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Polymer Science, Series D

Erschienen in:

01.07.2020

Progress in Cyanoacrylate Adhesives. Studies of Adhesive Modification

verfasst von: D. A. Aronovich

Erschienen in: Polymer Science, Series D | Ausgabe 3/2020

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Abstract

A survey of recent achievements in the field of modification of cyanoacrylate adhesives that are widely used in numerous fields of technology and medicine is presented. A description of the modifiers and modification techniques used for the improvement of the specific consumer properties of cyanoacrylate adhesives depending on their application is given.

Vorheriger Artikel Adhesive Materials Based on Modified Low Molecular Copolymer of Ethylene with Vinyl Acetate

Nächster Artikel Hydrolytic Degradation of Polylactide in Distilled Water and Seawater

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K. L. Shantha, S. Thennarasu, and N. Krishnamurti, “Developments and applications of cyanoacrylate adhesives,” J. Adhes. Sci. Technol. 3 (4), 237–260 (1989).CrossRef

J. K. Fink, Reactive Polymer Fundamentals and Application, 2nd ed. (William Andrew, 2013), Chap. 13, pp. 317–330.

P. R. Raja, “Cyanoacrylate adhesives: A critical review,” Rev. Adhes. Adhes. 4 (4), 398–416 (2016).CrossRef

P. McDonnell et al., US Patent No. 20060094833A1 (2006).

Soichiro Hiraoka, US Patent No. 5466764A (1995).

L. P. O’Dwyer and F. W. Tierney, US Patent No. 6294629B1 (2001).

S. Tajima and M. Sato, US Patent No. 6547985B1 (2003).

H.R. Misiak, US Patent No. 7390851B1 (2008).

N. Ohsawa et al., US Patent No. 5994464A (1999).

10.

Sh. Attarwala, L. Li, and J. J. Cocco, US Patent No. 20090298969A1 (2009).

11.

Sh. Attarwala et al., US Patent No. 20080314519A1 (2008).

12.

CN Patent No. 103555212 (2014).

13.

T. Stefanov, B. Ryan, A. Ivanković, and N. Murphy, “Mechanical bulk properties and fracture toughness of composite-to-composite joints of an elastomer-toughened ethyl cyanoacrylate adhesive,” Int. J. Adhes. Adhes. 68, 142–155 (2016).CrossRef

14.

Y. Nishino and Ch. Hata, US Patent No. 5739205A (1994).

15.

J. Woods and S. Morrill, US Patent No. 20030208002A1 (2003).

16.

S. Wojciak, US Patent No. 6833196B1 (2004).

17.

G.T. Schueneman et al., WO Patent No. 2008112087A1 (2008).

18.

H. R. Misiak, US Patent No. 7687561B1 (2010).

19.

R. B. Barnes et al., US Patent No. 8303705B2 (2012).

20.

T. I. Guseva and N. G. Senchenya, RU Patent No. 2196138 (2003).

21.

S. Harris, “The preparation of thiocyanoacrylates,” J. Appl. Polym. Sci. (1981). https://doi.org/10.1002/pol.1981.170191025

22.

P. F. McDonnell and R. J. Lambert, US Patent No. 5530037A (1996).

23.

B. Malofsky et al., US Patent No. 6512023B1 (2003).

24.

B. Burns, “Cyanoacrylates: Towards high temperature resistant instant adhesives. A critical review,” Rev. Adhes. Adhes. 5 (4), 361–391 (2017).CrossRef

25.

P. Klemarczyk, “Adhesion studies of mixtures of ethyl cyanoacrylate with a difunctional cyanoacrylate monomer and other electron-deficient olefins,” J. Adhes. 69, 293–306 (1999).CrossRef

26.

Yu. G. Gololobov, “2-cyanoacrylates: Properties and applications,” Klei, Germetiki, Tekhnol., No. 5, 4–8 (2004).

27.

D. A. Aronovich and A. M. Vetrova, “Modification of cyanoacylate adhesives with β-vynil-α-cyanoacrylate,” Polym. Sci., Ser. D 1 (1), 36–40 (2008).

28.

A. M. Vetrova, D. A. Aronovich, G. N. Chervyakova, and A. P. Sineokov, “Improvement of the thermal stability of cyanoacylate adhesives,” Polym. Sci., Ser. D 2 (1), 27–30 (2007).

29.

K. Ishizaki and M. Kano, US Patent No. 8541495B2 (2013).

30.

Moon Gyu Han, Sanghoon Kim, and S. X. Liu, “Synthesis and degradation behavior of poly(ethyl-cyanoacrylate),” Polym. Degrad. Stab. 93 (7), 1243–1251 (2008).CrossRef

31.

P. Klemarczyk, “A general synthesis of 1,1-disubstituted electron deficient olefins and their polymer properties,” Polymer 19 (1), 173–181 (1998).CrossRef

32.

V. Vijayalakshmi, J. N. Rupavani, and N. Krishnamurti, “Synthesis of 3-substituted-2-cyanoacrylates: Their evaluation as cross-linkers in cyanoacrylate adhesive compositions,” J. Appl. Polym. Sci. 49, 1387–1394 (1993).CrossRef

33.

D. L. Kotzev, US Patent No. 7125942B2 (2006).

34.

Z. Z. Denchev and V. S. Kabaivanov, “On the synthesis and properties of some saturated and unsaturated esters of 2-cyano-2,4-pentadienoic acid,” J. Appl. Polym. Sci. 42, 2933–2941 (1991).CrossRef

35.

Z. Z. Denchev and V. S. Kabaivanov, “Thermal behaviour and adhesive properties of some cyanoacrylate adhesives with increased heat resistance,” J. Appl. Polym. Sci. 47, 1019–1026 (1993).CrossRef

36.

K. Ishizaki and Y. Ando, US Patent No. 9458361B2 (2016).

37.

“Instant adhesives (cyanoacrylate adhesives. V. 2),” Three Bond Tech. News, No. 34 (1991). https://www.threebond.co.

38.

D. L. Kotzev, T. C. Ward, and D. W. Dwight, “Assessment of the adhesive bond properties of allyl-2-cyanoacrylate,” J. Appl. Polym. Sci. 26, 1941–1949 (1981).CrossRef

39.

N. G. Senchenya, T. I. Guseva, and Yu. G. Gololobov, “Cyanoacrylate-based adhesives,” Polym. Sci., Ser. C 49 (3), 235–239 (2007).CrossRef

40.

M. Phelan et al., US Patent No. 9657120B1 (2017).

41.

D. A. Aronovich, A. M. Vetrova, and A. P. Sineokov, “Study of thermal properties of cyanoacrylate adhesives modified with unsaturated compounds,” Polym. Sci., Ser. D 1 (4), 237–240 (2008).

42.

Sh. Attarwala, US Patent No. 5288794A (1994).

43.

Sh. Attarwala and Ph. T. Klemarczyk, US Patent No. 5328944A (1994).

44.

Sh. Attarwala, US Patent No. 5424343A (1995).

45.

D. R. Robello, T. D. Eldrdge, and M. T. Swanson, “Degradation and stabilization of polycyanoacrylates,” J. Polym. Sci. Part A, Polym. Chem. 37, 4570–4581 (1999).CrossRef

46.

Sh. Attarwala, US Patent No. 6093780A (2000).

47.

V. Vijayalakshmi, J. N. Rupavani, and N. Krishnamurti, “Effect of anhydride addition to alkyl cyanoacrylate on its adhesive bond durability,” J. Adhes. Sci. Technol. 6 (7), 781–789 (1992).CrossRef

48.

Ch. S. Mariotti and Ju-Chao Liu, US Patent No. 4490515A (1984).

49.

Ling Li, US Patent No. 9550883B2 (2017).

50.

P. A. Hedderman et al., US Patent No. 20140124137A1 (2014).

51.

Ciara Goff et al., US Patent No. 9783714B2 (2017).

52.

S. Elgrabli, K. Kojima, and S. Motoki, EP Patent No. 2154214A2 (2010).

53.

P. Samatha, T. T. Reddy, P. V. S. S. Srinivas, and N. Krishnamurti, “Effect of addition of various acrylates on the performance of ethyl cyanoacrylate adhesive,” Polym. Plast. Technol. Eng. 39 (2), 381–392 (2000).CrossRef

54.

D. A. Aronovich, A. M. Vetrova, and A. P. Sineokov, “Study of thermal properties of cyanoacrylate adhesives modified with unsaturated compounds,” Polym. Sci., Ser. D 1, 238–240 (2008).

55.

G. Estan-Cerezo, D. A. Alonso, and J. M. Martín-Martínez, “Reactivity of novel ethyl cyanoacrylate and 6-hydroxyhexylacrylate adhesive mixtures and their influence on adhesion and thermal stability,” Eur. Polym. J. 88, 75–92 (2017).CrossRef

56.

A. Yaghmaei, M. K. Torbati, and S. M. Zebarjad, “Role of nano-Size SiO₂ additive on the thermal behavior of cyanoacrylate nanocomposite,” J. Vinyl Addit. Technol. 16 (3), 204–208 (2010).

57.

A. Yaghmaei, S. M. Zebarjad, and M. Kashefi, “On the wear behavior of cyanoacrylate in presence of nano-sized SiO₂,” Engineering 4, 245–251 (2012).CrossRef

58.

Teoh Hui-Chiang, M. Mariatti, and Y. Khatijah, “Enhancement of thermal conductivity of cyanoacrylate with different types of nanofillers and loading,” Procedia Chem. 19, 835–841 (2016).CrossRef

59.

O. N. Klenovich and A. M. Vetrova, “Filled cyanoacrylate adhesive compositions,” Polym. Sci., Ser. C 49 (1), 50–51 (2007).CrossRef

60.

S. Oztemiz, PhD Thesis (University of Cincinnati, 2008).

61.

W. Yee, Master’s Thesis (San Josá State University, 2013). http://scholarworks.sjsu.edu/cgi/viewcontent.cgi? article=7953&context=etd_theses.

62.

R. Kelly et al., US Patent No. 20130174981A1 (2013).

63.

L. Li et al., US Patent No. 9528034B2 (2016).

64.

Th. Bachon et al., US Patent No. 20060241226A1 (2006).

65.

G. T. Schueneman, Sh. Attarwala, and K. R. Brantl, US Patent No. 8287687B1 (2012).

66.

Ciaran McArdle et al., US Patent No. 20160251548A1 (2016).

67.

E. Ward, D. Coleman, and R. Tully, US Patent No. 20170335151A1 (2017).

68.

R. B. Barnes, EP Patent No. 2807224A1 (2014).

69.

C. B. McArdle and L. Zhao, US Patent No. 7973119B1 (2011).

70.

C. B. McArdle and L. Zhao, US Patent No. 8686105B2 (2014).

71.

R. M. Hersee et al., US Patent No. 8742048B2 (2014).

72.

S. Wojciak and Sh. Attarwala, US Patent No. 6726795B1 (2004).

73.

Y. Nishiyama and H. Mikuni, US Patent No. 6503959B1 (2003).

74.

J. A. López Maeso, C. Mcardle, C. M. Fraga, V. de la Fuente Molina, A. P. Jiménez, and V. Tchaplinski, EP Patent No. 3124509A1 (2017).

75.

W. E. Cloete and W. W. Focke, “Fast underwater bonding to polycarbonate using photoinitiated cyanoacrylate,” Int. J. Adhes. Adhes. 30 (4), 208–213 (2010).CrossRef

76.

C. Dry, US Patent No. 9657205B2 (2017).

77.

Lim Jin Ik, Hyeon Seong Jin, and Lee Woo-Kul, “Enhanced chemophysical properties by bis-GMA-modified allyl 2-cyanoacrylate-based bioadhesives for hard tissue,” J. Adhes. Sci. Technol., No. 2, 149–158 (2017).

Titel: Progress in Cyanoacrylate Adhesives. Studies of Adhesive Modification
verfasst von: D. A. Aronovich
Publikationsdatum: 01.07.2020
Verlag: Pleiades Publishing
Erschienen in: Polymer Science, Series D / Ausgabe 3/2020
Print ISSN: 1995-4212
Elektronische ISSN: 1995-4220
DOI: https://doi.org/10.1134/S199542122003003X

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