基于提高漫反射系数的隧道蓄光反光材料施工工艺试验研究
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- 英文论文题名:Experimental Study on the Construction Technology of Light-Storing Reflective Material in Tunnels Based on Improving the Diffuse Reflection Coefficient
- 论文作者:崔璐璐 ; 何伟 ; 党晓宇 ; 梁波 ; 何世永
- 英文论文作者:CUI Lulu ; HE Wei ; DANG Xiaoyu ; LIANG Bo ; HE Shiyong ; School of Civil Engineering and Architecture ; Chongqing Jiaotong University ; State Key Laboratory Breeding Base of Mountain Bridge and Tunnel Engineering ; Chongqing Jiaotong University ; Sichuan College of Architectural Technology ; Gansu Provincial Communications Planning Survey and Design Institute Co. ; Ltd
- 年:2016
- 作者机构:重庆交通大学土木工程学院;重庆交通大学山区桥梁与隧道工程国家重点实验室培育基地;四川建筑职业技术学院;甘肃省交通规划勘察设计院股份有限公司;
- 论文关键词:隧道工程 ; 蓄光反光材料 ; 施工工艺 ; 无气喷涂 ; 漫反射系数
- 英文论文关键词:Tunnel engineering ; Light-storing reflective material ; Construction technology ; Airless spraying ; Diffuse reflection coefficient
- 会议召开时间:2016-10-24
- 会议录名称:2016中国隧道与地下工程大会(CTUC)暨中国土木工程学会隧道及地下工程分会第十九届年会论文集
- 语种:中文
- 分类号:U453.7
- 学会代码:OGTY
- 会议名称:2016中国隧道与地下工程大会(CTUC)暨中国土木工程学会隧道及地下工程分会第十九届年会
- 会议地点:中国四川成都
- 主办单位:中国土木工程学会隧道及地下工程分会
- 学会名称:中国土木工程学会
- 页数:8
- 文件大小:2741k
- 原文格式:O
- 会议级别:全国
摘要
本文通过对目前国内常用的滚涂、有气喷涂以及无气喷涂三种涂布工艺的对比分析,开展了隧道蓄光反光材料无气喷涂漫反射系数试验,系统研究了蓄光反光材料漫反射系数的主要影响因素,研究得出蓄光反光材料的漫反射性能影响因素主要有三个:是否喷涂底漆、蓄光反光材料配比以及底材类型。其中底漆对提高涂料漫反射系数贡献最大,同种施工工艺和工况下可以提高涂料漫反射系数33%左右;提高蓄光反光材料的配比对材料漫反射性能增效也较为明显;底材类型对于其对涂料漫反射系数的提高不足1%,增效极为有限。本研究成果可以为隧道蓄光反光材料的施工和应用提供了指导和借鉴作用。
In this paper,based on comparison and analysis of the currently domestic used roll,contrasting air spraying and airless spraying,airless spraying test on diffuse reflection coefficient of the Light-storing reflective material in tunnel was carried out and the main factors influencing diffuse reflection coefficient of the Light-storing reflective material were studied systematically.Research shows that there are three main influencing factors on the diffuse reflection coefficient of the Light-storing reflective material:whether to spray primer,the proportion of the Lightstoring reflective material and the type of base material.Among them,the contribution of the primer to improving the diffuse reflection coefficient is the maximum and the diffuse reflection coefficient can be improved by about 33%under the same construction technology and working conditions.Secondly,the increase of the proportion of the Lightstoring reflective material is more obvious to the diffuse reflection of the material,but that of the type of base material is less than 1%,of which the efficiency is extremely limited.Research Results will provide guidance and reference for the construction and application of the Light-storing reflective material in tunnel.
In this paper,based on comparison and analysis of the currently domestic used roll,contrasting air spraying and airless spraying,airless spraying test on diffuse reflection coefficient of the Light-storing reflective material in tunnel was carried out and the main factors influencing diffuse reflection coefficient of the Light-storing reflective material were studied systematically.Research shows that there are three main influencing factors on the diffuse reflection coefficient of the Light-storing reflective material:whether to spray primer,the proportion of the Lightstoring reflective material and the type of base material.Among them,the contribution of the primer to improving the diffuse reflection coefficient is the maximum and the diffuse reflection coefficient can be improved by about 33%under the same construction technology and working conditions.Secondly,the increase of the proportion of the Lightstoring reflective material is more obvious to the diffuse reflection of the material,but that of the type of base material is less than 1%,of which the efficiency is extremely limited.Research Results will provide guidance and reference for the construction and application of the Light-storing reflective material in tunnel.
引文
[1]招商局重庆交通科研设计院有限公司.JTG/T D70/2-01-2014公路隧道照明设计细则[S].北京:人民交通出版社,2014.JTG/T D70/2-01-2014Guidelines for Design of Lighting of Highway Tunnels[S].Beijing:China Communications Press,2014.
[2]梁波,崔璐璐,潘国兵,等.基于反光蓄光理念的辅助隧道节能照明理论与技术[J].现代隧道技术,2014,51(5):15-22.LIANG Bo,CUI Lulu,PAN Guobing,et al.Auxiliary Tunnel Lighting Technology Based on the Light Reflection and Energy Storage Concept[J].Modern Tunnelling Technology,2014,51(5):15-22.
[3]梁波,何世永,潘国兵,等.基于新型内装材料的公路隧道行车安全研究[J].现代隧道技术.2015,52(2):16-21.LIANG Bo,HE Shiyong,PAN Guobing,et al.Study of Driving Safety in a Highway Tunnel with New Interior Applied Materials[J].Modern Tunnelling Technology,2015,52(2):16-21.
