水泥基多孔吸声材料的研究
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摘要
本文介绍了水泥基多孔吸声材料的主要性能评价参数及其作用机理,综述了国内外水泥基多孔吸声材料的研究现状,从材料组成和结构构造两方面论述了水泥基多孔吸声材料的性能及影响因素,并提出了未来的研究发展方向,水泥基多孔吸声材料具有优异的声学特性和力学性能,在降噪工程中有着广阔的应用前景。
In this paper,the main performance evaluation parameters and mechanism of cement-based porous sound absorbing materials have been researched.The research status of cement-based porous sound absorbing materials between domestic and abroad is introduced.The properties and influencing factors of cement-based porous sound absorbing materials are discussed from two aspects:material composition and structure,and proposed its future research direction.Because cement-based porous sound absorbing materials has excellent acoustic and mechanical properties,it has broad application prospects in noise reduction engineering.
In this paper,the main performance evaluation parameters and mechanism of cement-based porous sound absorbing materials have been researched.The research status of cement-based porous sound absorbing materials between domestic and abroad is introduced.The properties and influencing factors of cement-based porous sound absorbing materials are discussed from two aspects:material composition and structure,and proposed its future research direction.Because cement-based porous sound absorbing materials has excellent acoustic and mechanical properties,it has broad application prospects in noise reduction engineering.
引文
[1]Peng L.Sound absorption and insulation functional composites[M].Advanced High Strength Natural Fibre Composites in Construction,2017.
[2]Knabben RM,Trichês G,Gerges SNY,Vergara EF.Evaluation of sound absorption capacity of asphalt mixtures[J].Applied Acoustics,2016,114:266-274.
[3]苑改红,王宪成.吸声材料研究现状与展望[J].机械工程师,2006(6):17-19.
[4]马大猷.声学手册-第2版[M].北京:科学出版社,2004.
[5]钟祥璋.建筑吸声材料与隔声材料[M].北京:化学工业出版社,2005.
[6]Wu H,Zhang T.Sintering-free preparation of porous ceramsite using low-temperature decomposing pore former and its sound-absorbing performance[J].Construction and Building Materials,2018,171(36):367-376.
[7]Kim HK,Lee HK.Acoustic absorption modeling of porous concrete considering the gradation and shape of aggregates and void ratio[J].Journal of Sound&Vibration,2010,329(7):866-879.
[8]Holmes N,Browne A,Montague C.Acoustic properties of concrete panels with crumb rubber as a fine aggregate replacement[J].Construction&Building Materials,2014,73(43):195-204.
[9]Arenas C,Leiva C,Vilches LF,Cifuentes H.Use of co-combustion bottom ash to design an acoustic absorbing material for highway noise barriers[J].Waste Manag,2013,33(11):2316-2321.
[10]Arenas C,Leiva C,Vilches LF,Cifuentes H,Rodriguez-Galan M.Technical specifications for highway noise barriers made of coal bottom ash-based sound absorbing concrete[J].Construction&Building Materials,2015,95(41):585-591.
[11]Va觢ina M,Hughes DC,Horoshenkov KV,Lapcik J L.The acoustical properties of consolidated expanded clay granulates[J].Applied Acoustics,2006,67(8):787-796.
[12]Park SB,Seo DS,Lee J.Studies on the sound absorption characteristics of porous concrete based on the content of recycled aggregate and target void ratio[J].Cement&Concrete Research,2005,35(9):1846-1854.
[13]朱洪波,张浩立,柳献.多孔性水泥-聚苯颗粒材料的吸声性能研究[J].材料科学与工艺,2014,22(3):23-27.
[14]Tiwari V,Shukla A,Bose A.Acoustic properties of cenosphere reinforced cement and asphalt concrete[J].Applied Acoustics,2004,65(3):263-275.
[15]Yilmazer S,Ozdeniz MB.The effect of moisture content on sound absorption of expanded perlite plates[J].Building&Environment,2005,40(3):311-318.
[16]Medina NF,Flores-Medina D,Hernández-Olivares F.Influence of fibers partially coated with rubber from tire recycling as aggregate on the acoustical properties of rubberized concrete[J].Construction&Building Materials,2016,129(21):25-36.
[17]Witterick S.Sound Insulation,Carl Hopkins.ButterworthHeinemann,Oxford,UK(2007):648pp.55.99,ISBN:978-0-7506-6526-1[J].Journal of Sound&Vibration,2011,330(15):3783-3783.
[18]Sukontasukkul P.Use of crumb rubber to improve thermal and sound properties of pre-cast concrete panel[J].Construction&Building Materials,2009,23(2):1084-1092.
[19]Chen PH,Chung DDL.Mechanical Energy Dissipation Using Cement-Based Materials with Admixtures[J].Aci Materials Journal,2013,110(3):279-289.
[20]Shokoohi S,Arefazar A,Khosrokhavar R.Silane Coupling A-gents in Polymer-based Reinforced Composites:A Review[J].Journal of Reinforced Plastics&Composites,2008,27(5):473-485.
[21]Chen Y,Yu QL,Brouwers HJH.Acoustic performance and microstructural analysis of bio-based lightweight concrete containing miscanthus[J].Construction&Building Materials,2017,157(33):839-851.
