Электронный научный журнал
 
Diagnostics, Resource and Mechanics 
         of materials and structures
ВыпускиО журналеАвторуРецензентуКонтактыНовостиРегистрация

2015 Выпуск 2

Все выпуски
 
2024 Выпуск 4
 
2024 Выпуск 3
 
2024 Выпуск 2
 
2024 Выпуск 1
 
2023 Выпуск 6
 
2023 Выпуск 5
 
2023 Выпуск 4
 
2023 Выпуск 3
 
2023 Выпуск 2
 
2023 Выпуск 1
 
2022 Выпуск 6
 
2022 Выпуск 5
 
2022 Выпуск 4
 
2022 Выпуск 3
 
2022 Выпуск 2
 
2022 Выпуск 1
 
2021 Выпуск 6
 
2021 Выпуск 5
 
2021 Выпуск 4
 
2021 Выпуск 3
 
2021 Выпуск 2
 
2021 Выпуск 1
 
2020 Выпуск 6
 
2020 Выпуск 5
 
2020 Выпуск 4
 
2020 Выпуск 3
 
2020 Выпуск 2
 
2020 Выпуск 1
 
2019 Выпуск 6
 
2019 Выпуск 5
 
2019 Выпуск 4
 
2019 Выпуск 3
 
2019 Выпуск 2
 
2019 Выпуск 1
 
2018 Выпуск 6
 
2018 Выпуск 5
 
2018 Выпуск 4
 
2018 Выпуск 3
 
2018 Выпуск 2
 
2018 Выпуск 1
 
2017 Выпуск 6
 
2017 Выпуск 5
 
2017 Выпуск 4
 
2017 Выпуск 3
 
2017 Выпуск 2
 
2017 Выпуск 1
 
2016 Выпуск 6
 
2016 Выпуск 5
 
2016 Выпуск 4
 
2016 Выпуск 3
 
2016 Выпуск 2
 
2016 Выпуск 1
 
2015 Выпуск 6
 
2015 Выпуск 5
 
2015 Выпуск 4
 
2015 Выпуск 3
 
2015 Выпуск 2
 
2015 Выпуск 1

 

 

 

 

 

A. I. Potapov, S. V. Gladkovsky, E. A. Kokovikhin, D. R. Salikhyanov, D. A. Dvoynikov

DETERMINING THE PLASTIC STRAIN RESISTANCE OF METALLIC MATERIALS ON AN AUTOMATED PLASTOMETRIC COMPLEX

DOI: 10.17804/2410-9908.2015.2.024-043

An overview of the main methods and equipment used to determine plastic strain resistance under compression tests is given. A testing technique for solid and build-up cylindrical specimens, as well as square cross-section ones, implemented on an automated plastometric complex is described in detail. The results of the evaluation of strain resistance obtained with the application of the developed methods for a large number of steels and alloys are presented.

Keywords: strain resistance, testing technique, tension, upset, plastometer, hardening curve for steels and alloys, carbjn and alloy steels, titanium alloy

Bibliography:

