LibCat » Книги » Приключения » unrecognised » Self-Healing Smart Materials

Self-Healing Smart Materials

Здесь есть возможность читать онлайн «Self-Healing Smart Materials» — ознакомительный отрывок электронной книги совершенно бесплатно, а после прочтения отрывка купить полную версию. В некоторых случаях можно слушать аудио, скачать через торрент в формате fb2 и присутствует краткое содержание. Жанр: unrecognised, на английском языке. Описание произведения, (предисловие) а так же отзывы посетителей доступны на портале библиотеки ЛибКат.

Читать книгу

Название:
Self-Healing Smart Materials
Автор:
Неизвестный Автор
Жанр:
unrecognised / на английском языке
Год:
неизвестен
ISBN:
нет данных
Рейтинг книги:
4 / 5. Голосов: 1
Избранное:

Добавить в избранное
Отзывы:
Написать комментарий
Ваша оценка:
- 80
- 1
- 2
- 3
- 4
- 5

Self-Healing Smart Materials: краткое содержание, описание и аннотация

Предлагаем к чтению аннотацию, описание, краткое содержание или предисловие (зависит от того, что написал сам автор книги «Self-Healing Smart Materials»). Если вы не нашли необходимую информацию о книге — напишите в комментариях, мы постараемся отыскать её.

This comprehensive book describes the design, synthesis, mechanisms, characterization, fundamental properties, functions and development of self-healing smart materials and their composites with their allied applications. It covers cementitious concrete composites, bleeding composites, elastomers, tires, membranes, and composites in energy storage, coatings, shape-memory, aerospace and robotic applications. The 21 chapters are written by researchers from a variety of disciplines and backgrounds.

Self-Healing Smart Materials — читать онлайн ознакомительный отрывок

Ниже представлен текст книги, разбитый по страницам. Система сохранения места последней прочитанной страницы, позволяет с удобством читать онлайн бесплатно книгу «Self-Healing Smart Materials», без необходимости каждый раз заново искать на чём Вы остановились. Поставьте закладку, и сможете в любой момент перейти на страницу, на которой закончили чтение.

Тёмная тема

Шрифт:

↓

↑

Сбросить

Интервал:

↓

↑

Закладка:

Сделать

29. Baqar, M., Agag, T., Ishida, H., Qutubuddin, S., Methylol-functional benzoxazines as precursors for high-performance thermoset polymers: Unique simultaneous addition and condensation polymerization behavior. J. Polym. Sci. Part A: Polym. Chem. , 50, 2275, 2012.

30. Lyu, Y. and Ishida, H., Natural-sourced benzoxazine resins, homopolymers, blends and composites: A review of their synthesis, manufacturing and applications. Prog. Polym. Sci. , 99, 101168, 2019.

31. Zhang, K., Han, M., Han, L., Ishida, H., Resveratrol-based tri-functional benzoxazines: Synthesis, characterization, polymerization, and thermal and flame retardant properties. Eur. Polym. J. , 116, 526, 2019.

32. Kiskan, B., Adapting benzoxazine chemistry for unconventional applications. React. Funct. Polym. , 129, 76, 2018.

33. Brown, E.N., White, S.R., Sottos, N.R., Microcapsule induced toughening in a self-healing polymer composite. J. Mater. Sci. , 39, 1703, 2004.

34. Wool, R.P. and Oconnor, K.M., A theory of crack healing in polymers. J. Appl. Phys. , 52, 5953, 1981.

35. White, S.R., Sottos, N.R., Geubelle, P.H., Moore, J.S., Kessler, M.R., Sriram, S.R., Brown, E.N., Viswanathan, S., Autonomic healing of polymer composites. Nature , 409, 794, 2001.

36. Kessler, M.R., Sottos, N.R., White, S.R., Self-healing structural composite materials. Compos. Part A: Appl. S. , 34, 743, 2003.

