RTM型耐烧蚀树脂研究进展
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摘要
综述了适用于树脂传递模塑(RTM)成型工艺的耐烧蚀树脂如双马来酰亚胺改性酚醛树脂、苯并恶嗪树脂、聚芳基乙炔树脂和酚三嗪树脂的特点及改性研究进展。
The characteristics and modification research progress of ablative resins such as bismaleimide modified phenolic resin,benzoxazine resin,polyarylacetylene resin and phenol triazine resin suitable for RTM molding process were reviewed.
The characteristics and modification research progress of ablative resins such as bismaleimide modified phenolic resin,benzoxazine resin,polyarylacetylene resin and phenol triazine resin suitable for RTM molding process were reviewed.
引文
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[2]李婷,刘建军,杨学军. RTM工艺用酚醛树脂研究进展[J].材料导报,2015,29(25):251-254.
[3] Robinsion M J,Kosmatka J B. Vacuum assisted resin transfer molding simulation for thick laminate structures[C]. 49th AIAA/ASME/ASCE/AHS/ASC Structures,Structural Dynamics,and Materials Conference,Schaumburg IL:American Istitute of Aeronautics Astronautics,2008:2033.
[4]孙赛,刘木金,王海,等. RTM成型工艺及其派生工艺[J].宇航材料工艺,2010(6):21-23.
[5] Gautronneau E,Boury D,Chevrollier A,et al. P80 nozzle low cost technologies[C]. 57th International Astronautical Congress,Valencia:International Astronautic Congress,2006.
[6] Brouwer W D,Herpt E van,Labordus M. Vacuum injection moulding for large structural applications[J]. Composites Part A:Applied Science and Manufacturing,2003,34(6):551-558.
[7]景新荣,刘向丽,苏霞. RTM成型工艺技术应用及加工工艺性研究浅析[J].橡塑技术与装备,2015,41(24):132-135.
[8] Nair C P R. Advanced in addition-cure phenolic resins[J]. Progress in Polymer Science,2004,29(5):401-498.
[9]梁瑜,郭亚林,张祎.固体火箭发动机喷管用树脂基烧蚀防热材料研究进展[J].宇航材料工艺,2017(2):1-5.
[10]黄赤,秦岩,黄志雄,等.酚醛基烧蚀材料改性研究进展[J].武汉理工大学学报,2014,36(8):37-43.
[11] Gu A J,Liang G Z,Li Z M. A new bismaleimide system for resin transfer molding[J]. Polymer Composites,2004,18(1):151-155.
[12]白侠,李辅安,李崇俊,等.耐烧蚀复合材料用改性酚醛树脂研究进展[J].玻璃钢/复合材料,2006(6):50-55.
[13]魏晓莹,王汝敏,朱苗淼.马来酰亚胺改性酚醛树脂研究进展[J].中国胶黏剂,2011,20(8):41-45.
[14] Jiang H,Wang R,Farhan S,et al. Optimization and preparation of an allyl phenoxy-modified bismaleimide resin[J]. High Performance Polymers,2016,28(6):669-681.
[15]何先成,包建文,李晔,等.烯丙基酚醛改性双马来酰亚胺树脂的制备与性能[J].热固性树脂,2013,28(3):19-23.
[16]曹鹏,齐暑华,理莎莎,等.双马来酰亚胺改性酚醛树脂的制备及其性能研究[J].中国胶黏剂,2011,20(12):16-19.
[17]张凤翻.苯并恶嗪树脂及其在宇航复合材料中的应用[J].高科技纤维与应用,2016,41(1):10-21.
[18] Tüzün A,Ligadaserard G,Ronda J C,et al. Fatty acid-derivedα,ω-bis-benzoxazines through hydrosilylation;curing and thermoset properties[J]. European Polymer Journal,2015,69(6):341-353.
[19]李宁,寇开昌,吴广磊,等.苯并嗯嗪树脂改性的研究进展[J].粘接,2011,32(12):77-80.
[20] Liu Y L,Chou C I. High performance benzoxazine monomers and polymers containing furan groups[J]. Journal of Polemer Science Part A:Polymer Chemistry,2005,43(21):5267-5282.
[21] Kim H J,Brunovska Z,Ishida H. Synthesis and thermal characterization of polybenzoxazines based on acetylene-functional monomers[J]. Polymer,1999,40(23):1815-1822.
[22] Wang S,Jia Q,Jing Y. An investigation on the effect of phenylboronic acid on the processibilities and thermal properties of bisbenzoxazine resins[J]. Reactive and Functional Polymers,2015(93):111-119.
[23]李光珠,罗振华,韩伟健,等.新型聚苯并恶嗪改性树脂的制备与性能[J].宇航材料工艺,2013(4):35-38.
