Electronic Scientific Journal
 
Diagnostics, Resource and Mechanics 
         of materials and structures
Рус/Eng  

 

advanced search

IssuesAbout the JournalAuthorContactsNewsRegistration

2017 Issue 4

All Issues
 
2024 Issue 6
(in progress)
 
2024 Issue 5
 
2024 Issue 4
 
2024 Issue 3
 
2024 Issue 2
 
2024 Issue 1
 
2023 Issue 6
 
2023 Issue 5
 
2023 Issue 4
 
2023 Issue 3
 
2023 Issue 2
 
2023 Issue 1
 
2022 Issue 6
 
2022 Issue 5
 
2022 Issue 4
 
2022 Issue 3
 
2022 Issue 2
 
2022 Issue 1
 
2021 Issue 6
 
2021 Issue 5
 
2021 Issue 4
 
2021 Issue 3
 
2021 Issue 2
 
2021 Issue 1
 
2020 Issue 6
 
2020 Issue 5
 
2020 Issue 4
 
2020 Issue 3
 
2020 Issue 2
 
2020 Issue 1
 
2019 Issue 6
 
2019 Issue 5
 
2019 Issue 4
 
2019 Issue 3
 
2019 Issue 2
 
2019 Issue 1
 
2018 Issue 6
 
2018 Issue 5
 
2018 Issue 4
 
2018 Issue 3
 
2018 Issue 2
 
2018 Issue 1
 
2017 Issue 6
 
2017 Issue 5
 
2017 Issue 4
 
2017 Issue 3
 
2017 Issue 2
 
2017 Issue 1
 
2016 Issue 6
 
2016 Issue 5
 
2016 Issue 4
 
2016 Issue 3
 
2016 Issue 2
 
2016 Issue 1
 
2015 Issue 6
 
2015 Issue 5
 
2015 Issue 4
 
2015 Issue 3
 
2015 Issue 2
 
2015 Issue 1

 

 

 

 

 

N. B. Pugacheva, Yu. V. Khudorozhkova, E. B. Trushina, A. V. Gerasimova, N. P. Antenorova

REASONS FOR CRACKING OF DIE-FORGED CuZn34Mn3Al2FeNi BRASS BLANKS

DOI: 10.17804/2410-9908.2017.4.061-080

The structural state of annular work pieces made of brass CuZn34Mn3Al2FeNi after hot forming at temperatures of 700 and 780 °C is studied. Electron microprobe analysis of the material of rings shows the absence of any harmful impurities, low melting eutectics, silicides and non-metallic inclusions on the bʹ-grain interfaces. Irregularity of the dynamic recrystallization process in the cross section of the rings has been revealed; namely, there are two zones differing in the amount of deformation. One area with minimal deformation and excessively large grain, the second – with the maximum deformation and small grain resulting from dynamic recrystallization. Determined that heating for stamping to 780 Cresults togrowth of βʹ-grains up to 0.3 mmin the area with minimal deformation, the grains boundaries are reinforced (on the borders – 300 HV 0.2, and in the center of the grain – 170 HV 0.2), which facilitates the emergence and rapid growth of cracks under the action of internal residual stresses formed during cooling of blanks. Lowering the temperature of heating for forging to 700 C reduces the size of the maximum βʹ-grains up to 0.15 mm, thus not detected hardening of their borders that helps to preserve the integrity of the rings after cooling.

Keywords: brass, deformation, microstructure, fracture, crack, dynamic recrystallization, residual stresses, hardness

References:

  1. Suchkov D.I. Med i Ee Splavy [Copper and its Alloys]. M., Metallurgy Publ., 1967, 248 p. (In Russian).
  2. Turkin V.D. Rumyantsev M.V. Struktura i Svoistva Tsvetnykh Metallov i Splavov [Structure and Properties of Nonferrous Metals and Alloys]. Moscow, Metallurgizdat Publ., 1944, 440 p. (In Russian).
  3. Efremov B.N. Latuni. Ot Fazovogo Stroeniya k Structure i Svoistvam [Brasses. From Phase Texture to the Structure and Properties: monograph]. Moscow, INFRA–M Publ., 2014, 312 p. (In Russian).
  4. Elagin V.A., Kolachev A.V., Livanov V.A. Metallovedenie i Termicheskaya Obrabotka Tsvetnykh Metallov i Splavov [Metal Science and Heat Treatment of Nonferrous Metals and Alloys]. Moscow, MISIS Publ., 2005, 432 p. (In Russian).
  5. Krasnenkov V.I., Egorkin V.V. Sinkhronizatory v Stupenchatykh Transmissiyakh [Synchronizers in Stepped Transmission]. Moscow, Mashinostroenie Publ., 1967, 195 p. (In Russian).
  6. Pugacheva N.B. Struktura i Svoistva Deformiruemykh Legirovannykh Latuney [Structure and Properties of Deformed Alloy Brasses]. Ekateriburg, UrORAN Publ., 2012, 172 p. (In Russian).
  7. Tropotov A.V. Pugacheva N.B., Ryazantsev Yu.V., Zhukova L.M. A study of residual stresses in products made of hard alloy of brass. Metal Science and Heat Treatment, 2006, vol. 47, nos. 1–2, pp. 31–35. DOI: 10.1007/s11041-006-0039-5
  8. Kopyl M.D., Kropotov A.V., Kotlyarov I.V. Improving brass alloys for synchronizer rings. Avtomobilnaya Promyshlennost, 1999, no. 10, pp. 26–29. (In Russian).
  9. Smirnov S.V., Pugacheva N.B., Soloshenko A.N., Tropotov A.V. Plastic deformation of a high-alloy brass. Physics of Metals and Metallography, 2002, vol. 93, no. 6, pp. 584–593.
  10. Cai W., Liu H.F., Hu Z.Q. Effect of Ni on structure and characteristics of Cu-Zn Brass to 22.7 As-cast. Advanced Materials Research, 2012, vol. 581–582, no. 1, pp. 556–560.
  11. RD 50-672-88: Calculations and strength tests, classification of fractures of metals: methodical instructions, Moscow, Izd-vo Standartov Publ., 1989, 21 p.
  12. Shimov G.V., Kovin D.S. Residual stresses in copper and brass tubes after drawing. Izvestiya VUZov: tsvetnaya metallurgiya, 2015, special issue, pp. 46–49. (In Russian).
  13. Pugacheva N.B., Trushina E.B., Antenorova N.P., Ovchinnikov A.S., Lebed A.V. Studying the nature and reasons for the fracture of extruded 58Cu–34Zn–3Mn–2Al alloy billets. Voprosy Materialovedeniya, 2014, no. 1 (77), pp. 56–64. (In Russian).
  14. Gorelik S.S. Dobatkin S.V., Kaputkina L.M. Rekristallizatsiya Metallov i Splavov [Recrystallization of Metals and Alloys]. Moscow, Izd-vo MISIS Publ., 2005, 432 p. (In Russian).
  15. Grachev S.V., Baraz V.R., Bogatov V.P., Shveykin V.P. Fizicheskoe Materialovedenie [Physical Materials Science: Textbook for High Schools, 2nd ed., S.V. Grachev, ed.]. Ekaterinburg, Izd-vo UPI Publ., 2009, 548 p.]. (In Russian).
  16. Tropotov A.V., Smirnov S.V., Kuznetsov V.Yu. Predicting the reliability of the forming of a "blocking synchronizer ring" part for cars. Metalloobrabotka, 2004, no. 3 (21), pp. 19–21. (In Russian).
  17. Schwartz A.J. Kumar V., Adams B.L., Field D.P. Electron Backscatter Diffraction in Materials Science, Springer, Boston, MA, 2000, 395 p. DOI: 10.1007/978-0-387-88136-2
  18. Varyukhin V.N., Pashinskaya E.G., Savdoveev A.V., Burkhovetsky V.V. Vozmozhnosti Metoda Difraktsii Obratnorasseyannykh Elektronov dlya Analiza Struktury Deformirovannykh Materialov [Applicability of the Electron Backscatter Diffraction Method to the Analysis of the Structure of Deformed Materials]. Kiev, Naukova Dumka, 2014, 102 p. (In Russian).


PDF      

Article reference

Reasons for Cracking of Die-Forged Cuzn34mn3al2feni Brass Blanks / N. B. Pugacheva, Yu. V. Khudorozhkova, E. B. Trushina, A. V. Gerasimova, N. P. Antenorova // Diagnostics, Resource and Mechanics of materials and structures. - 2017. - Iss. 4. - P. 61-80. -
DOI: 10.17804/2410-9908.2017.4.061-080. -
URL: http://eng.dream-journal.org/issues/2017-4/2017-4_163.html
(accessed: 12/30/2024).

 

impact factor
RSCI 0.42

 

MRDMS 2024
Google Scholar


NLR

 

Founder:  Institute of Engineering Science, Russian Academy of Sciences (Ural Branch)
Chief Editor:  S.V. Smirnov
When citing, it is obligatory that you refer to the Journal. Reproduction in electronic or other periodicals without permission of the Editorial Board is prohibited. The materials published in the Journal may be used only for non-profit purposes.
Contacts  
 
Home E-mail 0+
 

ISSN 2410-9908 Registration SMI Эл № ФС77-57355 dated March 24, 2014 © IMACH of RAS (UB) 2014-2024, www.imach.uran.ru