[22]张晔,楚珑晟,左孔成.纤维对硅酸盐基多孔材料吸声性能的影响[J].材料导报,2010,24(s1):372-374.
[23]Yang S,Yu WD,Pan N.Investigation of the sound-absorbing behavior of fiber assemblies[J].Textile Research Journal,2011,81(7):673-682.
[24]Neithalath N,Weiss J,Olek J.Acoustic performance and damping behavior of cellulose-cement composites[J].Cement&Concrete Composites,2004,26(4):359-370.
[25]Sychova A,Sychov M,Rusanova E.A Method of Obtaining Geonoiseprotective Foam Concrete for Use on Railway Transport[J].Procedia Engineering,2017,189(39):681-687.
[26]Sakharova A,Svatovskaya L,Baidarashvili M,Petriaev A.Sustainable Development in Transport Construction through the Use of the Geoecoprotective Technologies[J].Procedia Engineering,2016,143:1401-1408.
[27]谢辉,刘俊超,侯淑婧.碱矿渣泡沫混凝土的吸声性能试验研究[J].硅酸盐通报,2017,36(8):2775-2780.
[28]Mastali M,Kinnunen P,Isomoisio H,Karhu M,Illikainen M.Mechanical and acoustic properties of fiber-reinforced alkali-activated slag foam concretes containing lightweight structural aggregates[J].Construction and Building Materials,2018,187(40):371-381.
[29]Kim H,Hong J,Pyo S.Acoustic characteristics of sound absorbable high performance concrete[J].Applied Acoustics,2018,138(30):171-178.
[30]余海燕,王武祥,姚燕.水泥基吸声材料的研究[J].混凝土与水泥制品,2006(1):46-48.
[31]水中和,李跃,彭显莉.吸声材料构造形式对吸声效果的影响[J].武汉理工大学学报,2003,25(12):89-91.
[32]Chen PH,Xu C,Chung DDL.Sound absorption enhancement using solid-solid interfaces in a non-porous cement-based structural material[J].Composites Part B,2016,95:453-461.
[33]Carbajo J,Esquerdo-Lloret TV,Ramis J,Nadal-Gisbert AV,Denia FD.Acoustic modeling of perforated concrete using the dual porosity theory[J].Applied Acoustics,2017,115:150-157.
[34]Olny X,Boutin C.Acoustic wave propagation in double porosity media[J].Journal of the Acoustical Society of America,2003,114(1):73-89.
[35]全明,李玉香.水泥基吸声材料多孔与穿孔结构的吸声性能研究[J].新型建筑材料,2017,44(11):67-70.
[36]Rutkevi觬ius M,Mehl GH,Paunov VN,Qin Q,Rubini PA,Stoyanov SD,Petkov J.Sound absorption properties of porous composites fabricated by a hydrogel templating technique[J].Journal of Materials Research,2013,28(17):2409-2414.
[37]李青,酆磊,朱万旭.新型多孔水泥基陶粒吸声材料的性能分析[J].科学技术与工程,2017,17(1):103-107.
[38]Kim HK,Lee HK.Influence of cement flow and aggregate type on the mechanical and acoustic characteristics of porous concrete[J].Applied Acoustics,2010,71(7):607-615.
[2]Knabben RM,Trichês G,Gerges SNY,Vergara EF.Evaluation of sound absorption capacity of asphalt mixtures[J].Applied Acoustics,2016,114:266-274.
[3]苑改红,王宪成.吸声材料研究现状与展望[J].机械工程师,2006(6):17-19.
[4]马大猷.声学手册-第2版[M].北京:科学出版社,2004.
[5]钟祥璋.建筑吸声材料与隔声材料[M].北京:化学工业出版社,2005.
[6]Wu H,Zhang T.Sintering-free preparation of porous ceramsite using low-temperature decomposing pore former and its sound-absorbing performance[J].Construction and Building Materials,2018,171(36):367-376.
[7]Kim HK,Lee HK.Acoustic absorption modeling of porous concrete considering the gradation and shape of aggregates and void ratio[J].Journal of Sound&Vibration,2010,329(7):866-879.
[8]Holmes N,Browne A,Montague C.Acoustic properties of concrete panels with crumb rubber as a fine aggregate replacement[J].Construction&Building Materials,2014,73(43):195-204.
[9]Arenas C,Leiva C,Vilches LF,Cifuentes H.Use of co-combustion bottom ash to design an acoustic absorbing material for highway noise barriers[J].Waste Manag,2013,33(11):2316-2321.
[10]Arenas C,Leiva C,Vilches LF,Cifuentes H,Rodriguez-Galan M.Technical specifications for highway noise barriers made of coal bottom ash-based sound absorbing concrete[J].Construction&Building Materials,2015,95(41):585-591.
[11]Va觢ina M,Hughes DC,Horoshenkov KV,Lapcik J L.The acoustical properties of consolidated expanded clay granulates[J].Applied Acoustics,2006,67(8):787-796.
[12]Park SB,Seo DS,Lee J.Studies on the sound absorption characteristics of porous concrete based on the content of recycled aggregate and target void ratio[J].Cement&Concrete Research,2005,35(9):1846-1854.
[13]朱洪波,张浩立,柳献.多孔性水泥-聚苯颗粒材料的吸声性能研究[J].材料科学与工艺,2014,22(3):23-27.
[14]Tiwari V,Shukla A,Bose A.Acoustic properties of cenosphere reinforced cement and asphalt concrete[J].Applied Acoustics,2004,65(3):263-275.
[15]Yilmazer S,Ozdeniz MB.The effect of moisture content on sound absorption of expanded perlite plates[J].Building&Environment,2005,40(3):311-318.
[16]Medina NF,Flores-Medina D,Hernández-Olivares F.Influence of fibers partially coated with rubber from tire recycling as aggregate on the acoustical properties of rubberized concrete[J].Construction&Building Materials,2016,129(21):25-36.
[17]Witterick S.Sound Insulation,Carl Hopkins.ButterworthHeinemann,Oxford,UK(2007):648pp.55.99,ISBN:978-0-7506-6526-1[J].Journal of Sound&Vibration,2011,330(15):3783-3783.
[18]Sukontasukkul P.Use of crumb rubber to improve thermal and sound properties of pre-cast concrete panel[J].Construction&Building Materials,2009,23(2):1084-1092.
[19]Chen PH,Chung DDL.Mechanical Energy Dissipation Using Cement-Based Materials with Admixtures[J].Aci Materials Journal,2013,110(3):279-289.
[20]Shokoohi S,Arefazar A,Khosrokhavar R.Silane Coupling A-gents in Polymer-based Reinforced Composites:A Review[J].Journal of Reinforced Plastics&Composites,2008,27(5):473-485.
[21]Chen Y,Yu QL,Brouwers HJH.Acoustic performance and microstructural analysis of bio-based lightweight concrete containing miscanthus[J].Construction&Building Materials,2017,157(33):839-851.
[22]张晔,楚珑晟,左孔成.纤维对硅酸盐基多孔材料吸声性能的影响[J].材料导报,2010,24(s1):372-374.
[23]Yang S,Yu WD,Pan N.Investigation of the sound-absorbing behavior of fiber assemblies[J].Textile Research Journal,2011,81(7):673-682.
[24]Neithalath N,Weiss J,Olek J.Acoustic performance and damping behavior of cellulose-cement composites[J].Cement&Concrete Composites,2004,26(4):359-370.
[25]Sychova A,Sychov M,Rusanova E.A Method of Obtaining Geonoiseprotective Foam Concrete for Use on Railway Transport[J].Procedia Engineering,2017,189(39):681-687.
[26]Sakharova A,Svatovskaya L,Baidarashvili M,Petriaev A.Sustainable Development in Transport Construction through the Use of the Geoecoprotective Technologies[J].Procedia Engineering,2016,143:1401-1408.
[27]谢辉,刘俊超,侯淑婧.碱矿渣泡沫混凝土的吸声性能试验研究[J].硅酸盐通报,2017,36(8):2775-2780.
[28]Mastali M,Kinnunen P,Isomoisio H,Karhu M,Illikainen M.Mechanical and acoustic properties of fiber-reinforced alkali-activated slag foam concretes containing lightweight structural aggregates[J].Construction and Building Materials,2018,187(40):371-381.
[29]Kim H,Hong J,Pyo S.Acoustic characteristics of sound absorbable high performance concrete[J].Applied Acoustics,2018,138(30):171-178.
[30]余海燕,王武祥,姚燕.水泥基吸声材料的研究[J].混凝土与水泥制品,2006(1):46-48.
[31]水中和,李跃,彭显莉.吸声材料构造形式对吸声效果的影响[J].武汉理工大学学报,2003,25(12):89-91.
[32]Chen PH,Xu C,Chung DDL.Sound absorption enhancement using solid-solid interfaces in a non-porous cement-based structural material[J].Composites Part B,2016,95:453-461.
[33]Carbajo J,Esquerdo-Lloret TV,Ramis J,Nadal-Gisbert AV,Denia FD.Acoustic modeling of perforated concrete using the dual porosity theory[J].Applied Acoustics,2017,115:150-157.
[34]Olny X,Boutin C.Acoustic wave propagation in double porosity media[J].Journal of the Acoustical Society of America,2003,114(1):73-89.
[35]全明,李玉香.水泥基吸声材料多孔与穿孔结构的吸声性能研究[J].新型建筑材料,2017,44(11):67-70.
[36]Rutkevi觬ius M,Mehl GH,Paunov VN,Qin Q,Rubini PA,Stoyanov SD,Petkov J.Sound absorption properties of porous composites fabricated by a hydrogel templating technique[J].Journal of Materials Research,2013,28(17):2409-2414.
[37]李青,酆磊,朱万旭.新型多孔水泥基陶粒吸声材料的性能分析[J].科学技术与工程,2017,17(1):103-107.
[38]Kim HK,Lee HK.Influence of cement flow and aggregate type on the mechanical and acoustic characteristics of porous concrete[J].Applied Acoustics,2010,71(7):607-615.