Thermal testing of corundum ceramic plates

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription Access

Abstract

A review of the methods of production of corundum ceramics with specified characteristics is carried out and possible causes of hidden defects are indicated. Ceramic samples for research were obtained by the method of slip casting and their physical properties were determined. The possibility of diagnosing the integrity of corundum ceramic plates was investigated by the method of active thermal non-destructive testing. Various testing schemes and sources of thermal stimulation of the studied samples were applied. As a reference method, X-ray inspection was used, which confirmed the characteristics of the defect detected by the thermal method in the control sample.

About the authors

S. E Chernykh

M.N. Mikheev Institute of Metal Physics of Ural Branch of Russian Academy of Sciences

Email: suo@mail.ru
Yekaterinburg Russia

V. N Kostin

M.N. Mikheev Institute of Metal Physics of Ural Branch of Russian Academy of Sciences

Email: kostin@imp.uran.ru
Yekaterinburg Russia

Yu. I Komolikov

M.N. Mikheev Institute of Metal Physics of Ural Branch of Russian Academy of Sciences

Email: yikom@yandex.ru
Yekaterinburg Russia

References

  1. Carter C.B., Norton M.G. Ceramic materials: science and engineering. New York: Springer, 2007. 716 p.
  2. Basu B., Balani K. Advanced Structural Ceramics. Hoboken: John Wiley & Sons, Inc., 2011. 512 p.
  3. Okada A. Ceramic technologies for automotive industry: current status and perspectives // Mater. Sci. Eng. B. 2009. V. 161. P. 182-187.
  4. Лукин Е. С., Макаров Н.А., Козлов А.И., Попова Н.А., Ануфриева Е.В., Вартанян М.А., Козлов И.А., Сафина М.Н., Лемешев Д.О., Горелик Е.И. Оксидная керамика нового поколения и области ее применения // Стекло и керамика. 2008. № 10. С. 27-31.
  5. Aluminum oxide. Production, properties, applications / Translation: Horst H. Pohland. Ludwig Auer: Donauwо.rth, 1999. 70 p.
  6. Кайнарский И.С., Дегтярева Э.В., Орлова И.Г. Корундовые огнеупоры и керамика. М.: Металлургия, 1981. 267 с.
  7. Sequeira S., Fernandes M.H., Neves N., Almeida M.M. Development and characterization of zirconia-alumina composites for orthopedic implants // Ceram.Int. 2017. V. 43. P. 693-703.
  8. Жолудев Д.С., Григорьев С.С., Панфилов П.Е., Зайцев Д.В. Обоснование использования керамики на основе оксида алюминия с помощью изучения ее механических свойств // Современные проблемы науки и образования. 2014. № 3. С. 520.
  9. Garshin A.P., Kulik V.I., Nilov A.S. Shock-resistant materials based on commercial grade ceramic: achievements and prospects for improving their ballistic efficiency // Refract. Ind. Ceram. 2016. V. 57. No. 2. Р. 207-219.
  10. Zhike Z. Review of non-destructive testing methods for defect detection of ceramics // Ceramics International. 2021. V. 47. No. 4. P. 4389-4397.
  11. Вавилов В.П. Тепловой неразрушающий контроль: развитие традиционных направлений и новые тенденции (обзор) // Дефектоскопия. 2023. № 6. C. 38-58.
  12. Вавилов В.П. Неразрушающий контроль / Справочник. В 7 т. Т. 5. В 2 кн. Кн. 1. Под общ. ред. В. В. Клюева. М.: Машиностроение, 2004. 418 с.
  13. Vavilov V.P. Thermal nondestructive testing of materials and products: a review // Russ. J. Nondestruct. Test. 2017. V. 53. No. 10. P. 707-730.
  14. Вавилов В.П., Чулков А.О., Дерусова Д.А., Пань Я. Новые идеи в активном тепловом контроле // В мире неразрушающего контроля. 2016. № 1. C. 5-7.
  15. Вандельт М., Крегер Т., Йоханнес М. Активная термография - эффективный метод неразрушающего контроля крупногабаритных изделий из композиционных материалов // В мире неразрушающего контроля. 2016. № 1. C. 8-12.
  16. Silva A.R., Vaz M., Leite S.R., Mendes J. Analyzing the Influence of Thermal NDT Parameters on Test Performance // Russ. J. Nondestruct. Test. 2021. V. 57. P. 727-737.
  17. Chulkov A.O., Vavilov V.P., Kladov D.Y., Yurkina V.A. Thermal Nondestructive Testing of Composite and Metal Parts Manufactured by Additive Technologies // Russ. J. Nondestruct. Test. 2022. V. 58. P. 1035-1040.

Copyright (c) 2023 Russian Academy of Sciences

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies