REFERENCES - Shodhgangashodhganga.inflibnet.ac.in/bitstream/10603/73008/18/references.pdf · Lalit...
Transcript of REFERENCES - Shodhgangashodhganga.inflibnet.ac.in/bitstream/10603/73008/18/references.pdf · Lalit...
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 147
REFERENCES
1. K.K. Singh, P.K. Sarkar, J. Farhan and P. Deepak, ―Review paper on processing
technique of polymer matrix composites: Current and future trends‖, Journal of
Engineering and Applied Sciences,Vol.6 Issue: 3, (2011) pp. 216-221.
2. Michelle Leali Costaa, Sérgio Frascino Muller de Almeidab and Mirabel
Cerqueira Rezendea, ―Hygrothermal Effects on Dynamic Mechanical Analysis
and Fracture Behavior of Polymeric‖, Journal of Composites Materials
Research‖, Vol. 8, No. 3,(2005) pp.335-340.
3. P.D. Mangalgiri, ―Review paper on Polymer-matrix Composites for High-
temperature Applications‖ Defence Science Journal, Vol. 55, Issue: 2, (2005),
pp. 175-193.
4. Long Yu, Katherine Dean and Lin Li, ―Polymer blends and composites from
renewable resources‖, Progress in Polymer Science, vol.31, (2006) pp.576-602.
5. Guedes RM, ―Durability of polymer matrix composites: Viscoelastic effect on
static and fatigue loading‖, Composites Science and Technology, Vol.67, (2007)
pp.2574– 2583.
6. M. Mucha, ―Polymer as an important component of blends and composites with
liquid crystals‖, Progress in Polymer Science, Vol.28, (2003) pp.837-873.
7. Lalit M Manocha, ―High performance carbon–carbon composites‖, Sadhana
Vol. 28, Issue 1 & 2, (2003), pp. 349–358.
8. E. N. Brown, S. R. White and N. R. Sottos, ―Microcapsule induced toughening
in a self-healing polymer composite‖, Journal of Material Science, 39 (2004),
pp.1703 – 1710.
9. Saira Taj, Munawar Ali Munawar and Shafi ullah Khan ―Natural fibre
reinforced polymer composites‖, Proc. Pakistan Acad. Sci. 44(2007),pp. 129-
144.
10. Sheba D. Bergman and Fred Wudl ―Mendable polymers‖, Journal of Materials
Chemistry, 18(2008), pp. 41–62.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 148
11. D.M. Bigg, D.F. Hiscock, J.R. Preston and E.J. Bradbury , ―High performance
thermoplastic matrix composites, Journal of Thermoplastic Composite
Materials, Vol. 1, Issue 2, (1988), pp. 146-160.
12. Gerald Scott, ―Transformatiions of Antioxidents during processing‖, Journal of
Pure and Applied Chemistry, Vol.55, Issue 10, (1983) pp.1615-1627.
13. P.V. Kodgire, A.R. Bhattacharyya, S. Bose, N. Gupta, A.R. Kulkarni and A.
Misra, ―Control of multiwall carbon nanotubes dispersion in polyamide matrix:
An assessment through electrical conductivity‖, Journal of Chemical Physics
Letters, (2006),pp. 432, 480.
14. Danqing Zhu and Wim J. van Ooij ―Structural Characterization of bis-
[triethoxysilylpropyl]tetrasulfide and bis[trimethoxysilylpropyl]amine by FTIR
and E- lectrochemical Impedance Spectroscopy‖, J. Adhesion Sci. Technol, 16,
(2002),pp.1235-1260.
15. Dong-Yeoul Lee, Jin-Tae Kim,Taeg-Su Oh and Dong-Ho Lee “Characteristics
of nitrile butadiene rubber layered silicate nanocomposites with silane coupling
agent”, Journal of Applied Polymer Science, Vol. 89, Issue 10, (2003)pp. 2633–
2640.
16. Seung-Hwan Lee and Siqun Wang, ―Biodegradable polymers/bamboo fibre
biocomposite with bio-based coupling agent‖, Journal of Composites Part a:
Applied Science and Manufacturing Vol.37, Issue 1, (2006), pp. 80–91.
17. T.H. Hsieh, A.J. Kinloch, K. Masania , A.C. Taylor and S. Sprenger, ―The
mechanisms and mechanics of the toughening of epoxy polymers modified with
silica nanoparticles‖, Polymer, Vol.51,(2010),pp. 6284-6294
18. Rudy A.C. Deblieck, D.J.M. van Beek and Klaas Remerie Ian M. Ward ―Failure
mechanisms in polyolefines: The role of crazing, shear yielding and the
entanglement network‖, Polymer, vol.52, (2011) pp.2979-2990.
19. Metha Rutnakornpituk, ―Thermoplastic Toughened Epoxy Networks and Their
Toughening Mechanisms in Some Systems‖, Naresuan University Journal
Vol.13Issue 1, (2005), pp. 73-83.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 149
20. N. J. Pagano, G. A. Schoeppner, R. Kim and F. L. Abrams, ―Steady-state
cracking and edge effects in thermo-mechanical transverse cracking of cross-ply
laminates‖, Composites Science and Technology, Vol.58, (1998) pp.1811-1825.
21. Tatsuki Ohji, ―Strengthening and Toughening Mechanisms of Ceramic
Nanocomposites‖, Journal of the American Ceramic Society, Vol. 81, Issue 6
(1998), pp.1453–60.
22. C.E. Packard and C.A. Schuh, ―Initiation of shear bands near a stress
concentration in metallic glass‖ Acta Materialia, Vol.55, (2007), pp.5348–5358.
23. Q. Xue, M.A. Meyers and V.F. Nesterenko, ―Self organization of shear bands in
stainless steel‖ Materials Science and Engineering A, Vol.384, (2004), pp.35–
46.
24. J. H. Wang, G. Z. Liang, H. X. Yan and S. B. He, ―Mechanical and dielectric
properties of epoxy/dicyclopentadiene bisphenol cyanate ester/glass fabric
composites‖, eXPRESS Polymer Letters Vol.2, Issue.2 (2008), pp. 118–125.
