Preview

Пластические массы

Расширенный поиск

Модификация свойств анаэробных адгезивов. Обзор современных достижений

https://doi.org/10.35164/0554-2901-2019-7-8-9-15

Полный текст:

Аннотация

В настоящем обзоре рассмотрены достижения в области усовершенствования свойств анаэробных адгезивов, используемых в различных отраслях техники для стопорения, уплотнения и склеивания металлических деталей.

Об авторе

Д. А. Аронович
АО «НИИ полимеров»
Россия
г. Дзержинск Нижегородской обл.


Список литературы

1. Ch.W. Boeder Anaerobic and structural acrylic adhesives. Ch.5. P. 217-243 in “Structural Adhesives. Chemistry and Technology” Edited by S.R.Hartshorn, 1986. Plenum Press. N.J.

2. Richard D. Rich Anaerobic adhesive. Ch.39. P.761-774 in “Handbook of adhesive technology”, Edited by A. Pizzi & K.L. Mittal, 2003. The Second Ed. CRC Press, Boca Raton, FL.

3. P. Klemarczyk, J. Guthrie Advances in anaerobic and cyanoacrylate adhesives. Ch. 5. P.96-131 in “Advances in structural adhesive bonding”, Edited by D.A. Dillard. 2010. CRC Press LLC.

4. A.P. Sineokov, D.A. Aronovich, Z.S. Khamidulova, A.F. Murokh Reactive adhesives on the basis of (meth)acrylic oligomers // Polym. Sci. Ser. D 2012, V. 5, № 4, Р. 264–279. doi:10.1134/S1995421212040168

5. David Birkett, David Condron Ch.13. Anaerobic adhesive. Ch.13. P.367-384 in “Handbook of adhesive technology”, Edited by A. Pizzi & K. L. Mittal, 2018. The Thirnd Ed. Taylor and Francis Group, LLC. N.J.

6. Аронович Д.А. Достижения в области повышения термических свойств анаэробных адгезивов. Обзор // Клеи, герметики, технологии 2019. № 7. (в печати)

7. WO 2015168630A1 (publ. 2015) Anaerobic curable compositions containing blocked (meth)acrylic acid compounds / Andrew D. Messana, Sean M. Burdzy, Anthony F. Jacobine, Joel D. Schall

8. WO 2015168576A1 (publ. 2015) Anaerobic curable compositions containing blocked dicarboxylic acid compounds / Andrew D. Messana, Sean M. Burdzy, Anthony F. Jacobine, Joel D. Schall.

9. US 9868689B2 (publ. 2018) Anaerobic curable compositions containing blocked (meth)acrylate acid compounds / Andrew D. Messana, Sean M. Burdzy, Joel D. Schall, Anthony F. Jacobine.

10. Fu Dan, Fu Xiang-kai, Zou Kuang-dong, Gong Yong-feng Synthesis of Styrene-Acrylic-Maleic Anhydride Copolymers and Application in Anaerobic Adhesive // Journal of Southwest China Normal University (Natural Sci. Ed.). 2006. № 5. P. 98-101.

11. US 20090012202A1 (publ. 2009) Acrylated urethanes, processes for making the same and curable compositions including the same / Anthony F. Jacobine, John G. Woods, Joel D. Schall et al.

12. WO 2014151358A2 (publ. 2014) Anaerobic curable compositions / Jianping Liu, Andrus Maandi.

13. US 20150136323A1 (publ. 2015) Anaerobic curable compositions / Andrew D. Messana, David P. Dworak, Angelica Messana et al.

14. Фомина Е.В., Коровин Л.П., Фомин В.А. Изучение условий синтеза и свойств диметакриловых производных, содержащих фрагмент димеризованной жирной кислоты // Ж. прикл. химии. 2012. Т. 85. № 8. С. 1288-1294.

15. Патент РФ 2453531, опубл. 2012 г. Диметакриловые эфиры димеризованной жирной кислоты / Фомина Е.В., Коровин Л.П., Аронович Д.А. и др.

16. US 7728092B1 (publ. 2010) Anaerobically curable compositions / Anthony F. Jacobine, Joel D. Schall, John G. Woods.

17. US 20060047046A1 (publ. 2006) Thixotropic anaerobic adhesive / Hans Haas.

18. CN 102516891B (publ. 2014) Single-component anaerobic adhesive with high filing gap and preparation method thereof.

19. Кононенко А.С. Повышение надежности неподвижных фланцевых соединений сельскохозяйственной техники использованием наноструктурированных герметиков // Дисс. на соиск уч. степ. докт. техн. наук. 2012. Московский гос. агроинженерный университет им. В.П. Горячкина. 405 с.