37. Kumar, A., Stephenson, L.D., Murray, J.N., Self-healing coatings for steel. Prog. Org. Coat. , 55, 244, 2006.

38. Stuart, M.A.C., Huck, W.T.S., Genzer, J., Müller, M., Ober, C., Stamm, M., Sukhorukov, G.B., Szleifer, I., Tsukruk, V.V., Urban, M. et al. , Emerging applications of stimuli-responsive polymer materials. Nat. Mater. , 9, 101, 2010.

39. Lu, W., Le, X.X., Zhang, J.W., Huang, Y.J., Chen, T., Supramolecular shape memory hydrogels: A new bridge between stimuli-responsive polymers and supramolecular chemistry. Chem. Soc. Rev. , 46, 1284, 2017.

40. Basak, S., Nanda, J., Banerjee, A., Multi-stimuli responsive self-healing metallo-hydrogels: Tuning of the gel recovery property. Chem. Commun. , 50, 2356, 2014.

41. Liu, Y.-L. and Chuo, T.-W., Self-healing polymers based on thermally reversible diels-alder chemistry. Polym. Chem. , 4, 2194, 2013.

42. Zhang, M.Q. and Rong, M.Z., Intrinsic self-healing of covalent polymers through bond reconnection towards strength restoration. Polym. Chem. , 4, 4878, 2013.

43. Xu, W.M., Rong, M.Z., Zhang, M.Q., Sunlight driven self-healing, reshaping and recycling of a robust, transparent and yellowing-resistant polymer. J. Mater. Chem. A , 4, 10683, 2016.

44. Brown, E.N., Sottos, N.R., White, S.R., Fracture testing of a self-healing polymer composite. Exp. Mech. , 42, 372, 2002.

45. Cordier, P., Tournilhac, F., Soulié-Ziakovic, C., Leibler, L., Self-healing and thermoreversible rubber from supramolecular assembly. Nature , 451, 977, 2008.

46. Yuan, Y.C., Rong, M.Z., Zhang, M.Q., Chen, J., Yang, G.C., Li, X.M., Self-healing polymeric materials using epoxy/mercaptan as the healant. Macromolecules , 41, 5197, 2008.

47. Phadke, A., Zhang, C., Arman, B., Hsu, C.-C., Mashelkar, R.A., Lele, A.K., Tauber, M.J., Arya, G., Varghese, S., Rapid self-healing hydrogels. Proc. Natl. Acad. Sci. U.S.A. , 109, 4383, 2012.

48. Abdallh, M., Hearn, M.T.W., Simon, G.P., Saito, K., Light triggered self-healing of polyacrylate polymers crosslinked with 7-methacryloyoxycouma-rin crosslinker. Polym. Chem. , 8, 5875, 2017.

49. Kim, H.D. and Ishida, H., A study on hydrogen bonding in con-trolled-structure benzoxazine model oligomers. Macromol. Symp. , 195, 123, 2003.

50. Yang, P., Wang, X., Fan, H., Gu, Y., Effect of hydrogen bonds on the modulus of bulk polybenzoxazines in the glassy state. Phys. Chem. Chem. Phys. , 15, 15333, 2013.

51. Shen, X., Cao, L., Liu, Y., Dai, J., Liu, X., Zhu, J., Du, S., How does the hydrogen bonding interaction influence the properties of polybenzoxazine? An experimental study combined with computer simulation. Macromolecules , 51, 4782, 2018.

52. Kiskan, B. and Yagci, Y., Self-healing of poly (propylene oxide)-polybenzox-azine thermosets by photoinduced coumarine dimerization. J. Polym. Sci. Part A: Polym. Chem. , 52, 2911, 2014.

53. Arslan, M., Kiskan, B., Yagci, Y., Benzoxazine-based thermosets with autonomous self-healing ability. Macromolecules , 48, 1329, 2015.