25. Raymond A. Pearson and Albert F. Yee Toughening mechanisms in
thermoplastic-modified epoxies: Modification using poly (phenylene), Polymer,
Vol.34, Issue 17(1993) pp.3658 -3670.
26. M. Kotoul and J. Vrbka, ―Crack bridging and trapping mechanisms used to
toughen brittle matrix composite‖, Theoretical and Applied Fracture
Mechanics, Vol.40, (2003), pp.23-44.
27. Crivello J.V, ―Polyaspartimides: condension of aromatic diamines and
bismaleimide compounds‖, Journal of Polymer Science: Polymer Chemistry
Edition, Vol.11, (1973), pp.1185-1200.
28. Kumar A.A., M.A. Lagar and R.M.V.G.K. Rao, ―Synthesis and characterization
of siliconized epoxy-1, 3-bis (maleimide) benzene intercrosslinked matrix
materials‖, Polymer, Vol.43, (2002), pp.693-702.
29. H.D. Stenzenberger, ―Recent developments of thermosetting polymers for
advanced composites‖, Composite Structures Vol.24, (1993), pp. 219-231
30. Dinakaran K and M. Alagar, ―Studies on thermal and morphological properties
of 1, 1-bis(3-methyl-4-4cyanatophenyl)cyclohexane-epoxy-bismaleimide
matrice‖, Polymers for Advanced Technologies,Vol.14 (2003),pp.544-56.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 150
31. R. Suresh kumar, M.Alagar and K.Dinakaran, ―Preparation and characterization
of bismaleimide/1,3/dicyanatobenzene modified epoxy inter crossslinked
matrices‖, European Polymer Journal,Vol.39, (2003),pp. 2225-2233.
32. Liang G.Z and A.J. Gu. ―New bismaleimide resin with improved tack and drape
properties for advanced composites‖, Journal of Applied Polymer Science
Vol.64, (1997), pp.273-279.
33. Hu X, J. Fan and C.Y. Yue, ―Rheological study of crosslinking and gelation in
bismaleimide/cyanate interpenetrating polymer network‖, Journal of Applied
Polymer Science, Vol.80, (2001), pp.2437-2445.
34. X.J.Xian, ―The fatigue fracture behaviour of carbon fibre reinforced modified
Bismaleimide composites‖, Composites Science and Technology (1994), pp.93-
98.
35. R.M.V.G.K Rao and A. Vanaja, ―Synthesis and characterization of epoxy-
novolac/Bismaleimide networks‖, European Polymer Journal (2002) pp.187-
193
36. Jin J.Y, J. Cui, X.L. Tang, Y.F. Ding, S.J. Li, J.C. Wang, Q.S. Zhao, X.Y. Hua
and X.Q. Cai. ―On polyetherimide modified bismaleimide resins, 1 Effect of the
chemical backbone of polyetherimide‖, Macromolecular Chemistry and Physics,
Vol.200 (1999), pp.1956-1960.
37. Jin J.Y, J. Cui, X.L. Tang, S.J. Li, J.C. Wang, Q.S. Zhao, X.Y. Hua, and X.Q.
Cai, ―Polyetherimide-modified bismaleimide resins. II. Effect of polyetherimide
content‖, Journal of Applied Polymer Science, Vol.81, (2001), pp.350-358.
38. Baris Kiskan, Narendra Nath Ghoshb and Yusuf Yagcia, ―Polybenzoxazine-
based composites as high-performance materials‖, Polym Int,
Vol.60,(2011),pp.167–177.
39. Takeda S, H. Akiyama and H. Kakiuchi, ―Synthesis and properties of
bismaleimide resins containing ether bonds‖, Journal of Applied Polymer
Science, Vol.35, (1988), pp.1341.
40. Dix L.R, J.R. Ebdon, N.J. Flint, P. Hodge and R. O‘dell. ―Chain extension and
crosslinking of telechelic oligomers ― I. Michael additions of bisamines to
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 151
bismaleimides and bis(acetylene ketone)s‖, European Polymer Journal
,Vol.31,Issue.7,(1995),pp.647.
41. Lin K.F, J.S. Lin and C.H. Cheng. ―High temperature resins based on
allylamine/bismaleimides‖, Polymer, Vol.37, Issue.21, (1996), pp.4729-4737.
42. G. Anuradha and M. Sarojadevi, ―Synthesis and Characterization of Schiff Base
Functionalized Cyanate Esters/BMI Blends‖, High Performance Polymers,
Vol.18, (2006), pp.1003–1018.
43. Yoshitake Nishi, Tatsuya Yamamoto, Shinichiroh Namba, Hiroaki Takei and
Keisuke Iwata, ―High Impact Value of CFRP/ABS/CFRP Sandwich Structural
Composite Homogeneously Irradiated with Low Voltage Electron Beam‖,
Materials Transactions, Vol. 52, Issue. 1,(2011), pp. 73- 80
44. H. J. Kwon, P.Y. B. Jar and Z. Xia,―Residual toughness of poly(acrylonitrile-
butadiene-styrene) (ABS) after fatigue loading—effect of uniaxial fatigue
loading‖, Journal of Material Science,Vol.39, (2004),pp. 4821 – 4828.
45. Lin Zhaoa, Liang Lia, Junxiang Tiana, Jihua Zhuangb and Shanjun Li,
―Synthesis and characterization of bismaleimide–polyetherimide–titania
hybrid‖,Composites: Part A ,Vol.35 (2004),pp. 1217–1224.
46. R.Rajasekaran and M.Alagar, ―Mechanical properties of polyethersulfone
modified epoxy/3, 3′ -bis (maleimidophenyl)phenylphosphine oxide (BMI)
intercrosslinked matrices‖, Bulletin of Material Science, Vol. 31, Issue. 6,
(2008), pp. 853–858.
47. Sheng-Huei Hsiao and Chih-Fen Chang, ―Syntheses and Thermal Properties of
Ether-Containing Bismaleimides and Their Cured Resins‖, Journal of Polymer
Research, Vol. 3, Issue. 1, (1996), pp.31-37
48. Qiaolonc Yuan, Faronc Huang and Yancshenc Jiao, ―Characterization of
Modified Bismaleimide Resin‖, Journal of Applied Polymer Science, Vol. 62,
(1996) pp.459-464 .
49. Aijuan Gu, Guozheng Liang and Liwen Lan. ―A high performance Bismaleimide
resin with good processing characteristics‖, Journal of Applied Polymer Science,
Vol.62, (1996), pp.799-803.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 152
50. J.L. Hopewell, G.A. George and D.J.T. Hill, ―Analysis of the kinetics and
mechanism of the cure of a Bismaleimide –diamine thermoset‖, Polymer,
Vol.41, (2000), pp.8231-8239.
51. Chin-Ping Yang, Sheng-Huei Hsiao,Ruei-Shin Chen and Chi-Shu Wei,
―Chemical Modification of 3,3‘,4,4‘-Biphenyltetracarboxylic Dianhydride
Polyimides by a Catechol-Derived Bis(ether amine)‖, Journal of Applied
Polymer Science, Vol. 84, (2002), pp. 351–358.
52. Dulce M. Mu~noz, Mariola Calle, Jos G. de la Campa, Javier de Abajo, and
Angel E. Lozano, ―An Improved Method for Preparing Very High Molecular
Weight Polyimides‖, Macromolecules, Vol.42, (2009), pp.5892–5894.
53. Indra K. Varma and Shiromani Sharma, ―Curing of Bismaleimide; Effect of
Structure on thermal behaviour of Bis(amide- maleimide)‖, Polymer,Vol.26,(
1985),pp.1561-1565.
54. I.K Varma and S.Sharma, ―Curing of Bismaleimides- Effect of amines on the
curing behaviour and thermal stability‖, European Polymer Journal, Vol.20,
(1984), pp.1101-1105.
55. Pater and R.H. Tough, ―High performance, addition type thermoplastic
polymers‖, U.S Patent.5081198, (1992).
56. Lin K.F and J.C. Chen, ―Curing, compatibility, and fracture toughness for blends
of bismaleimide and a tetrafunctional epoxy resin‖, Polymer Engineering and
Science,Vol.36,Issue.2, (1996),pp.211-217.
57. Viot J.F and J.C. Seferis, ―Process-resolved morphology of bismaleimide matrix
composites‖, Journal of Applied Polymer Science, Vol.34, Issue.4, (1987),
pp.1459-1475.
58. Jiang Bibiao, Hao Jianjun and Wang Wenyun, ―Synthesis and properties of
novel polybismaleimide oligomers‖, European Polymer Journal, Vol.37, (2001),
pp.463-470.
59. Z.D Xiang and FR Jones, ―Thermal Degradation of an End Capped
Biamaleimide Resin Matrix (PMR 15) Composite Reinforced with Pan based
Carbon fibers‖, Composite Science and Technology, Vol. 47, (1993), pp.129-
215.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 153
60. S. Chou, H. C. Chen and K.S. Lee, ―Effects of the organometallic coupling
agents on adhesion of the carbon fiber –BMI Composites‖, Journal of Applied
Polymer Science, Vol. 45, (1992 ), pp.683-694.
61. A.V. Tungare and G.C. Martin, ―Analysis of the curing behavior of
Bismaleimide resins‖, Journal of Applied Polymer Science, Vol. 46, (1992),
pp.1125-1135.
62. T.K.Lin, S.J. Wu, LG Lai and S.S.Shyu, ―The effect of chemical treatment on
reinforcement matrix/ matrix interaction in Kevlar fiber/ bismaleimide
composites, Composite Science and Technology, Vol.60, (2000), pp.1873-1878.
63. M. Akay, G.R.Spratt and B. Meenan, ―The effect of long term exposure to high
temperatures on the ILSS and impact performance of carbon fibre reinforced
Bismaleimide‖, Composites science and Technology, Vol. 63, (2003), pp.1053-
1059.
64. Li – Rong Bao, Albert F. and Y.C. Lee, ―Moisture absorption and hygrothermal
ageing in a Bismaleimide resin‖, Polymer, Vol. 42, (2001), pp.7327-7333.
65. Li Rong Bao and Albert F Yee, ―Effect of Temperature on moisture absorption
on a Biamaleimide Resin and its Carbon Fiber Composites‖, Polymer, Vol. 43,
(2002),pp.3987- 3997.
66. Adrian Lowe, Broowyn Fox and Vincent Otieno- Alego, ―Interfacial Ageing of
High Temperature Carbon / Bismaleimide Composites‖, Composites: Pat A,
Vol.33, (2002), pp.1289-1292.
67. Shiow-Ching Lin/ Eli M.Pearce, ―High performance thermosets-Chemistry,
properties applications‖, Hanser Publishers NY-USA, (1993).
68. I.K Varma and R. Tiwari, Angew. ―Cyclodehydration of bismaleamic acids‖,
Macromolecular Materials and Engineering, Vol.157, Issue.1, (1988), pp.59-78.
69. Stezenberger H.D, ―Polyimides‖, Editors- Blackie Glasgow, Lendon, Page 79.
(1990)
70. Robert G. Bryant, Polyimides, Encyclopedia of Chemical Technology, Published
Online: 24 MAR, (2006).
71. Ghosh, M. K and Mittal, K. L. Polyimide: Fundamentals and Applications.
Marcel Dekker, Inc., New York, (1996).
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 154
72. Volksen W In, Weber WD and Gupta MR (eds), ―Recent advances in polyimide
science and technology‖, Mid-Hudson section of soc of plast Eng Poughkeepsie,
NY, Page 102. (1987)
73. Cotts PMVolkesn WIn: Davidson T (ed) Polymers in electronics ACS Symp
Series 242, ACS, Washington DC., Page 227,(1984)
74. Tant M.R., J.W. Connell, and H.L.N. McManus, ―High-Temperature Properties
and Applications of Polymeric Materials‖, American Chemical Society,
Washington, DC 1995.
75. Afsoon Fallahi, Laleh Rajabi, Faramarz and Afshar Taromi, ―DSC analysis of
thermosetting polyimides based on three bismaleimide resin eutectic mixtures‖,
Iranian Polymer Journal, Vol. 20, Issue 2, (2011), pp. 161-171.
76. De Silva B.S and G.S. Wilson, ―Solid phase synthesis of bifunctional
antibodies‖, Journal of Innunological Methods 9, Vol.19, (1995) pp.188.
77. Zhenhua Luo, Liuhe Wei, Feng Liu and Tong Zhao, ―Study on thermal cure and
heat-resistant properties of N-(3-acetylenephenyl) maleimide monomer‖,
European Polymer Journal, Vol. 43, (2007), pp.3461–3470.
78. Varma I.K., G.M. Fohlen and J.A. Parker, Synthesis and thermal characteristics
of bisimides. Journal of Polymer Science: Polymer Chemistry Edition, Vol.
20,Issue 2, (1982),pp.283-97
79. Viot J.F and J.C. Seferis, ―Process-resolved morphology of bismaleimide matrix
composites‖, Journal of Applied Polymer Science, Vol.34, Issue.4, (1987),
pp.1459-1475.
80. Domeier L. A, ―Aromatic bismaleimide and prepreg resin therefrom. U.S.
Patent. 4654407, 1987.
81. H.D. Stenzenberger, ―Recent developments of thermosetting polymers for
advanced composites‖, Composite Structures Vol.24,(1993),pp. 219-231
82. R. Chandra and L. Rajabi, ―Recent Advances in Bismaleimides and Epoxy-
imide/ Bismaleimide Formulations and Composites‖, Journal of
Macromolecular Science. Part C: Polymer Reviews, Vol.37, Issue.1, (1997)
pp61-96.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 155
83. Xing Geng, ―Bismaleimide and Cyanate Ester Based Sequential Interpenetrating
Polymer Networks for High Temperature Application‖, PhD Thesis Submitted to
Drexel University, January 2005.
84. Rong-Hsien Lina, Wei-Hua Lub and Chih-Wei Lina, ―Cure reactions in the
blend of cyanate ester with maleimide‖, Polymer, Vol.45, (2004), pp.4423–
4435.
85. Lin Jin, Tarek Agag and Hatsuo Ishida,―Bis(benzoxazine-maleimide)s as a novel
class of high performance resin‖, European Polymer Journal, Vol.46, (2010),
pp.354–363.
86. Lianlai Zhang, Qitai Jiang, Luxia Jiang and Xingxian Cai, ―Preparation and
properties of Bismaleimide resins of Aromatic Sulfone Ether Diamine‖, Polymer
Inter National, Vol.39, (1996), pp. 289-293.
87. C Gouri, C P Reghunadhan Nair and R Ramaswamy, ―Adhesive characteristics
of alder-ene adduct of diallyl bisphenol A novolac and bisphenol A
bismaleimide‖, High Performance Polymers, Vol. 12,(2000), pp.497–514.
88. Takao Iijima, Noriyuki Yuasa and Masao Tomoi, ―Modification of Three-
Component Bismaleimide Resin by Poly (phthaloyl diphenyl ether) and Related
Copolymers‖, Journal of Applied Polymer Science, Vol. 82, (2001), pp.2991–
3000.
89. Kancheng Mai, Jianwei Huang and Hanmin Zeng, ―Studies of the Stability of
Thermoplastic-Modified Bismaleimide Resin‖, Journal of Applied Polymer
Science, Vol. 66,(1997), pp.1965–1970.
90. Zhang baoyan, Li Ping and Chen Xiangbao, ―Studies of modified bismaleimide
resins Part I The influence of resin composition on thermal and impact
properties‖, Journal of Materials Science, Vol. 33, (1998),pp.5683 – 5687 .
91. Shanmugam Vinayagamoorthi, Chinnaswamy Thangavel Vijayakumar, Sarfaraz
Alam and Sankaran Nanjundan, ―Structural aspects of high temperature
thermosets – Bismaleimide/propargyl terminated resin system-polymerization
and degradation studies‖, European Polymer Journal, Vol.45, (2009), pp.1217–
1231.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 156
92. Jianyong jin, Jun cui, Xiaolin Tang, Shanjun li, Jinchen wang, Qushen zhao,
Xiangyang Hua and Xianqing cai, ―Polyetherimide-Modified Bismaleimide
Resins. II. Effect of Polyetherimide Content‖, Journal of Applied Polymer
Science, Vol. 81, (2001), pp. 350–358.
93. Yongjin Han, Gongxiong Liao, Yajuan Xu, Guipeng Yu and Xigao Jian, ―Cure
Kinetics, Phase Behaviors, and Fracture Properties of Bismaleimide Resin
Toughened by Poly(phthalazinone ether ketone)‖, Polymer Engineering and
Science, DOI 10.1002/pen.21453, (2009)
94. C. Gouri, C. P. Reghunadhan Nair and R. Ramaswamy, ―Effect of Elastomer
Modification on the Adhesive Characteristics of Maleimide-Functional Phenolic
Resins‖, Journal of Applied Polymer Science, Vol. 74, (1999), pp.2321–2332.
95. K.S. Santhosh Kumar, C.P. Reghunadhan Nair, R. Sadhana and K.N. Ninan,
―Benzoxazine–bismaleimide blends: Curing and thermal properties‖, European
Polymer Journal, Vol.43. (2007), pp.5084–5096.
96. Qiang Fang, Biao Jiang, Yi-Hua Yu, Xiao-Bing Zhang and Lu-Xia Jiang, ―A
Convenient Procedure for Preparation of a Novel Allylphenoxytriazine
Monomer and the Properties of Its Copolymer with Bismaleimide (BMI)‖,
Journal of Applied Polymer Science, Vol. 86, (2002),pp.2279–2284 .
97. G. Anuradha, M. Sarojadevi and P. R. Sundararajan, ―Synthesis, Cure Kinetics,
and Thermal Properties of the Bis(3-allyl-2-cyanatophenyl)sulphoxide/BMI
Blends‖, Journal of Applied Polymer Science, Vol. 110,(2008), pp.517–522 .
98. Shaobo He, Guozheng Lianga, Hongxia Yan and Jinhe Wanga, Lianli Yang,
―Thermal and mechanical evaluation of cyanate ester resin modified with
bismaleimide and diallyl phthalate‖, Polymer for Advanced Technology, Vol. 21,
(2010), pp.640–645.
99. L. A. White, J. W. Weber and L. J. Mathias, ―Synthesis and thermal
characterization of a one component maleimide-epoxy resin‖, Polymer Bulletin,
Vol.46,(2001), pp.339–344.
100. Aijuan Gu and Guozheng Liang, ―High performance bismaleimide resins
modified by novel allyl compounds based on epoxy resins‖, Polymer Plastic
Technology and Engineering, Vol.36, Issue.5, (1997), pp.681-694.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 157
101. Guozheng Liang, Zengping Zhang, Jieying Yang, Xiaolei Wang, ―BMI Based
Composites With Low Dielectric Loss‖, Polymer Bulletin ,Vol.59,
(2007),pp.269–278.
102. C.P. Reghunadhan Nair Advances in addition-cure phenolic resins, Progress in
Polymer Science, Vol.29 (2004), pp.401–498.
103. Zheng Hongfei, LI Zhihong and Zhu Yumei, ―Bismaleimide Modified by Allyl
Novolak for Superabrasives‖, Chinese Journal of Chemical Engineering, Vol.15,
Issue.2,(2007),pp.302—304.
104. Guotao Lu, Ying Huang, Yehai Yan, Tong Zhao and Yunzhao Yu,
―Morphology Transition of Bismaleimide-Modified Novolac Resin‖, Journal of
Applied Polymer Science, Vol. 102, (2006),pp.76–83.
105. R. L. Bindu, C. P. Reghunadhan Nair and K. N. Ninan, ―Phenolic Resins
Bearing Maleimide Groups: Synthesis and Characterization‖, Journal of
Polymer Science: Part A: Polymer Chemistry, Vol. 38, (2000), pp.641–652.
106. R. L. Bindu, C. P. Reghunadhan Nair and K. N. Ninan, ―Addition-Cure-Type
Phenolic Resin Based on Alder-ene Reaction: Synthesis and Laminate
Composite Properties‖, Journal of Applied Polymer Science, Vol. 80, (2001),
pp.737–749.
107. Yehai Yan, Xianming Shi, Jinge Liu, Tong Zhao and Yunzhao Yu,
―Thermosetting Resin System Based on Novolak and Bismaleimide for Resin-
Transfer Molding‖, Journal of Applied Polymer Science, Vol. 83,
(2002),pp.1651–1657.
108. Yuan Yao, Tong Zhao and Yunzhao Yu, ―Novel Thermosetting Resin with a
Very High Glass- Transition Temperature Based on Bismaleimide and Allylated
Novolac, Journal of Applied Polymer Science, Vol. 97, (2005),pp.443–448.
109. Liang Guozheng and Gu Aijuan, ―Synthesis and Characteristic of Allyl Novolac
and Its Copolymer with Bismaleimide‖, International Journal of Polymeric
materials, Vol. 35, (1997), pp. 39-49.
110. Zhenhua Luo, Liuhe Wei, Feng Liu and Tong Zhao, ―The Effect of Allylation
Degree on Processing Properties, Thermal Cure, and Thermal Properties of
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 158
BMAN Resins‖, Journal of Applied Polymer Science, Vol. 104, (2007),pp.
2822–2829.
111. Wanwan Li , Feng Liu , Liuhe Wei and Tong Zhao, ―Synthesis, morphology
and properties of polydimethylsiloxane-modified allylated novolac/4,4‘-
bismaleimidodiphenylmethane‖, European Polymer Journal, Vol.42, (2006),
pp.580–592.
112. Wanwan Li, Feng Liu, Liuhe Wei and Tong Zhao, ―Curing Behavior Study of
polydimethylsiloxane-Modified Allylated Novolac/4,40-
Bismaleimidodiphenylmethane Resin‖, Journal of Applied Polymer Science,
Vol. 107, (2008), pp.554–561.
113. Yehai Yan, Linjie Zhi, Hongsheng Wang, Jinge Liu, Tong Zhao and Yunzhao
Yu, ―Acetyl-Capped Paraformaldehyde as Crosslinking Agent for BMI-
Modified Novolac Resin for Resin Transfer Molding‖, Journal of Applied
Polymer Science, Vol. 86, (2002),pp.1265–1271.
114. C Gouri, CP Reghunadhan Nair and R Ramaswamy, ―Reactive Alder-ene blend
of diallyl bisphenol A novolac and bisphenol A bismaleimide: synthesis, cure
and adhesion studies‖, Polymer International, Vol. 50, (2001), pp.403-413.
115. C. Gouri, C.P. Reghunadhan Nair, R. Ramaswamy and K.N. Ninan, ―Thermal
decomposition characteristics of Alder-ene adduct of diallyl bisphenol A
novolac with bismaleimide: effect of stoichiometry, novolac molar mass and
bismaleimide structure‖, European Polymer Journal, Vol.38, (2002), pp. 503–
510.
116. K. Ambika Devi, C. P. Reghunadhan Nair and K. N. Ninan, ―Diallyl Bisphenol
A—Novolac Epoxy System Cocured with Bisphenol-A-Bismaleimide—Cure
and Thermal Properties‖, Journal of Applied Polymer Science, Vol. 106, (2007),
pp.1192–1200.
117. Quang Fang, Xuemei Ding, Xiongying, Wu, and Luxia Jiang , ―Synthesis and
characterization of a novel functional monomer containing two allyl phenoxy
groups and one s-triazine ring and the properties of its co polymer with
bismaleimidodiphenylmethane‖, Polymer, Vol.42, (2001), pp.7595-7602.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 159
118. Xuhai Xiong, Ping Chen, Jinxiang Zhang, Qi Yub and Baichen Wang, ―Cure
kinetics and thermal properties of novel bismaleimide containing phthalide cardo
structure‖, Thermochimica Acta Vol.514,(2011),pp.444–450
119. Xiangxiu Chen, Aijuan Gu, Guozheng Liang, Li Yuan, Dongxian Zhuo and
Jiang-tao Hu, ―Novel low phosphorus-content bismaleimide resin system with
outstanding flame retardancy and low dielectric loss‖, Polymer Degradation
and Stability ,Vol.97,(2012),pp.698- 706.
120. Roger J. Morgan, Robert J. Jurek, Anna Yen and Tom Donnellan, ―Toughening
procedures, processing and performance of bismaleimide-carbon fibre
composites‖, Polymer, Vol. 34, Issue 4, ( 1993), pp.835-842.
121. Zhongming Li, Mingbo Yang, Rui Huang, Meidong Zhang and Jianmin Feng,
―Bismaleimide Resin Modified with Diallyl Bisphenol A and Diallyl p-Phenyl
Diamine for Resin Transfer Molding‖, Journal of Applied Polymer Science, Vol.
80, (2001),pp.2245–2250.
122. Aijuan Gu, Guozheng Liang, Lwen lan, ―A High-Performance Bismaleimide
Resin with Good Processing Characteristics‖, Journal of Applied Polymer
Science, Vol. 62, (1996), pp.799-803.
123. Guozheng Liang and Aijuan Gu, ―New Bismaleimide Resin with Improved Tack
and Drape Properties for Advanced Composites‖, John Wiley & Sons, Inc. CCC
0021-8995/97/020273-07(1997).
124. Hoe H. Chum and P. C. Wang, ―High Temperature Thermosets Based on the
Co-curing of a Novel Spirodilactam Bisallylether and Bismaleimide‖, Polymer
Engineering and Science, MID January, Vol. 34, Issue. 1(1994).
125. Guozheng Liang , Zengping Zhang and Jieying Yang , ―Study on Properties of
Low Dielectric loss Resin Matrix‖, Polymer Bulletin 58, (2007),pp.1021–1029.
126. Qi Yua, Ping Chena, Yu Gao , Jujie Mu, Yongwu Chen, Chun Lu and Dong
Liu, ―Effects of vacuum thermal cycling on mechanical and physical properties
of high performance carbon/bismaleimide composite‖, Materials Chemistry and
Physics Vol.130, (2011),pp.1046– 1053.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 160
127. Yan Zhang, Junjun Lv and Yujian Liu, ―Preparation and characterization of a
novel fluoride-containing bismaleimide with good processability‖, Polymer
Degradation and Stability, Vol.97, (2012), pp. 626- 631.
128. Haoyu Tang, Wanwan Li, Xinghe Fan, Xiaofang Chen, Zhihao Shen and Qifeng
Zhou, ―Synthesis, preparation and properties of novel high-performance allyl–
maleimide resins‖, Polymer ,Vol.50, (2009),pp. 1414–1422.
129. Haihu Qin, Patrick T. Mather, Jong-Beom Baek and Loon-Seng Tan,
―Modification of bisphenol-A based bismaleimide resin (BPA-BMI) with an
allyl-terminated hyperbranched polyimide (AT-PAEKI)‖, Polymer Vol.47,
(2006), pp.2813–2821.
130. Aijuan Gu, Guozheng Liang, and Llwen Lan, ―Modification of Polyaralkyl-
Phenolic Resin and Its Copolymer with Bismaleimide‖, Journal of Applied
Polymer Science, Vol. 59, (1996), pp. 975-979.
131. Sathoshi Kobayashi and Nobuo Takeda, ―Experimental characterization of
microscopic damage behaviour in carbon/bismaleimide composite effects of
temperature and laminate configuration”, Composites Part A: Applied Science
and Manufacturing, Vol.33, Issue.11, (2002), pp.1529-1538.
132. Jing Fan, Xiao Hu and Chee Yoon Yue, ―Thermal degradation study of
interpenetrating polymer network based on modified bismaleimide resin and
cyanate ester‖, Polymer International, (2003), pp.15-22.
133. Hamerton, B.J. Howlin, S.L. Jewell and P. Patel, ―Studying the co-reaction of
propenyl-substituted cyanate ester-bismaleimide blends using model
compounds‖, Reactive & Functional Polymers, Vol.72, (2012), pp. 279–286.
134. Viorica Gaina, “Bismaleimides and biscitraconimides with bisallyl groups‖,
High Performance Polymers, Vol.19, (2007), pp.160-174.
135. Hong-qiang Yan a, Hua-qing Wangb and Jie Cheng, ―Interpenetrating polymer
networks from the novel bismaleimide and cyanate containing naphthalene: Cure
and thermal characteristics‖, European Polymer Journal, Vol.45 (2009), pp.
2383–2390.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 161
136. Haoyu Tang, Wanwan Li, Xinghe Fan, Xiaofang Chen, Zhihao Shen and Qifeng
Zhou, ―Synthesis, preparation and properties of novel high-performance allyl–
maleimide resins‖, Polymer ,Vol.50, (2009),pp.1414–1422.
137. Tsutomu Takeichi, Yuki Saito, Tarek Agag, Hiroyuki Muto and Takehiro
Kawauchi, ―High- performance polymer alloys of polybenzoxazine and
bismaleimide‖, Polymer, Vol.49, (2008), pp.1173 1179.
138. Shiliang Fan, Freddy Y.C. Boey and Marc J.M. Abadie, ―The application of
thiol-ene reaction on preparing UV curable bismaleimide-containing liquid
formulations‖, European Polymer Journal, Vol.44, (2008), pp. 2123–2129.
139. Jovan Mijovic and Sas A Andjelic, ―Study of the mechanism and rate of
bismaleimide cure by remote in-situ real time fibre optic near-infrared
spectroscopy‖, Macromolecules, Vol.29. (1996), pp.239-246.
140. Chao Lin, Li Yuan, Aijuan Gu, Guozheng Liang and Jianyuan Wu, ―High
Performance Self-Healing Bismaleimide/ Diallylbisphenol A/Poly(phenylene
oxide) Microcapsules Composites With Low Temperature Processability‖,
Polymer Composites,(2013), DOI 10.1002/pc.22420 .
141. Oana Ursache, Constantin Gaina, Viorica Gaina and Valentina Elena Musteata,
―High performance bismaleimide resins modified by novel allyl compounds
based on polytriazoles‖, Journal of Polymer Research, Vol.19 (2012), pp.9968.