1. Gorelik S.S., Dobatkin S.V., Kaputkina L.M. Rekristallizatsiya metallov i splavov [Recristallization of Metals and Alloys]. Moscow, MISIS Publ., 2005. 432 p. (In Russian).
2. Polukhin P.I., Gun G.Ya., Galkin A.M. Soprotivlenie plasticheskoy deformatsii metallov i splavov. Spravochnik [Plastic strain resistance of Metals and Alloys. Reference book]. Moscow, Metallurgiya Publ., 1983. 352 p. (In Russian).
3. Dao M., Chollacoop N., Van Vliet K.J., Venkatesh T.A., Suresh S. Computational modeling of the forward and reverse problems in instrumented sharp indentation. Acta Materialia, 2001, vol. 49, pp. 3899–3918.
4. Bucaille J.L., Stauss S., Felder E., Michler J. Determination of plastic properties of metals by instrumented indentation using different sharp indenters. Acta Materialia, 2003, vol. 51, pp. 1663–1678.
5. Konovalov D.A., Smirnov S.V., Vichuzhanin D.I. Determination of strain resistance by results of indentation with conical indenters. Izvestiya vuzov. Chornaya Metallurgiya, 2007, no. 3, pp. 69–70. (In Russian).
6. Smirnov S.V., Smirnova E.O. A technique for determining the coefficients of the stressstrain diagram by nanoscratch test results. Journal of Materials Research, 2014, vol. 29, no. 16, pp. 1730–1736.
7. Potapov A.I., Mazunin V.P., Dvoynikov D.A., Kokovikhin E.A. A technique for studying strain resistance on a plastometric complex. Promyshlinnaya Laboratoriya, 2010, no. 6, pp. 59–63. (In Russian).
8. Honeycombe R.W.K. Plasticheskya deformatsiya metallov [Plastic Deformation of Metals]. Moscow, Mir Publ., 1972. 406 p. (In Russian).
9. Mazunin V.P., Dvoynikov D.A. Increasing high-speed performance in the control of adjustable electric drives of mechanisms with elastic elements. Electrotekhnika, 2012, no. 10, pp. 36–42. (In Russian).
10. Zyuzev A.M., Dvoynikov D.A. Realization of the structure of high-speed electromechanical systems by means of the microcontroller of a Siemens Simoreg 6RA70 direct current thyristor converter. Elektrotekhnicheskie sistemy i kompleksy, 2014, no. 4 (25), pp. 17–20. (In Russian).
11. Unksov E.P. Inzhenernye metody rascheta usiliy pri obrabotke metallov davleniem [Engineering Methods for Calculating Forces in Metal Forming]. Moscow, Mashgiz Publ., 1955. 280 p. (In Russian).
12. Migachev B.A. Soprotivlenie deformatsii v mekhanike obrabotki davleniem [Strain Resistance in the Mechanics of Metal Forming]. Ekaterinburg, UrO RAN Publ., 1997. 176 p. (In Russian).
13. Konovalov A.V., Smirnov A.S. Identification of a strain resistance model by the results of compression tests. Promyshlennaya Laboratoriya, 2010, no. 1, pp. 53–56. (In Russian).
14. Konovalov A.V., Smirnov A.S. A visco-plastic model of strain resistance of steel 08Kh18N10T at a temperature of hot deformation. Metally, 2008, no. 2, pp. 55–59. (In Russian).
15. Sokolov L.D. On strain aging. Fizika Metallov i Metallovedenie, 1962, vol. 14, no. 6, pp. 904–909. (In Russian).
16. Krocha V.A. Uprochnenie metallov pri holodnoy plasticheskoy deformatsii. Spravochnik [Hardening of Metals by Cold Plastic Deformation. Reference book]. Moskow, Mashinostroenie Publ., 1980. 157 p. (In Russian).
17. Unksov E.P., Johnson W., Kolmogorov V.L. et al. Teoriya kovki i shtampovki. Uchebnoe posobie dlya studentov mashinostroitelnykh i metIllurgicheskikh spetsialnostey vuzov [Theory of Forging and Stamping. Tutorial for students of machine-building and metallurgical specialties of higher education institutions], 2-е izd. pererab. i dop [2nd edition revised and expanded]. Moscow, Mashinostroenie Publ., 1992. 720 p. (In Russian).
18. Stolyarov V.V. Tensile testing of nanostructural materials. Promyshlennaya Laboratoriya, 2008, no. 1, pp. 54–57. (In Russian).
19. Potapov A.I., Gladkovsky S.V., Kokovikhin E.A., Mazunin V.P. Determination of strain resistance in sheet materials. Promyshlennaya Laboratoriya, 2011, no. 6, pp. 52–56. (In Russian).
20. Loginov Ju.N., Potapov A.I., Shalaev N.A. Effect of temperature and strain rate on the hardening of titanium sponge. Titan, 2012, no. 3 (37), pp. 36–42. (In Russian).