[24] Katzman H A,Mallon J J,Barry W T. Polyarylacetylene-matrix composites for solid rocket motor components[J]. Journal of Advanced Materials,1995,26(3):21-27.
[25]张世杰,张炜,郭亚林,等.新型耐烧蚀材料-聚芳基乙炔树脂的研究进展[J].热固性树脂,2007,22(6):42-46.
[26] Cai W,Li M,Wang S,et al. Strong,flexible and thermal-resistant CNT/polyarylacetylene nanocomposite films[J]. RSC Advances,2016,6(5):4077-4084.
[27] Luo Z H,Wang M C,Yang M,et al. Preparation and properties of addition curable phenolic resin containing ethynyl groups[J]. Aerospace Materials&Technology,2008(3):49-53.
[28] Fan H,Li X,Liu Y,et al. Curing and thermal behavious of inorganic-organic hybrid polyarylacetylene resins with polyhedral oligomeric octa(propargylaminophenyl)silsesquioxane[J]. Journal of Applied Polymer Science,2013,128(60):4361-4367.
[29] Tseng W C,Chen Y,Chang G W. Curing conditions of polyarylacetylene prepolymers to obtain thermally resistant materials[J].Polymer Degradation and Stability,2009,949(12):2149-2156.
[30]罗振华,赵绪泽,赵彤,等.加成固化型高残炭芳炔基酚醛树脂作为复合材料基体的评价[J].高分子材料科学与工程,2011,21(10):85-88.
[31]杨龙,王帆,杨华清,等.新型自阻燃联苯基二元氰酸酯树脂的合成、表征与性能[J].功能高分子学报,2015,28(2):188-193.
[32]钟瑶冰,魏伯荣,刘郁杨.烧蚀材料高成碳树脂的研究进展[J].化学与黏合,2011,33(1):47-50.
[33] Nair C P R,Mathew D,Ninan K N. Imido-phenolic-triazine network polymers derived from maleimide-functional novolac[J]. European Polymer Journal,2001,37(2):315-321.
[34]李文峰,陈淳,孙超明,等.酚醛型氰酸酯的性能[J].玻璃钢/复合材料,2008(10):6-8
[35]朱海荣,黄传进,王明存,等.新型复合材料基体液体氰酸酯树脂研究[J].固体火箭技术,2013,36(3):403-407.
[36] Guo Y,Chen F,Han Y,et al. High performance fluorinated Bismaleimide-Triazine resin with excellent dielectric properties[J].Journal of Polymer Research,2018,25(2):27.
[37]马立群,黄伟,曲春艳,等.二烯丙基双酚A催化改性酚醛型氰酸酯树脂的催化固化[J].化工进展,2013,32(7):1570-1572.
[38]宿凯,曲春艳,王德志,等.酚醛型氰酸酯的改性研究[J].中国胶粘剂,2014,23(5):38-41.
[2]李婷,刘建军,杨学军. RTM工艺用酚醛树脂研究进展[J].材料导报,2015,29(25):251-254.
[3] Robinsion M J,Kosmatka J B. Vacuum assisted resin transfer molding simulation for thick laminate structures[C]. 49th AIAA/ASME/ASCE/AHS/ASC Structures,Structural Dynamics,and Materials Conference,Schaumburg IL:American Istitute of Aeronautics Astronautics,2008:2033.
[4]孙赛,刘木金,王海,等. RTM成型工艺及其派生工艺[J].宇航材料工艺,2010(6):21-23.
[5] Gautronneau E,Boury D,Chevrollier A,et al. P80 nozzle low cost technologies[C]. 57th International Astronautical Congress,Valencia:International Astronautic Congress,2006.
[6] Brouwer W D,Herpt E van,Labordus M. Vacuum injection moulding for large structural applications[J]. Composites Part A:Applied Science and Manufacturing,2003,34(6):551-558.
[7]景新荣,刘向丽,苏霞. RTM成型工艺技术应用及加工工艺性研究浅析[J].橡塑技术与装备,2015,41(24):132-135.
[8] Nair C P R. Advanced in addition-cure phenolic resins[J]. Progress in Polymer Science,2004,29(5):401-498.
[9]梁瑜,郭亚林,张祎.固体火箭发动机喷管用树脂基烧蚀防热材料研究进展[J].宇航材料工艺,2017(2):1-5.
[10]黄赤,秦岩,黄志雄,等.酚醛基烧蚀材料改性研究进展[J].武汉理工大学学报,2014,36(8):37-43.
[11] Gu A J,Liang G Z,Li Z M. A new bismaleimide system for resin transfer molding[J]. Polymer Composites,2004,18(1):151-155.
[12]白侠,李辅安,李崇俊,等.耐烧蚀复合材料用改性酚醛树脂研究进展[J].玻璃钢/复合材料,2006(6):50-55.
[13]魏晓莹,王汝敏,朱苗淼.马来酰亚胺改性酚醛树脂研究进展[J].中国胶黏剂,2011,20(8):41-45.