142. Roger J. Morgan, E. Eugene Shin, Boris Rosenberg and Ann Jurek,
―Characterization of the cure reactions of bismaleimide composite matrices‖,
Polymer Vol. 38, Issue. 3, (1997),pp. 639-646,
143. Takao Iijima, Noriyuki Yuasa and Masao Tomoi, ―Modification of two-
component bismaleimide resin by blending (meth)allyl compounds as third
components‖, Polymer International, Vol. 48(1999),pp587- 592.
144. Ying Li, Lei Feng and Liu.C. Zhang, ―Mechanical, thermal, and morphological
properties of bismaleimide/unsaturated polyester copolymers‖, Journal of
Applied Polymer Science, Vol.100, Issue. 1, (2006), pp.593-598.
145. Y. Xu, C. Chen, P. Zhang, B. Sun and J. Li, ―Pervaporation Properties of
Polyimide Membranes for Separation of Ethanol + Water Mixtures‖, Journal of
Chemical Engineering, Vol.51, Issue.5, (2006), pp. 1841-1845.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 162
146. Ken ichi Okamoto, ―Sulfonated Polyimides for polymer Electrolyte Membrane
Fuel Cell‖, Journal of Photopolymer Science and Technology, Vol.16, Issue.2,
(2003), pp. 247-254.
147. Qunfeng Cheng, Ben Wang, Chuck Zhang and Zhiyong Liang, ―Functionalized
Carbon-Nanotube Sheet/Bismaleimide Nanocomposites: Mechanical and
Electrical Performance Beyond Carbon-Fiber Composites‖, Small, - Wiley
Online Library, Vol. 6, Issue.6,(2010)pp.763–767.
148. Zhan-Sheng Guo, Shan-Yi Du, Boming Zhang and Zhanjun Wu, ―Cure
Characterization of a New Bismaleimide Resin using Differential Scanning
Calorimetry‖, Journal of Macromolecular Science, Part A: Pure and Applied
Chemistry, Vol.43,(2006),pp.1687–1693.
149. Johannes Karl Fink, ―High performance polymers‖, William Andrew Publishers,
NY-USA-2008.
150. King JJ, Chaudhari M, Zahir S, ―A new Bismaleimide system for high
performance applications‖, 29th In SAMPE Symp 1984; 29:392–403.
151. Lin S.C. and E.M. Pearce, ―High-Performance Thermosets, Chemistry,
Properties, Applications‖, Munich: Hanser, 1993.
152. High performance polymers: Advances in polymer science 117, Editor, P.M
Hergenrother, Springer-Verlag Publishers, 1994.
153. Advanced Thermoset Composites: Industrial and Commercial Applications, Ed.,
J.M. Margolis, Van Nostrand Reinhold Co, New York, NY, USA, 1986.
154. Paul M. Hergenrother, ―Perspectives in the Development of High-Temperature
Polymers‖, Angewandte Chemie International Edition in English, Vol.29, (1990)
pp.1262–1268.
155. R. L. Bindu, C. P. Reghunadhan Nair and K. N. Ninan, ―Addition-Cure-Type
Phenolic Resin Based on Alder-ene Reaction: Synthesis and Laminate
Composite Properties‖, Journal of Applied Polymer Science, Vol. 80,
(2001),pp.737–749
156. Guotao Lu, Ying Huang, Yehai Yan, Tong Zhao and Yunzhao Yu,
―Morphology Transition of Bismaleimide-Modified Novolac Resin‖, Journal of
Applied Polymer Science, Vol. 102, (2006),pp. 76–83
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 163
157. M.Sunitha, C.P.Reghunadhan Nair, K.Krishnan and K .N. Nainan, ―Kinetics of
alder ene reaction of Tris (2-allylphenoxy) triphenoxycyclotriphosphazene and
bismaleimides- a DSC study‖, Thermochemica acta , Vol.374,(2001),pp. 159-
169
158. C. Gouri, C.P. Reghunadhan Nair , R. Ramaswamy and K.N. Ninan, ―Thermal
decomposition characteristics of Alder-ene adduct of diallyl bisphenol A
novolac with bismaleimide: effect of stoichiometry, novolac molar mass and
bismaleimide structure, European Polymer Journal 38 (2002) 503–510
159. Cedeno AJ and Vazquez-Torres H, ―Kinetic study of the effect of
poly(phenylsulfone) on the curing of an epoxy/amine resin by conventional and
by temperature-modulated differential scanning calorimetry‖, Polymer
International, Vol.54,(2005),pp.1141–1152.
160. Margit Harch, Jozsef Karger-Kocsis, and Marco Holst, ―Influence of fillers and
additives on the cure kinetics of an epoxy/anhydride resin‖, European Polymer
Journal, Vol. 43, (2007), pp.1168-1178.
161. W. Carruthers, ―Some Modern Methods of Organic Synthesis‖, 3rd edition,
Cambridge University Press, Cambridge, (1986), pp. 244.
162. A Matsumoto, ―Polymerization of multiallyl monomers‖, Progress in Polymer
Science, Vol.26, (2001), pp.189-257.
163. Hongyan Ban, Jianzhou Gui , Xiaotong Zhang , Min Dai , Lijuan Songb, Zhaolin
Sunb, and Lovat V.C. Rees, ―TPD of cyclic hydrocarbons in silicalite-1 studied
by intelligent gravimetry‖, Thermochimica Acta,Vol. 439,(2005)pp.121–126.
164. C Gouri, CP Reghunadhan Nair and R Ramaswamy, ―Reactive Alder-ene blend
of diallyl bisphenol A novolac and bisphenol A bismaleimide: synthesis, cure
and adhesion studies‖, Polymer International, Vol. 50, (2001), pp.403-413.
165. C. Gouri, C.P. Reghunadhan Nair, R. Ramaswamy and K.N. Ninan, ―Thermal
decomposition characteristics of Alder-ene adduct of diallyl bisphenol A
novolac with bismaleimide: effect of stoichiometry, novolac molar mass and
bismaleimide structure‖, European Polymer Journal, Vol.38, (2002)503–510.