А. И. Потапов, С. В. Гладковский, Е. А. Коковихин, Д. Р. Салихянов, Д. А. Двойников

ОПРЕДЕЛЕНИЕ СОПРОТИВЛЕНИЯ ПЛАСТИЧЕСКОЙ ДЕФОРМАЦИИ МЕТАЛЛИЧЕСКИХ МАТЕРИАЛОВ НА АВТОМАТИЗИРОВАННОМ ПЛАСТОМЕТРИЧЕСКОМ КОМПЛЕКСЕ

Представлен краткий обзор методик и установок для определения сопротивления пластической деформации при испытаниях на сжатие. Подробно изложена методика испытаний на автоматизированном пластометрическом комплексе ИМАШ УрО РАН с использованием сплошных и составных цилиндрических образцов, а также образцов квадратного поперечного сечения. Представлены результаты определения сопротивления деформации ряда сталей и сплавов с использованием разработанных методик.

Ключевые слова: сопротивление деформации, методика испытаний на сжатие, пластометр, кривые упрочнения сталей и сплавов, углеродистые и легированные стали, титановый сплав

Библиография:

1. Gorelik S.S., Dobatkin S.V., Kaputkina L.M. Rekristallizatsiya metallov i splavov [Recristallization of Metals and Alloys]. Moscow, MISIS Publ., 2005. 432 p. (In Russian).
2. Polukhin P.I., Gun G.Ya., Galkin A.M. Soprotivlenie plasticheskoy deformatsii metallov i splavov. Spravochnik [Plastic strain resistance of Metals and Alloys. Reference book.]. Moscow, Metallurgiya Publ., 1983. 352 p. (In Russian).
3. Dao M., Chollacoop N., Van Vliet K.J., Venkatesh T.A., Suresh S. Computational modeling of the forward and reverse problems in instrumented sharp indentation. Acta materialia, 2001, vol. 49, pp. 3899–3918.
4. Bucaille J.L., Stauss S., Felder E., Michler J. Determination of plastic properties of metals by instrumented indentation using different sharp indenters. Acta materialia, 2003, vol. 51, pp. 1663–1678.
5. Konovalov D.A., Smirnov S.V., Vichuzhanin D.I. Determination of strain resistance by results of indentation with conical indenters. Izvestiya vuzov. Chornaya Metallurgiya, 2007, no. 3, pp. 69–70. (In Russian).
6. Smirnov S.V., Smirnova E.O. A technique for determining the coefficients of the stressstrain diagram by nanoscratch test results. Journal of Materials Research, 2014, vol. 29, no. 16, pp. 1730–1736.
7. Potapov A.I., Mazunin V.P., Dvoynikov D.A., Kokovikhin E.A. A technique for studying strain resistance on a plastometric complex. Promyshlinnaya Laboratoriya, 2010, no. 6, pp. 59–63. (In Russian).
8. Honeycombe R.W.K. Plasticheskya deformatsiya metallov. [Plastic Deformation of Metals]. Moscow, Mir Publ., 1972. 406 p. (In Russian).
9. Mazunin V.P., Dvoynikov D.A. Increasing high-speed performance in the control of adjustable electric drives of mechanisms with elastic elements. Electrotekhnika, 2012, no. 10, pp. 36–42. (In Russian).
10. Zyuzev A.M., Dvoynikov D.A. Realization of the structure of high-speed electromechanical systems by means of the microcontroller of a Siemens Simoreg 6RA70 direct current thyristor converter. Elektrotekhnicheskie sistemy i kompleksy, 2014, no. 4 (25), pp. 17–20. (In Russian).
11. Unksov E.P. Inzhenernye metody rascheta usiliy pri obrabotke metallov davleniem [Engineering Methods for Calculating Forces in Metal Forming]. Moscow, Mashgiz Publ., 1955. 280 p. (In Russian).
12. Migachev B.A. Soprotivlenie deformatsii v mekhanike obrabotki davleniem [Strain Resistance in the Mechanics of Metal Forming]. Ekaterinburg, UrO RAN Publ., 1997. 176 p. (In Russian).
13. Konovalov A.V., Smirnov A.S. Identification of a strain resistance model by the results of compression tests. Promyshlennaya Laboratoriya, 2010, no. 1, pp. 53–56. (In Russian).
14. Konovalov A.V., Smirnov A.S. A visco-plastic model of strain resistance of steel 08Kh18N10T at a temperature of hot deformation. Metally, 2008, no. 2, pp. 55–59. (In Russian).
15. Sokolov L.D. On strain aging. Fizika Metallov i Metallovedenie, 1962, vol. 14, no. 6, pp. 904–909. (In Russian).
16. Krocha V.A. Uprochnenie metallov pri holodnoy plasticheskoy deformatsii. Spravochnik [Hardening of Metals by Cold Plastic Deformation. Reference book]. Moskow, Mashinostroenie Publ., 1980. 157 p. (In Russian).
17. Unksov E.P., Johnson W., Kolmogorov V.L. et al. Teoriya kovki i shtampovki. Uchebnoe posobie dlya studentov mashinostroitelnykh i metIllurgicheskikh spetsialnostey vuzov [Theory of Forging and Stamping. Tutorial for students of machine-building and metallurgical specialties of higher education institutions], 2-е izd. pererab. i dop [2nd edition revised and expanded]. Moscow, Mashinostroenie Publ., 1992. 720 p. (In Russian).
18. Stolyarov V.V. Tensile testing of nanostructural materials. Promyshlennaya Laboratoriya, 2008, no. 1, pp. 54–57. (In Russian).
19. Potapov A.I., Gladkovsky S.V., Kokovikhin E.A., Mazunin V.P. Determination of strain resistance in sheet materials. Promyshlennaya Laboratoriya, 2011, no. 6, pp. 52–56. (In Russian).
20. Loginov Ju.N., Potapov A.I., Shalaev N.A. Effect of temperature and strain rate on the hardening of titanium sponge. Titan, 2012, no. 3 (37), pp. 36–42. (In Russian).

