甘蔗渣生物质资源在复合材料领域的研究进展
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摘要
综述了甘蔗渣在高分子复合材料领域和无机复合材料领域的研究现状,介绍了甘蔗渣燃烧后产生的灰烬在无机复合材料领域的应用情况,最后指出了甘蔗渣在复合材料领域应用存在的问题及其发展前景。
The research status of applications of sugarcane bagasse in the field of polymer composites and inorganic composites is reviewed,and the application of ash produced by burning sugarcane bagasse in the field of inorganic composites are also introduced.Finally,the problems and development prospects of sugarcane bagasse application in the field of composites materials are pointed out.
The research status of applications of sugarcane bagasse in the field of polymer composites and inorganic composites is reviewed,and the application of ash produced by burning sugarcane bagasse in the field of inorganic composites are also introduced.Finally,the problems and development prospects of sugarcane bagasse application in the field of composites materials are pointed out.
引文
[1]Bilba K,Arsène M. Silane treatment of bagasse fibre for reinforcement of cementitious composites[J]. Composites Part A:Applied Science and Manufacturing,2008,39(9):1488-1495.
[2]屈冬玉.中国农业统计资料[M].北京:中国农业出版社,2014:52.
[3]Huang Z Q,Wang N,Zhang Y J,et al. Effect of mechanical activation pretreatment on the properties of sugarcane bagasse/poly(vinyl chloride)composites[J]. Composites Part A:Applied Science and Manufacturing,2012,43(1):114-120.
[4]Effah B,Reenen A V,Meincken M.Mechanical properties of woodplastic composites made from various wood species[J]. European Journal of Wood and Wood Products,2018,76(1):57-68.
[5]Tita S P S,Medeiros R,Tarpani J R,et al.Chemical modification of sugarcane bagasse and sisal fibers using hydroxymethylated lignin:Influence on impact strength and water absorption of phenolic composites[J]. Journal of Composite Materials,2018,52(20):2743-2753.
[6]Rodrigues E F,Maia T F,Mulinari D R. Tensile strength of polyester resin reinforced sugarcane bagasse fibers modified by estherification[J].Procedia Engineering,2011,10:2348-2352.
[7]Mulinari D R,Voorwald H,Cioffi M O,et al.Preparation and properties of HDPE/sugarcane bagasse cellulose composites obtained for thermokinetic mixer[J]. Carbohydrate Polymers,2009,75(2):317-321.
[8]Kaseem M.Properties and medical applications of polylactic acid:A review[J].Express Polymer Letters,2015,9(5):435-455.
[9]Gigli M,Fabbri M,Lotti N,et al.Poly(butylene succinate)-based polyesters for biomedical applications:A review[J].European Polymer Journal,2016,75:431-460.
[10]Tserki V,Matzinos P,Pavlidou E,et al.Biodegradable aliphatic polyesters. PartⅠ. Properties and biodegradation of poly(butylene succinate-co-butylene adipate)[J]. Polymer Degradation and Stability,2006,91(2):367-376.
[11]赫超,张长远,季菁华.聚己二酸-对苯二甲酸丁二醇型生物可降解聚酯的合成与交联改性研究[J].化学世界,2018,59(3):154-159.
[12]卞士祥,王闻,周桂雄,等.生物合成聚羟基脂肪酸酯(PHA)的研究进展[J].新能源进展,2016,4(6):436-442.
[13]冯彦洪,沈寒知,翟近平,等.PLA/蔗渣复合材料的制备及其性能的研究[J].塑料工业,2010,38(1):25-28.
[14]洪浩群,郭权南,邱楚濠,等.甘蔗渣显微结构对聚乳酸/甘蔗渣复合材料结构与性能的影响[J].材料导报,2018,32(S1):220-225.
[15]盛雨峰,温变英,李晓媛,等.蔗渣纤维表面处理方法对蔗渣纤维/聚乳酸复合材料力学性能的影响[J].复合材料学报,2012,29(6):60-65.
[16]Soykeabkaew N,Thanomsilp C,Suwantong O. A review:Starchbased composite foams[J].Composites Part A:Applied Science and Manufacturing,2015,78:246-263.
[17]Vallejos M,Curvelo A,Teixeira E,et al. Composite materials of thermoplastic starch and fibers from the ethanol-water fractionation of bagasse[J]. Industrial Crops and Products,2011,33(3):739-746.
[18]Tirado P,Blcido D R,Siche R.Influence of proportion and size of sugarcane bagasse fiber on the properties of sweet potato starch foams[C].India:ICMAEM Press,2017.
[19]Frazao C,Barros J,Filho R T,et al.Development of sandwich panels combining sisal fiber-cement composites and fiber-reinforced lightweight concrete[J]. Cement and Concrete Composites,2018,86:206-223.
[20]Jiang D M,An P H,Cui S P,et al.Effect of leaf fiber modification methods on mechanical and heat-insulating properties of leaf fiber cement-based composite materials[J]. Journal of Building Engineering,2018,19:573-583.
[21]邹君,李庆春.蔗渣纤维增强水泥基复合材料的研究[J].轻纺工业与技术,2013,(1):1-3.
[22]Bilba K,Arsene M A,Ouensanga A.Sugar canebagasse fibre reinforced cement composites.PartⅠ.Influence of the botanical components of bagasse on the setting of bagasse/cement composite[J].Cement&Concrete Composites,2003,25(1):91-96.
[23]Onésippe C,Coutrin N,Toro F,et al.Sugarcane bagasse fibres reinforced cement composites:Thermal considerations[J]. Composites Part A:Applied Science and Manufacturing,2010,41(4):549-556.
[24]Bilba K,Arsene M A.Silane treatment of bagasse fiber for reinforcement of cementitious composites[J]. Composites Part A:Applied Science and Manufacturing,2008,39(9):1488-1495.
[25]Sayed M A,Samni T M. Physical and chemical properties of rice straw ash and its effect on the cement paste produced from different cement types[J].Journal of King Saud University-Engineering Sciences,2006,19(1):21-29.
[26]米铁,陈汉平,吴正舜,等.生物质灰化学特性的研究[J].太阳能学报,2004,(2):236-241.
[27]Zareei S A,Ameri F,Bahrami N.Microstructure,strength,and durability of eco-friendly concretes containing sugarcane bagasse ash[J].Construction and Building Materials,2018,184:258-268.
[28]Rajasekar A,Arunachalam K,Kottaisamy M,et al.Durability characteristics of ultra high strength concrete with treated sugarcane bagasse ash[J].Construction and Building Materials,2018,171:350-356.
[29]Rafael A R,Pedro M G,Jacobo M R,et al.The use of sugarcane bagasse ash and lime to improve the durability and mechanical properties of compacted soil blocks[J].Construction and Building Materials,2012,34:296-305.
[30]Souza A E,Teixeira S R,Santos G T,et al.Reuse of sugarcane bagasse ash(SCBA)to produce ceramic materials[J].Journal of Environmental Management,2011,92(10):2774-2780.
[2]屈冬玉.中国农业统计资料[M].北京:中国农业出版社,2014:52.
[3]Huang Z Q,Wang N,Zhang Y J,et al. Effect of mechanical activation pretreatment on the properties of sugarcane bagasse/poly(vinyl chloride)composites[J]. Composites Part A:Applied Science and Manufacturing,2012,43(1):114-120.
[4]Effah B,Reenen A V,Meincken M.Mechanical properties of woodplastic composites made from various wood species[J]. European Journal of Wood and Wood Products,2018,76(1):57-68.
[5]Tita S P S,Medeiros R,Tarpani J R,et al.Chemical modification of sugarcane bagasse and sisal fibers using hydroxymethylated lignin:Influence on impact strength and water absorption of phenolic composites[J]. Journal of Composite Materials,2018,52(20):2743-2753.
[6]Rodrigues E F,Maia T F,Mulinari D R. Tensile strength of polyester resin reinforced sugarcane bagasse fibers modified by estherification[J].Procedia Engineering,2011,10:2348-2352.
[7]Mulinari D R,Voorwald H,Cioffi M O,et al.Preparation and properties of HDPE/sugarcane bagasse cellulose composites obtained for thermokinetic mixer[J]. Carbohydrate Polymers,2009,75(2):317-321.
[8]Kaseem M.Properties and medical applications of polylactic acid:A review[J].Express Polymer Letters,2015,9(5):435-455.
[9]Gigli M,Fabbri M,Lotti N,et al.Poly(butylene succinate)-based polyesters for biomedical applications:A review[J].European Polymer Journal,2016,75:431-460.
[10]Tserki V,Matzinos P,Pavlidou E,et al.Biodegradable aliphatic polyesters. PartⅠ. Properties and biodegradation of poly(butylene succinate-co-butylene adipate)[J]. Polymer Degradation and Stability,2006,91(2):367-376.
[11]赫超,张长远,季菁华.聚己二酸-对苯二甲酸丁二醇型生物可降解聚酯的合成与交联改性研究[J].化学世界,2018,59(3):154-159.
[12]卞士祥,王闻,周桂雄,等.生物合成聚羟基脂肪酸酯(PHA)的研究进展[J].新能源进展,2016,4(6):436-442.
[13]冯彦洪,沈寒知,翟近平,等.PLA/蔗渣复合材料的制备及其性能的研究[J].塑料工业,2010,38(1):25-28.
[14]洪浩群,郭权南,邱楚濠,等.甘蔗渣显微结构对聚乳酸/甘蔗渣复合材料结构与性能的影响[J].材料导报,2018,32(S1):220-225.
[15]盛雨峰,温变英,李晓媛,等.蔗渣纤维表面处理方法对蔗渣纤维/聚乳酸复合材料力学性能的影响[J].复合材料学报,2012,29(6):60-65.
[16]Soykeabkaew N,Thanomsilp C,Suwantong O. A review:Starchbased composite foams[J].Composites Part A:Applied Science and Manufacturing,2015,78:246-263.
[17]Vallejos M,Curvelo A,Teixeira E,et al. Composite materials of thermoplastic starch and fibers from the ethanol-water fractionation of bagasse[J]. Industrial Crops and Products,2011,33(3):739-746.
[18]Tirado P,Blcido D R,Siche R.Influence of proportion and size of sugarcane bagasse fiber on the properties of sweet potato starch foams[C].India:ICMAEM Press,2017.
[19]Frazao C,Barros J,Filho R T,et al.Development of sandwich panels combining sisal fiber-cement composites and fiber-reinforced lightweight concrete[J]. Cement and Concrete Composites,2018,86:206-223.
[20]Jiang D M,An P H,Cui S P,et al.Effect of leaf fiber modification methods on mechanical and heat-insulating properties of leaf fiber cement-based composite materials[J]. Journal of Building Engineering,2018,19:573-583.
[21]邹君,李庆春.蔗渣纤维增强水泥基复合材料的研究[J].轻纺工业与技术,2013,(1):1-3.
[22]Bilba K,Arsene M A,Ouensanga A.Sugar canebagasse fibre reinforced cement composites.PartⅠ.Influence of the botanical components of bagasse on the setting of bagasse/cement composite[J].Cement&Concrete Composites,2003,25(1):91-96.
[23]Onésippe C,Coutrin N,Toro F,et al.Sugarcane bagasse fibres reinforced cement composites:Thermal considerations[J]. Composites Part A:Applied Science and Manufacturing,2010,41(4):549-556.
[24]Bilba K,Arsene M A.Silane treatment of bagasse fiber for reinforcement of cementitious composites[J]. Composites Part A:Applied Science and Manufacturing,2008,39(9):1488-1495.
[25]Sayed M A,Samni T M. Physical and chemical properties of rice straw ash and its effect on the cement paste produced from different cement types[J].Journal of King Saud University-Engineering Sciences,2006,19(1):21-29.
[26]米铁,陈汉平,吴正舜,等.生物质灰化学特性的研究[J].太阳能学报,2004,(2):236-241.
[27]Zareei S A,Ameri F,Bahrami N.Microstructure,strength,and durability of eco-friendly concretes containing sugarcane bagasse ash[J].Construction and Building Materials,2018,184:258-268.
[28]Rajasekar A,Arunachalam K,Kottaisamy M,et al.Durability characteristics of ultra high strength concrete with treated sugarcane bagasse ash[J].Construction and Building Materials,2018,171:350-356.
[29]Rafael A R,Pedro M G,Jacobo M R,et al.The use of sugarcane bagasse ash and lime to improve the durability and mechanical properties of compacted soil blocks[J].Construction and Building Materials,2012,34:296-305.
[30]Souza A E,Teixeira S R,Santos G T,et al.Reuse of sugarcane bagasse ash(SCBA)to produce ceramic materials[J].Journal of Environmental Management,2011,92(10):2774-2780.