166. Mousa Ghaemy, Hossein Behmadi and Mohammad Barghamadi, ―Study of Cure
Kinetics of Diglycidyl Ether of Bisphenol A with Ni(II) and Cu(II) Complexes
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 164
of Benzil Bisthiosemicarbazone‖, Journal of Applied Polymer Science,
Vol.106,(2007),pp. 4060–4066.
167. Junyan Li, Ping Chen, Zemin Ma, Keming Ma and Baichen Wang, ―Reaction
Kinetics and Thermal Properties of Cyanate Ester-Cured Epoxy Resin with
Phenolphthalein Poly(ether ketone)‖, Journal of Applied Polymer Science,
Vol.111,(2009),pp.2590–2596 (2009)
168. V L Zvekov, ―Comparitive DSC kinetics of the reaction of DGEBA with
aromatic diamines I. Non-isothermal kinetic study of the reaction of DGEBA
with m-phenylene diamines‖, Polymer, Vol.42,(2001),pp. 6687-6697.
169. Iñaki Mondragon, Lorena Solar, Ileana B. Recalde and Clara M. Gómez, ―Cure
kinetics of a cobalt catalysed dicyanate ester monomer in air and argon
atmospheres from DSC data‖, Thermochimica Acta, 417(2004), pp.19–26.
170. C.P. Reghunadhan Nair, K. Krishnan, K.N. Ninan, Differential scanning
calorimetric study on the Claisen rearrangement and thermal polymerisation of
diallyl ether of bisphenols, Thermochimica Acta 359, (2000),pp.61-67.
171. S. Vyazovkin, N. Sbirrazzuoli, Macromol. Chem. Phys. 20, (2000) pp.199.
172. R. L. Bindu, C. P. Reghunadhan Nair and K. N. Ninan, ―Phenolic Resins
Bearing Maleimide Groups: Synthesis and Characterization‖, Journal of
Polymer Science: Part A: Polymer Chemistry, Vol. 38, (2000), pp. 641–652.
173. Qingbao Guan, Aijuan Gu, Guozheng Liang, Li Yuan, Fan Liao and Yingwei
Gong, ―Curing Kinetics and Mechanism of Novel High Performance
Hyperbranched Polysiloxane/Bismaleimide/ Cyanate Ester Resins for Resin
Transfer Molding‖, Journal of Applied Polymer Science, (2011).
174. Yongfen Xu, Jiongxin Zhao, Jialin Wu and Xinhai Yu, ―Nonisothermal Curing
Kinetics and Properties of Tetraglycidyl-4,4‘
Diaminodiphenylmethane/Polyimide‖ Journal of Materials Science and
Engineering A 1 (2011), pp.29-36.
175. Jurgen Schawe, ―Kinetic studies of complex reactions Part 1: model free
kinetics‖ Usercom, Mettler Toledo, 13-16, 2/2003.
176. Jurgen Schawe,‖ Kinetic studies of complex reactions, Part 2: Description of
diffusion control‖, Usercom, Mettler Toledo, 8-12, 1/2004.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 165
177. Rahman Seifi and Mehdi Hojjati, ―Heat of reaction, cure kinetics, and viscosity
of araldite LY-556 resin‖, Journal of composite materials, Vol.39, (2005),
pp.1027-1039.
178. Jovan Mijovic and Sas A Andjelic, ―Study of the mechanism and rate of
bismaleimide cure by remote in-situ real time fiber optic near-infrared
spectroscopy‖, Macromolecules, Vol. 29, (1996), pp.239-246.
179. Zhan-Sheng Guo, Shan-Yi Du, Bo-Ming Zhang and Zhan-Jun Wu ,
―Modelling the curing kinetics for a modified bismaleimide resin using
Isothermal DSC‖, Journal of Applied Polymer Science, Vol.92, (2004), pp.
3338–3342.
180. S. Katiyar and A. K. Nagpal, ―Study of curing behaviour and thermal properties
of elastomer-modified bismaleimide resin‖, Journal of thermal analysis, Vol.
49, Issue. 1, (1997), pp.177-182.
181. Rong-Hsien Lin, Ru-Yu Huang, Fu-Shan Yen, I-Hung Chen and Tzung-Han Ho,
―Kinetic Rate Equation Combining Ultraviolet-Induced Curing and Thermal
Curing. I. Bismaleimide System‖, Journal of Applied Polymer Science, Vol. 115,
(2010), pp. 935–947.
182. Sabzevari, Alavi- Soltani and Minaie, ―Effect of thermoplastic toughening agent
on glass transition temperature and cure kinetics of an epoxy prepreg‖, Journal
of Thermal Analysis & Calorimetry, Vol. 106, Issue. 3, (2011), pp.905.
183. Nobuyoshi koga, ―Ozawa‘s kinetic method for analysis thermo analytical
curves‖, Journal of Thermal Analysis and Calorimetry, DOI 10-1007/S10973-
012-2882-5 (2013).
184. L. Heireche and M. Belhadji, ―The methods Matusita, Kissinger and Ozawa in
the study of the crystallization of glasses. The case of Ge-Sb-Te alloys‖,
Chalcogenide Letters, Vol. 4, Issue. 2, (2007), pp. 23 – 33.
185. Osnir S. Viana, Adriano A.S. Araujo, Rodrigo A. Simoes, Jose L. Soares,
―Kinetic Analysis of the Thermal Decomposition of Efavirenz and Compatibility
Studies with Selected Excipients‖ Latin American Journal of Pharmacy,
Vol.27,Issue.2, (2008),pp.211-216.
Toughening Procedure, Processing and Performance of Bismaleimide Resin Composites
University of Mysore 166
186. Sanja Matecic Musani, Ivona Fiam engo Houra and Muhamed Suceska, ―
Applicability of Non-isothermal DSC and Ozawa Method for Studying Kinetics
of Double Base Propellant Decomposition‖, Central European Journal of
Energetic Materials, Vol.7,Issue.3,(2010), pp. 233-251.
187. K.Krishnan, G. Viswanathan, A.J. Kurian and K.N. Ninan, ―Kinetics of
Decomposition of Nitramine Propellant by Differential Scanning Calorimetry‖,
Defence Science Journal, Vol. 42, Issue.3, (1992), pp. 135-139