low carbon steels containing titanium and niobium,” Metall. Mat. Trans. A, 28A, 1769–1780 (1997).CrossRef
15.
N. Mizui and A. Okamoto, “Recent development in bake-hardenable sheet steel for automobile body panels,” Steel in Motor Vehicle Manufacture: Int. Conf., Würzburg, Sept. 24–26, 1990, pp. 85–94.
16.
T. Asamura, “Recent development of modern LC and ULC sheet steel in Japan,” Modern LC and ULC Sheet Steels for Cold Forming: Process. and Prop. Int. Symp., Aachen, March 30 – April 1, 1998, pp. 1–14.
17.
P. Pradhan anmd K. Taylor, “Status of ELC, ULC and IF cold-rolled sheet steel in the US automobile industry,” ibid, pp. 15–26.
18.
L. Storojeva, N. Fonstein, and O. Yakubovsky, “Effect of hot rolling finishing temperature and cooling mode on the formation of solid solution, mechanical properties and BH-effect of ULC-steel,” ibid, pp. 339–350.
19.
A. K. Tikhonov, “Properties of sheet steels for contemporary automobile manufacture,” Deform. Razrush. Materialov, Nauka i Tekhnologiya, Moscow (2006), No. 10, pp. 2–4.
20.
S. Z. Afonin and A. K. Tikhonov, “State and prospects for development of domestic production of metallic material for automobile manufacture,” Stal, No. 11, 146–148 (2006).
21.
N. A. Rybkin, I. G. Rodionova, N. G. Shaposhnikov, et al., “Development of approaches for selecting optimum alloy systems and production parameters for manufacturing hot-rolled high-strength low-alloy steels for automobile manufacture,” Metallurg, No. 8, 50–56 (2009).
22.
I. N. Chirkina, I. G. Rodionova, and V. V. Kuznetzonv, “Improvement of a set of properties for cold-rolled low-alloy rolled product for automobile manufacture with a yield strength of 360 MPa or more by controlling nanosize nonmetallic inclusion particle precipitation,” Nanotechnology for Production 2009: School-Seminar, Sept. 21–26, 2009, pp. 251–253.
23.
I. G. Rodionova, A. I. Zaitsev, N. G. Shaposhnikov, et al., “Effect of chemical composition and production parameters on formation of nanostructure components and set of properties for high-strength low-alloy structural steels,” Metallurg, No. 6, 33–39 (2010).
24.
I. G. Rodionova, I. N. Chirkina, T. M. Efimova, et al., “Metallurgical aspects of improving a set properties for cold-rolled automobile rolled product from microalloyed steels,” Probl. Chern. Met. Materialoved., No. 1, 85–92 (2011).
Metadata
Title
New Generation of Automobile Sheet Steels for Domestic Automobile Manufacture and Improved Metal Product Competitiveness
Authors
I. G. Rodionova
V. A. Uglov
A. I. Zaitsev
A. V. Protasov
P. A. Mishnev
R. R. Adigamov
S. I. Pavlov
S. A. Las’kov
O. A. Nikolaev
A. A. Kiryushin
A. K. Tikhonov
V. G. Ryabchikov
Publication date
01-07-2014
Publisher
Springer US
Published in
Metallurgist / Issue 3-4/2014
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI
https://doi.org/10.1007/s11015-014-9889-z

Other articles of this Issue 3-4/2014

Metallurgist 3-4/2014 Go to the issue

OriginalPaper

Study of Heat Treatment Regimes During Production of a New Generation of Invar Alloys

OriginalPaper

Study of the Effect of Ingot Geometry on its Solidification Features Based on Cold Simulation. Part III*

OriginalPaper

Use of the Blast Furnaces at Krivorozhstal to Illustrate the Prospects of Blast-Furnace Smelting and Certain Aspects of its Current State*

OriginalPaper

Improvement of Complete Technology for Seamless Pipe Manufacture from Carbon and Low-Alloyed Steels

OriginalPaper

Use of the Program PAM-STAMP to Study the Effect of the As-Received Condition of a Material on its Formability During Stamping

OriginalPaper

Developing a Technology for Recycling Automotive Exhaust-Gas Catalysts

Premium Partners

    Image Credits