54. Arslan, M., Kiskan, B., Yagci, Y., Combining elemental sulfur with polybenzoxazines via inverse vulcanization. Macromolecules , 49, 767, 2016.

55. Lin, H.K. and Liu, Y.L., Sulfur radical transfer and coupling reaction to benzoxazine groups: A new reaction route for preparation of polymeric materials using elemental sulfur as a feedstock. Macromol. Rapid Commun. , 39, 1700832, 2018.

56. Arslan, M., Kiskan, B., Yagci, Y., Recycling and self-healing of polybenzoxazines with dynamic sulfide linkages. Sci. Rep. , 7, 5207, 2017.

57. Tasdelen, M.A., Kumbaraci, V., Talinli, N., Yagci, Y., Photochemically masked benzophenone: Photoinitiated free radical polymerization by using benzodioxinone. Polymer , 47, 7611, 2006.

58. Tasdelen, M.A. and Yagci, Y., Benzodioxinone photochemistry in macromolecular science: Progress, challenges, and opportunities. ACS Macro Lett. , 6, 1392, 2017.

59. Arslan, M., Motallebzadeh, A., Kiskan, B., Demirel, A.L., Kumbaraci, I.V., Yagci, Y., Combining benzoxazine and ketene chemistries for self-healing of high performance thermoset surfaces. Polym. Chem. , 9, 2031, 2018.

60. Fu, F., Huang, M., Zhang, W., Zhao, Y., Liu, X., Thermally assisted self-healing behavior of anhydride modified polybenzoxazines based on transesterification. Sci. Rep. , 8, 10325, 2018.

61. Zhang, L., Zhao, Z., Dai, Z., Xu, L., Fu, F., Endo, T., Liu, X., Unexpected healability of an ortho-blocked polybenzoxazine resin. ACS Macro Lett. , 8, 506, 2019.

62. Lendlein, A. and Kelch, S., Shape-memory polymers. Angew. Chem. Int. Edit. , 41, 2034, 2002.

63. Bilici, C., Can, V., Nöchel, U., Behl, M., Lendlein, A., Okay, O., Meltprocessable shape-memory hydrogels with self-healing ability of high mechanical strength. Macromolecules , 49, 7442, 2016.

64. Lendlein, A., Jiang, H.Y., Junger, O., Langer, R., Light-induced shape-memory polymers. Nature , 434, 879, 2005.

65. Okay, O., Semicrystalline physical hydrogels with shape-memory and self-healing properties. J. Mater. Chem. B , 7, 1581, 2019.

66. Kurt, B., Gulyuz, U., Demir, D.D., Okay, O., High-strength semi-crystalline hydrogels with self-healing and shape memory functions. Eur. Polym. J. , 81, 12, 2016.

67. Kimura, H., Matsumoto, A., Hasegawa, K., Ohtsuka, K., Fukuda, A., Epoxy resin cured by bisphenol a based benzoxazine. J. Appl. Polym. Sci. , 68, 1903, 1998.

68. Rao, B.S., Reddy, K.R., Pathak, S.K., Pasala, A., Benzoxazine-epoxy copolymers: Effect of molecular weight and crosslinking on thermal and viscoelastic properties. Polym. Int. , 54, 1371, 2005.

69. Liu, Y., Gao, S., Gong, X., Xue, Q., Lu, Z., Benzoxazine-epoxy thermosets with smectic phase structures for high thermal conductive materials, Liq. Cryst. , 46, 11, 1686−1695, 2019.

70. Rimdusit, S. and Ishida, H., Synergism and multiple mechanical relaxations observed in ternary systems based on benzoxazine, epoxy, and phenolic resins. J. Polym. Sci. Part B: Polym. Phys. , 38, 1687, 2000.

71. Sarawut, R., Montha, L., Kasinee, H., Pornnapa, K., Isala, D., Shape memory polymers from benzoxazine-modified epoxy. Smart Mater. Struct. , 22, 075033, 2013.