                             
PDF      

Библиографическая ссылка на статью

Determining the Plastic Strain Resistance of Metallic Materials on An Automated Plastometric Complex / A. I. Potapov, S. V. Gladkovsky, E. A. Kokovikhin, D. R. Salikhyanov, D. A. Dvoynikov // Diagnostics, Resource and Mechanics of materials and structures. - 2015. - Iss. 2. - P. 24-43. -
DOI: 10.17804/2410-9908.2015.2.024-043. -
URL: http://dream-journal.org/issues/2015-2/2015-2_29.html
(accessed: 10.11.2024).

 

импакт-фактор
РИНЦ 0.42

категория К2
в перечне ВАК

МРДМК 2024
ЦКП Пластометрия
НЭБ РИНЦ
Google Scholar


РНБ
Лань

 

Учредитель:  Федеральное государственное бюджетное учреждение науки Институт машиноведения имени Э.С. Горкунова Уральского отделения Российской академии наук
Главный редактор:  С.В.Смирнов
При цитировании ссылка на Электронный научно-технический журнал "Diagnostics, Resource and Mechanics of materials and structures" обязательна. Воспроизведение материалов в электронных или иных изданиях без письменного разрешения редакции запрещено. Опубликованные в журнале материалы могут использоваться только в некоммерческих целях.
Контакты  
 
Главная E-mail 0+
 

ISSN 2410-9908 Регистрация СМИ в Роскомнадзоре Эл № ФС77-57355 от 24 марта 2014 г. © ИМАШ УрО РАН 2014-2024, www.imach.uran.ru