[14] Jiang H,Wang R,Farhan S,et al. Optimization and preparation of an allyl phenoxy-modified bismaleimide resin[J]. High Performance Polymers,2016,28(6):669-681.
[15]何先成,包建文,李晔,等.烯丙基酚醛改性双马来酰亚胺树脂的制备与性能[J].热固性树脂,2013,28(3):19-23.
[16]曹鹏,齐暑华,理莎莎,等.双马来酰亚胺改性酚醛树脂的制备及其性能研究[J].中国胶黏剂,2011,20(12):16-19.
[17]张凤翻.苯并恶嗪树脂及其在宇航复合材料中的应用[J].高科技纤维与应用,2016,41(1):10-21.
[18] Tüzün A,Ligadaserard G,Ronda J C,et al. Fatty acid-derivedα,ω-bis-benzoxazines through hydrosilylation;curing and thermoset properties[J]. European Polymer Journal,2015,69(6):341-353.
[19]李宁,寇开昌,吴广磊,等.苯并嗯嗪树脂改性的研究进展[J].粘接,2011,32(12):77-80.
[20] Liu Y L,Chou C I. High performance benzoxazine monomers and polymers containing furan groups[J]. Journal of Polemer Science Part A:Polymer Chemistry,2005,43(21):5267-5282.
[21] Kim H J,Brunovska Z,Ishida H. Synthesis and thermal characterization of polybenzoxazines based on acetylene-functional monomers[J]. Polymer,1999,40(23):1815-1822.
[22] Wang S,Jia Q,Jing Y. An investigation on the effect of phenylboronic acid on the processibilities and thermal properties of bisbenzoxazine resins[J]. Reactive and Functional Polymers,2015(93):111-119.
[23]李光珠,罗振华,韩伟健,等.新型聚苯并恶嗪改性树脂的制备与性能[J].宇航材料工艺,2013(4):35-38.
[24] Katzman H A,Mallon J J,Barry W T. Polyarylacetylene-matrix composites for solid rocket motor components[J]. Journal of Advanced Materials,1995,26(3):21-27.
[25]张世杰,张炜,郭亚林,等.新型耐烧蚀材料-聚芳基乙炔树脂的研究进展[J].热固性树脂,2007,22(6):42-46.
[26] Cai W,Li M,Wang S,et al. Strong,flexible and thermal-resistant CNT/polyarylacetylene nanocomposite films[J]. RSC Advances,2016,6(5):4077-4084.
[27] Luo Z H,Wang M C,Yang M,et al. Preparation and properties of addition curable phenolic resin containing ethynyl groups[J]. Aerospace Materials&Technology,2008(3):49-53.
[28] Fan H,Li X,Liu Y,et al. Curing and thermal behavious of inorganic-organic hybrid polyarylacetylene resins with polyhedral oligomeric octa(propargylaminophenyl)silsesquioxane[J]. Journal of Applied Polymer Science,2013,128(60):4361-4367.
[29] Tseng W C,Chen Y,Chang G W. Curing conditions of polyarylacetylene prepolymers to obtain thermally resistant materials[J].Polymer Degradation and Stability,2009,949(12):2149-2156.
[30]罗振华,赵绪泽,赵彤,等.加成固化型高残炭芳炔基酚醛树脂作为复合材料基体的评价[J].高分子材料科学与工程,2011,21(10):85-88.
[31]杨龙,王帆,杨华清,等.新型自阻燃联苯基二元氰酸酯树脂的合成、表征与性能[J].功能高分子学报,2015,28(2):188-193.
[32]钟瑶冰,魏伯荣,刘郁杨.烧蚀材料高成碳树脂的研究进展[J].化学与黏合,2011,33(1):47-50.
[33] Nair C P R,Mathew D,Ninan K N. Imido-phenolic-triazine network polymers derived from maleimide-functional novolac[J]. European Polymer Journal,2001,37(2):315-321.
[34]李文峰,陈淳,孙超明,等.酚醛型氰酸酯的性能[J].玻璃钢/复合材料,2008(10):6-8
[35]朱海荣,黄传进,王明存,等.新型复合材料基体液体氰酸酯树脂研究[J].固体火箭技术,2013,36(3):403-407.
[36] Guo Y,Chen F,Han Y,et al. High performance fluorinated Bismaleimide-Triazine resin with excellent dielectric properties[J].Journal of Polymer Research,2018,25(2):27.
[37]马立群,黄伟,曲春艳,等.二烯丙基双酚A催化改性酚醛型氰酸酯树脂的催化固化[J].化工进展,2013,32(7):1570-1572.
[38]宿凯,曲春艳,王德志,等.酚醛型氰酸酯的改性研究[J].中国胶粘剂,2014,23(5):38-41.
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