20. Кононенко А.С., Кильдеев Т.А., Соловьева А.А. Особенности восстановления шпиндельных валов металлорежущих станков полимерными материалами и нанокомпозициями на их основе // Ремонт, восстановление, модернизация. 2018. № 10. С. 3-8.

21. WO 2013181355A1 (publ. 2013) Resin compositions for coating substrates to improve sealing performance / Shabbir Attarwala, Viraj Kadam, Qinyan Zhu et al.

22. Ли Р.И., Бочаров А.В., Бутин А.В, Шипулин М.А. Перспективные полимерные и полимер-полимерные композиционные материалы для сборки подшипниковых узлов при изготовлении и ремонте техники // Клеи, герметики, технологии. 2011. № 5. С. 28-33.

23. Ли. Р.И., Псарев Д.Н., Малюгин В.А. Полимерный нанокомпозит для фиксации подшипников при сборке и ремонте техники // Клеи, герметики, технологии. 2018. № 12. С. 36-47.

24. D. Raftery, M.R. Smyth, R.G. Leonard, D. Heatley Eff ect of copper(ll) and iron(Ill) ions on reactions undergone by the accelerator 1-acetyl-2-phenylhydrazine commonly used in anaerobic adhesives // Int. J. Adhesion Adhesives. 1997. v.17. P. 151-153.

25. WO 2015125354A1 (publ. 2015) Anaerobically curable adhesive agent.

26. US 20030032736A1 (publ. 2003) Acrylic adhesive compositions containing ketonyl (meth)acrylate / Brendan Kneafsey, Gerry Coughlan.

27. US 6172134B1 (publ.2001) Anaerobically curable composition / Bernard Cooke.

28. US 8198345 (publ. 2012) Lubricious anaerobic curable compositions / Prakash S. Patel, Shabbir Attarwala.

29. Wang Gang, Zhang Da-yong, Zhao Ying et al. // Chemistry and Adhesion 2011. № 4. P. 4244, 73 (кит.)

30. CN 101058699A (publ. 2007) Fire resistant anaerobic adhesive with low dismounting force moment and preparation method thereof.

31. CN 1803959A (publ. 2006) Low temperature detachable anaerobic adhesive and method for preparing the same.

32. US 20050101689A1 (publ. 2005) Multi-functional alpha-alkoxyalkyl acrylate and methacrylate ester compositions and reworkable polymers formed therefrom / John Woods, Susanne Morrill.

33. JP 5201312B2 (publ. 2013) Anaerobic curable compositions.

34. US 20180072918A1(publ. 2018) Anaerobic curable compositions / David Birkett, David Mullen, Ronan Crowley.

35. US 6664357B1 (publ. 2003) Method for the preparation of a stable anaerobic/UV/visible light curable adhesive / Robert Edelman.

36. US 7146897B1 (publ. 2006) UV/visible light and anaerobic / Shabbir Attarwala, Ronald E. Belek.

37. US 6883413B2 (publ. 2003) Visible and UV/visible light anaerobic curable primer mix coating / Shabbir Attarwala, Ronald E. Belek.

38. WO 2006051872 (publ. 2006) Anaerobic adhesive compositions or photocurable anaerobic adhesive compositions, containing piperidine compounds / Noriaki Okamoto, Akira Matsumura, Tsuyoshi Mukai.

39. D.A. Aronovich, O.A. Sineokova, N.V. Zaitova, et al. UV-curable anaerobic adhesive compositions. // Polym. Sci. Ser. D. 2015. V.8, № 1. P. 27–32. doi: 10.1134/S1995421215010025

40. JPH 10152672A (publ. 1996) Method for forming gasket / Nobuhiro Katsuno

41. WO 2007120630A2 (publ. 2017) Activated anaerobic adhesive and use thereof / Bernard M. Malofsky, Adam G. Malofsky, Lisa M. Fine.

42. JP 3885945B2 (publ. 2007) Method of curing the anaerobic curable composition and anaerobic curable composition.

43. JP 4998673B2(publ. 2012) Anaerobic curable compositions. 44. JPH 0853506A (publ. 1996) Curing method for air contacting surface of anerobic curing composition / Hidemi Doi, Fumitoshi Imaoka, Hideaki Matsuda et al.