[4]潘国兵,梁波,皮宇航,等.隧道侧壁内装材料的照明节能[J].公路交通科技.2012,29(9):103-109.PAN Guobing,LIANG Bo,PI Yuhang,et al.Lighting Energy Saving of Tunnel Sidewall Interior Materials[J].Journal of Highway and Transportation Research and Development,2012,29(9):103-109.
[5]梁治齐,熊楚才.涂料喷涂工艺与技术[M].北京:化学工业出版社,2006.LIANG Zhiji,XIONG Chucai.Paint spraying process and technology[M].Beijing:Chemical Industry Press,2006.
[6]ARTHUR A,TRACTION.Coation Technology Handbook[M].New.York:Dekker CRC Press,2005.
[7]王譞.高压无气喷涂质量控制试验研究[D].南京理工大学,2012.WANG xuan.Experimental study on high pressure airless spray quality control[D].Nanjing University of Science and Technology,2012.
[8]张益铮,刘元强,张书景,等.混气喷涂改善作业环境的实验研究[J].中国安全生产科学技术,2014,(4):189-192.ZHANG Yizheng,LIU Yuanqiang,ZHANG Shujing,et al.Experimental research on improving working environment by air-mix technology[J].Journal of Safety Science and Technology,2014,(4):189-192.
[9]LI X.On the Instability of Plane Liquid Sheets in Two Gas Streams of UnequalVelocities[J].ActaMechanica,1994,(106):137-156.
[10]MANSOUR A,CHIGIER N A.Disintegration of Liquid Sheets[J].Physics of Fluids A,1990,(2):706-719.
[11]CAO J.Theoretical and Experimental Study of Atomization from an Annular Liquid Sheet[J].Proc.Instn.Mech.Engrs.Part D:J.of Automobile Engineering.2003,217(D8):735-743.
[12]成亚君.涂料喷涂的常见漆膜缺陷及成因[J].上海涂料,2012,(10):42-45.CHENG Yajun.[J],Shanghai Coatings,Common film defectsand causes of paint sprayed,2012,(10):42-45.
[13]覃万云.玻璃钢船艇涂料喷涂工艺研究[J].现代涂料与涂装,2011,(2):63-65.TAN Wanyun.Study on Paint-spraying Process of GFRP Boats Coatings[J].Modern Paint&Finishing,2011,(2):63-65.
[2]梁波,崔璐璐,潘国兵,等.基于反光蓄光理念的辅助隧道节能照明理论与技术[J].现代隧道技术,2014,51(5):15-22.LIANG Bo,CUI Lulu,PAN Guobing,et al.Auxiliary Tunnel Lighting Technology Based on the Light Reflection and Energy Storage Concept[J].Modern Tunnelling Technology,2014,51(5):15-22.
[3]梁波,何世永,潘国兵,等.基于新型内装材料的公路隧道行车安全研究[J].现代隧道技术.2015,52(2):16-21.LIANG Bo,HE Shiyong,PAN Guobing,et al.Study of Driving Safety in a Highway Tunnel with New Interior Applied Materials[J].Modern Tunnelling Technology,2015,52(2):16-21.
[4]潘国兵,梁波,皮宇航,等.隧道侧壁内装材料的照明节能[J].公路交通科技.2012,29(9):103-109.PAN Guobing,LIANG Bo,PI Yuhang,et al.Lighting Energy Saving of Tunnel Sidewall Interior Materials[J].Journal of Highway and Transportation Research and Development,2012,29(9):103-109.
[5]梁治齐,熊楚才.涂料喷涂工艺与技术[M].北京:化学工业出版社,2006.LIANG Zhiji,XIONG Chucai.Paint spraying process and technology[M].Beijing:Chemical Industry Press,2006.
[6]ARTHUR A,TRACTION.Coation Technology Handbook[M].New.York:Dekker CRC Press,2005.
[7]王譞.高压无气喷涂质量控制试验研究[D].南京理工大学,2012.WANG xuan.Experimental study on high pressure airless spray quality control[D].Nanjing University of Science and Technology,2012.
[8]张益铮,刘元强,张书景,等.混气喷涂改善作业环境的实验研究[J].中国安全生产科学技术,2014,(4):189-192.ZHANG Yizheng,LIU Yuanqiang,ZHANG Shujing,et al.Experimental research on improving working environment by air-mix technology[J].Journal of Safety Science and Technology,2014,(4):189-192.
[9]LI X.On the Instability of Plane Liquid Sheets in Two Gas Streams of UnequalVelocities[J].ActaMechanica,1994,(106):137-156.
[10]MANSOUR A,CHIGIER N A.Disintegration of Liquid Sheets[J].Physics of Fluids A,1990,(2):706-719.
[11]CAO J.Theoretical and Experimental Study of Atomization from an Annular Liquid Sheet[J].Proc.Instn.Mech.Engrs.Part D:J.of Automobile Engineering.2003,217(D8):735-743.
[12]成亚君.涂料喷涂的常见漆膜缺陷及成因[J].上海涂料,2012,(10):42-45.CHENG Yajun.[J],Shanghai Coatings,Common film defectsand causes of paint sprayed,2012,(10):42-45.
[13]覃万云.玻璃钢船艇涂料喷涂工艺研究[J].现代涂料与涂装,2011,(2):63-65.TAN Wanyun.Study on Paint-spraying Process of GFRP Boats Coatings[J].Modern Paint&Finishing,2011,(2):63-65.