44. US 5397812A (publ. 1995) Adhesive composition consisting of microcapsules containing compounds dispersed in a binder / Ikuzo Usami, Makoto Kurihara, Minami Hanada, Kunihiko Nakajima.

45. US 5635546A (publ. 1997) Preapplied silicone threadlocker and sealant / Richard D. Rich, Eerik Maandi, Paula M. Gontarz, HsienKun Chu.

46. US 8691900B2 (publ. 2014) Aqueous-based composition suitable for use in threadlocking applications / Peter Wrobel.

47. CN 102559069B (publ. 2014) High-thixotropy freeze-thaw resistant pre-coating anaerobic adhesive and preparation method of anaerobic adhesive.

48. US 9181457B2 (publ. 2015) Dry-to-the-touch anaerobically curable compositions and products made therefrom / Shabbir Attarwala, Ifeanyi C. Broderick, Qinyan Zhu, Roger J. Grismala.

49. US 8845850B2 (publ. 2014) Anaerobic adhesive and sealant compositions in film form, film spool assemblies containing such compositions in film form and preapplied versions thereof on matable parts / Jeremy Kostick, Loren Nauss, Alessandro Machado Jesus et al.

50. Ли Р.И., Шипулин М.А. Оценочные параметры качества при неразрушающем контроле клеевых металлических соединений в узлах машин // Клеи, герметики, технологии, 2011. № 7. С. 26-30.

51. JP 5428860B2 (publ. 2014) Anaerobic curable compositions.

52. M. Pantoja, J. Abenojar, M. A. Martínez, F. Velasco Silane pretreatment of electrogalvanized steels: Effect on adhesive properties // Int. J. Adhes. and Adhes. 2016. V. 65. Р. 54–62. doi:10.1016/j.ijadhadh.2015.11.006.

53. WO 2017154616A1 (publ. 2017) Anaerobic curable resin composition and sealant for welch plug in which same is used. 55. WO 2012073684A1(publ. 2012) Curable composition.

54. US 6232431B1 (publ. 2001) Anaerobically hardenable sealing compound composition / Satoshi Hosoki.

55. JP 5309762B2 (publ. 2013) Anaerobic curable resin composition.

56. CN 105440960A (publ. 2016) Acrylate screw glue and preparation method thereof.

57. US 6903147B2 (publ. 2005) Optimized anaerobic adhesive compositions and methods of preparing same / Eerik Maandi.

58. Полоз А.Ю., Ващенко Ю.Н. Применение метода математического планирования эксперимента для разработки оптимальных составов анаэробных клеевых композиций // Вопросы химии и хим. технол. 2005. № 4. С. 120-125.

59. D.A. Aronovich, A.F. Murokh, T.M. Kartashova The influence of components of initiating and inhibiting systems on the properties of anaerobic compositions // Polym. Sci. Ser. D. 2008. V. 1. № 1. Р. 57- 60. doi: 10.1134/S1995421208010176.

60. A.F. Muroch, D.A. Aronovich, M.P. Badryzlova et al. Development of anaerobic gasket seals for automotive industry // Polym. Sci. Ser. D. 2010. V.3, № 2. P. 108-113.

61. Peng Xiaoqin, Chen Liang, Chen Bingyao et al. Preparation of high temperature resistant anaerobic adhesive and its storage life // Chemical Industry and Engineering Progress, 2012. № 9. P. 2058-2063. (кит.)

62. Ou Jing, Xue Ji-dong, Zhong Han-rong Preparation of fast-curable and highly-stable anaerobic adhesive // Adhesion in China. 2012. № 3. P. 57-59.

63. Грязнов Б.А., Бухтияров В.К., Какуевицкий В.А. и др. Применение и прочность полимерных материалов при изготовлении и ремонте машин и оборудования // Изд-во: Ин-т проблем прочности им. Г.С. Пискаренко НАН Украины. Киев. 2013. 296 с. ISBN 978-966-02-6988-0.

64. T. Sawa, R. Sasaki, M. Yoneno An Analysis of Pipe Flange Connections Using Epoxy Adhesives/Anaerobic Sealant Instead of Gaskets // J. Pressure Vessel Technol 1995. V.117, №4, Р. 298-304. doi:10.1115/1.2842127.

65. A.A. Bezemer, C.B. Guyt, A. Vlot New impact specimen for adhesives: optimization of high-speed-loaded adhesive joints // Int. J. Adhes. and Adhes. 1998. V. 18. Р. 255–260. PII:S 0143-7496(97)00032-8.

66. Eugenio Dragoni Eff ect of anaerobic threadlockers on the fatigue strength of threaded connections // Int. J. Mater. and Product Technol. 1999. V. 14 № 5-6 Р. 445-455 doi: 10.1504/IJMPT.1999.036283.

67. Georges Romanos Strength evaluation of axisymmetric bonded joints using anaerobic adhesives // Int. J. Mater. and Product Technol. 1999. Vol.14 No.5/6, P. 430-444 doi:10.1504/IJMPT.1999.036282.

68. E. Dragoni, P. Mauri Intrinsic static strength of friction interfaces augmented with anaerobic adhesives // Int. J. Adhes. and Adhes. 2000. V.20, № 4. Р. 315-321.

69. Аюкин З.А. Применение анаэробных герметиков и клеев при сборке и ремонте двигателей внутреннего сгорания // Сборка в машиностроении, приборостроении. Assembling in mechanical engineering, instrument-making 2002. № 12. С. 14-18.

70. E. Dragoni, P. Mauri Cumulative static strength of tightened joints bonded with anaerobic adhesives // Proc IMechE Part L. J. Mater.: Des. and Appl. 2002. V. 216. № 1. Р. 9-15 doi:10.1177/146442070221600102.

71. Воячек И.И. Применение анаэробных материалов при сборке неподвижных соединений типа вал-втулка // Сборка в машиностроении, приборостроении Assembling in mechanical engineering, instrument-making 2003. № 9. P. 33-37.

72. T. Sekercioglu, H. Rende, A. Gulsoz, C. Meran The eff ects of surface roughness on the strength of adhesively bonded cylindrical components. // J. Mater. Process. Technol., 2003, V.142, P. 82–86. doi:10.1016/s0924-0136(03)00463-1.

73. Игнатов А.В. Герметизация резьбовых соединений // Клеи, герметики, технологии 2004. № 6. С. 14-16.

74. J. Lidón, B. Pérez, M. A. Martínez, M. Madrid Calculation of the strength of cylindrical assemblies with an anaerobic adhesive // J. Adhes. Sci. and Technol. 2005 V. 19, № 1. P. 41-56. doi:10.1163/1568561053066909.

75. P. Mauri, Eugenio Dragoni Fatigue behavior of bolts and nuts treated with anaerobic thread locking adhesive // Ingegneria Ferroviaria 2006.V. 61, №1. Р. 41-49.

76. Tezcan Sekercioglum, Alper Gulsoz, Hikmet Rende The effects of bonding clearance and interference fit on the strength of adhesively bonded cylindrical components // Mater. and Des. 2005. V.26, № 4, P. 377-381. doi:10.1016/j.matdes.2004.05.016.

77. Garcia Germán, Casanova Herley, Araque Pedronel, Toro Alejandro Assesment of thermodynamic adhesion work on AISI 4140 steel plates and rolling bearing liners with anaerobic adhesives // Revista Facultad de Ingeniería univ. Antioquia 2006 N 37 2006, P.164-175. http://www.scielo.org.co/scielo.php?script=sci_arttext&pid=S0120-62302006000300015.

78. M. A. Martínez, M. Pantoja, J. Abenojar et al. Analysis of shear strength of cylindrical assemblies with anaerobic adhesives using Weibull statistics // J. Adhes. Sci. and Technol. 2007. V.21, № 16. Р. 16591669. doi:10.1163/156856107782793249.

79. M. Pantoja, J. Abenojar, F. Velasco Analysis of substrate preparation and curing position on mechanical properties of adhesive joints using statistical methods // J. Adhes. Sci. and Technol. 2007. V. 21, № 11 Р. 1045-1058. doi:10.1163/156856107782105927.

80. T. Sekercioglu, V. Kovan, Torque strength of bolted connections with locked anaerobic adhesive // Proc IMechE Part L. J. Mater.: Des. and Appl. 2008. V. 222, Р. 83-90. doi:10.1243/14644207JMDA157.

81. M.A. Martínez, F. Velasco, J. Abenojar et al. Analytical solution to calculate the stress distribution in pin-and-collar samples bonded with anaerobic adhesives (following ISO 10123 standard) // Int. J. Adhes. and Adhes. 2008. V.28. №8. Р. 405-410. doi:10.1016/j.ijadhadh.2008.04.007.

82. Гончаров А.Б., Тулинов А.Б. Исследование свойств анаэробных материалов в жидкостных и агрессивных средах. // Сборка в машиностроении, приборостроении Assembling in mechanical engineering, instrument-making 2009. № 1. P. 8-10.

83. Zlatko Tonkovic, Pero Raos, Josip Stojsic Application of anaerobic thread sealants in natural gas pipelines // Technical Gazette. 2009. V. 16. № 1. Р. 11-14. ISSN 1330-3651.

84. V.A. Kakuevitskii, A.M. Redzyuk, I.V. Ragutskii, D.A. Aronovich The use of anaerobic sealing materials to repair machines and equipment // Polymer Science Series D 2010. V. 3, № 2. Р. 141-146. doi: 10.1134/S1995421210020140.

85. M. Angel, M. Casanova Influence of thread geometry on the performance of retaining anaerobic adhesives // Int. J. Adhes. and Adhes. 2011. V. 31, № 6. Р. 429–433 doi: 10.1016/j.ijadhadh.2011.03.004.

86. M.A Martínez, M. Pantoja, J. Abenojar et al. Influence of thread geometry on the performance of retaining anaerobic adhesives // Int. J. Adhes. and Adhes. 2011. V.31, № 6, P. 429433. doi:10.1016/j.ijadhadh.2011.03.004.

87. Игнатов А.В. Новые тенденции развития сборки клеевых соединений в машиностроении // Изв. Вузов. Машиностр. 2011. № 10. С. 62-68.

88. Dario Croccolo, Massimiliano De Agostinis, Nicolo Vincenzi How to improve static and fatigue strength in press-fitted joints using anaerobic adhesive // Proceedings of the Institution of Mechanical Engineers, Part C: J. Mechanic. Eng. Sci. 2011 doi:10.1177/0954406211411402.

89. Dario Croccolo, Massimiliano De Agostinis, Nicolo Vincenzi Experimental analysis of static and fatigue strength properties in press-fitted and adhesively bonded steel – Aluminium components // J. Adhes. Sci. and Technol. 2011.V.25. №18 Р. 2521-2538 doi: 10.1163/016942411X580207

90. R. Hunter, D. P. Hess Direct verification of threaded fastener locking compounds and adhesives // Journal of Failure Analysis and Prevention 2012. V. 12. № 6. doi:10.1007/s11668-012-9626-5.

91. Dario Croccolo, Massimiliano De Agostinis, Nicolò Vincenzi Design of hybrid steel-composite interference fitted and adhesively bonded connections // Int. J. Adhes. and Adhes. 2012. V.37 P. 19-25. doi:10.1016/ j.ijadhadh.2012.01.011.

92. D. Castagnetti, E. Dragoni Predicting the macroscopic shear strength of adhesively-bonded friction interfaces by microscale finite element simulations // Computational Mater. Sci. 2012. V. 64, Р 146-152. doi:10.1016/j.commatsci.2012.05.026.

93. Giorgio Gallio, Mariangela Lombardi, Davide Rovarino et al. Influence of the mechanical behaviour of diff erent adhesives on an interference-fit cylindrical joint // Int. J. Adhes. and Adhes. 2013. V. 47, P. 63-68. doi:10.1016/j.ijadhadh.2013.09.021.

94. D. Castagnetti, E. Dragoni Experimental assessment of a micro-mechanical model for the static strength of hybrid friction-bonded interfaces // J. Adhes. 2013. V.89, №. 8 P. 642-659. doi:10.1080/00218464.2012.747179.

95. G. Gallio, G. Marcuccio, E. Bonisoli et al. Study of the interference contribution on the performance of an adhesive bonded press-fitted cylindrical joint // Int. J. Adhes. and Adhes. 2014. V. 53, P. 89-96. doi:10.1016/j.ijadhadh.2014.01.008.

96. G.V. Malysheva and O. A. Ryakhovskii Calculation of Force and Tightening Torque of Threaded Joints Assembled Using Anaerobic Material // Polymer Science, Series D. Glues and Sealing Materials, 2014. V. 7, N. 4. P. 306–309. doi:10.1134/S1995421214040078.

97. D. Castagnetti, E. Dragoni Adhesively-bonded friction interfaces: Macroscopic shear strength prediction by microscale finite element simulations // Int. J. Adhes. and Adhes. 2014. V.53 P. 5764. doi:10.1016/j.ijadhadh.2014.01.016.

98. A. Hernandez, D. P. Hess Use of anaerobic adhesive for prevailing torque locking feature in threaded fasteners // J. Failure Analysis and Prevention 2015. V. 15, № 5. P. 633–664. doi:10.1007/s11668-015-0008-7.

99. Dario Croccolo, Massimiliano De Agostinis, Pierfranco Mauri, Giorgio Olmi Influence of the engagement ratio on the joint strength of press fitted and adhesively bonded specimens // Int. J. Adhes. and Adhes. 2014. V.53 P. 80-88. doi:10.1016/j.ijadhadh.2014.01.017.

100. Мурох А.Ф., Смирнов В.С., Луконин В.П. и др. Технология сборки трубчатых теплообменников с использованием герметиков // Клеи. Герметики. Технологии. 2015. №10. С. 38–40.

101. D. Castagnetti, E. Dragoni Experimental Investigation and Model Validation of the Shear Strength of Hybrid Interfaces up to Complete Failure // J. Adhes. 2016. V.92, № 7-9. P. 679-697. doi:10.1080/00218464.2015.1115740.

102. Dario Croccolo, Massimiliano De Agostinis, Stefano Fini, Giorgio Olmi An experimental study on the response of a threadlocker, involving diff erent materials, screw dimensions and thread proportioning // Int. J. Adhes. and Adhes. 2018. V. 83, P. 116-122. doi:10.1016/j.ijadhadh.2018.02.024.

103. Игнатов А.В., Островский Ю.А., Мозгин С.А. Автоматизация выбора анаэробной композиции при сборке изделий в дизельном двигателестроении // Сборка в машиностроении, приборостроении. Assembling in mechanical engineering, instrument-making 2018. № 10. С. 442-450.

104. M. Ragni, D. Castagnetti, E. Dragoni Experimental validation of a simple shear strength model for hybrid friction-bonded interfaces // Int. J. Adhes. and Adhes. 2018. V. 83, P. 130-136. doi:10.1016/j.ijadhadh.2018.02.026.

105. Alan Hernandez, Daniel P. Hess Prevailing Torque Locking Feature in Threaded Fasteners using Anaerobic Adhesive // Proceedings of the 43rd Aerospace Mechanisms Symposium, NASA Ames Research Center, May 4-6, 2016.

106. Hanzhuang Liang, Floriana Suriawidjaja, Michael Szuch Anaerobic adhesive jetting for micro-electronics packaging applications. // Additional Conferences (Device Packaging, HiTEC, HiTEN, & CICMT): 2015, V. 2015, №DPC, Р. 000726-000742. doi:10.4071/2015DPC-tp32 .

107. Pat. EP1749631A1(publ. 2018) Method for making three-dimensional preforms using anaerobic binders / Daniel T. Buckley.

108. Anthony J. Ireland, Martyn Sherriff An investigation into the use of an anaerobic adhesive with two commercially available orthodontic brackets // Dental Materials 2006. V. 22, № 2, P. 112-118. doi:10.1016/j.dental.2005.04.007.

109. Ilker S. Bayer, Andrea Brown, Adam Steele, Eric Loth Transforming Anaerobic Adhesives into Highly Durable and Abrasion Resistant Superhydrophobic Organoclay Nanocomposite Films: A New Hybrid Spray Adhesive for Tough Superhydrophobicity // Applied Physics Express. 2009. V. 2, № 12. 125003. doi:10.1143/APEX.2.125003.

110. Pietro Cataldi, Ilker S. Bayer, Roberto Cingolani et al. A Thermochromic Superhydrophobic Surface // Sci. Rep. 2016. V6, Article number: 27984. doi:10.1038/srep27984.


Для цитирования:


Аронович Д.А. Модификация свойств анаэробных адгезивов. Обзор современных достижений. Пластические массы. 2019;(7-8):9-15. https://doi.org/10.35164/0554-2901-2019-7-8-9-15

For citation:


Aronovich D.A. Modification of the properties of anaerobic adhesives. Review of modern achievements. Plasticheskie massy. 2019;(7-8):9-15. (In Russ.) https://doi.org/10.35164/0554-2901-2019-7-8-9-15

Просмотров: 65


Creative Commons License
Контент доступен под лицензией Creative Commons Attribution 4.0 License.


ISSN 0554-2901 (Print)