真空玻璃用封接材料与封接技术
|
摘要
随着能源与环境问题的日益加剧,新型节能环保材料成为广泛关注的焦点。真空玻璃作为新一代节能玻璃,具有良好的隔热、隔声性能,决定其在节能环保领域有着广泛的用途。以真空玻璃用封接材料和封接技术为出发点,着重归纳总结低熔点玻璃材料和相关封接技术的研究进展,并简要介绍当前真空玻璃发展现状。结合当前研究中存在的不足,对真空玻璃未来的发展进行展望。优化新型环保无铅低熔点玻璃组成及性能,研发封接技术新方法、新工艺,提高封接质量、降低生产成本,将会成为真空玻璃未来研究的主要方向。
With increasingly serious energy and environmental problems,development of new energy saving products is critical to the modern society. As a new generation of energy-saving glass,vacuum glazing has excellent thermal and sound insulation properties which determined that it can be widely used in the field of energy conservation and environmental protection. The development of sealing materials and sealing technologies used for vacuum glazing was reviewed. Recently research progress of low-melting sealing glass materials and related sealing technologies was emphatically summarized,and the current development status of vacuum glazing was also outlined. To overcome these deficiencies in present researches,optimizing the composition and performance of new environmentally friendly lead-free lowmelting glass,developing new methods and processes for sealing technology,improving the package quality and reducing the production costs of vacuum glazing,are researched focus in the future.
With increasingly serious energy and environmental problems,development of new energy saving products is critical to the modern society. As a new generation of energy-saving glass,vacuum glazing has excellent thermal and sound insulation properties which determined that it can be widely used in the field of energy conservation and environmental protection. The development of sealing materials and sealing technologies used for vacuum glazing was reviewed. Recently research progress of low-melting sealing glass materials and related sealing technologies was emphatically summarized,and the current development status of vacuum glazing was also outlined. To overcome these deficiencies in present researches,optimizing the composition and performance of new environmentally friendly lead-free lowmelting glass,developing new methods and processes for sealing technology,improving the package quality and reducing the production costs of vacuum glazing,are researched focus in the future.
引文
[1]成惠峰,刑涛,吴云龙,等.新型真空玻璃设计与制备[J].武汉理工大学学报,2010,32(22):115-118.
[2]谭海军,张家祯,潘春跃.建筑节能材料综述[J].建筑节能,2009,37(5):49-53.
[3]汤小慧,林岩忠.真空玻璃的性能介绍[J].新型建筑材料,2006(63):63-64.
[4]刘甜甜,邸芳芳,唐健正.真空玻璃的性能优势[J].绿色建筑,2011(8):66-69.
[5]赵光.真空玻璃技术发展及优点[J].绿色建筑,2014(3):34-39.
[6]Zoller A.Hohle glasscheibe.German Patent Application.387655[P].1913.
[7]Robinson S J,Collins R E,Evacuated windows theory and practice[C].ISES Solar World Congress,Kobe,Japan,1989.
[8]Collins R E,Tang J Z.Transparent evacuated insulation[J].Solar Energy,1992(49):333-350.
[9]张兵,陈奇,宋鹂,等.含铅玻璃及其无铅化的研究[J].玻璃与搪瓷,2006,34(1):51-53.
[10]何峰,谭刚健,程金树.低熔点封接玻璃的研究现状与发展趋势[J].建材世界,2009,30(1):1-9.
[11]何鹏,郭伟,林铁松,等.绿色无铅低熔点封接玻璃研究进展[J].材料工程,2016,44(6):123-130.
[12]刘洪学,张计华,曾人杰.Pb O系玻璃的改进及Bi2O3系封接玻璃的研制[J].厦门大学学报(自然版),2006,45(6):812-815.
[13]蒋宗礼.低熔玻璃及其在彩色管制造工艺中的运用[J].真空电子技术,1990(5):7-20.
[14]华有杰,徐时清,赵士龙,等.V2O5-B2O3-Zn O-Te O2-Li2O系低熔点封接玻璃性能研究[J].光子学报,2008,37(1):160-163.
[15]李宏彦.V2O5-P2O5-Sb2O3-Bi2O3体系低熔点玻璃的结构及性质研究[D].北京:北京有色金属研究总院,2012.
[16]罗世永,陈萌,张新林,等.P2O5-B2O3-V2O5无铅低熔玻璃形成能力和结构[J].硅酸盐通报,2009,28(2):280-283.
[17]李静,谢朝晖,朱庆山,等.P2O5-V2O5-B2O3-Zn O系无铅低熔电子封接玻璃的性能[J].过程工程学报,2010,10(2):373-378.
[18]时磊艳,戴金辉,王方,等.V2O5-B2O3-Te O2体系低熔点玻璃形成规律及特性[J].材料导报,2011,25(18):364-366.
[19]王方.V2O5-Te O2-X体系低温封接玻璃的性能研究[D].青岛:中国海洋大学,2012.
[20]Morena R.Phosphate glasses as alternatives to Pb-based sealing frits[J].Journal of Non-crystalline Solids,2000,263:382-387.
[21]马占峰,李启甲,赵彦钊,等.Sn O-Zn O-P2O5玻璃部分热性质研究[J].玻璃与搪瓷,2005,33(5):5-9.
[22]沈健,李启甲,殷海荣,等.Sn O-Zn O-P2O5三元系统封接玻璃的研究[J].陕西科技大学学报,2003,21(6):30-33.
[23]赵偶.低温封接玻璃的研究[D].湖南:湖南大学,2007.
[24]李春丽,田良英,孙诗兵.R2O3对Sn O-Zn O-P2O5无铅玻璃性能影响[J].玻璃与搪瓷,2007,35(1):11-14.
[25]Shyu J J,Yeh C H.Formation and properties of Sn O-Mg O-P2O5glasses[J].Journal of Materials Science,2007,42(13):4772-4777.
[26]Shaaban E R,Shapaan M,Saddeek Y B.Structural and thermal stability criteria of Bi2O3-B2O3glasses[J].Journal of Physics:Condensed Matter,2008,20(15):155108.
[27]Becker P.Thermal and optical properties of glasses of the system Bi2O3-B2O3[J].Crystal Research and Technology,2003,38(1):74-82.
[28]Singh S P,Karmakar B.Synthesis and characterization of low softening point high Bi2O3glasses in the K2O-B2O3-Bi2O3system[J].Materials Characterization,2011,62(6):626-634.
[29]Qiao W,Chen P.Study on the properties of Bi2O3-B2O3-Ba O lead-free glass using in the electronic pastes[J].Glass Physics and Chemistry,2010,36(3):304-308.
[30]常明.Bi2O3-Zn O-B2O3低温无铅封接玻璃结构及性能研究[D].北京:中国建筑材料科学研究总院,2014.
[31]乔文杰.Bi2O3-B2O3-Ba O系无铅玻璃粉在电子浆料中的应用[D].上海:东华大学,2011.
[32]刘远平.低熔点铋酸盐封接玻璃的研究[D].杭州:中国计量学院,2013.
[33]王俊.Bi2O3-Zn O-B2O3系统低熔点玻璃封接性能的研究[D].湖北:武汉理工大学,2011.
[34]张平.真空玻璃封接用低熔点玻璃的制备及其性能研究[D].湖北:武汉理工大学,2017.
[35]唐健正,董镛.真空玻璃的边缘加热方法和采用该方法制造的真空玻璃.CN:200410029896.2[P].2004-04-01.
[36]李要辉,黄幼榕,王晋珍,等.钢化真空玻璃的封接方法、制备方法和钢化真空玻璃.中国:201310261362.1[P].2013-06-27.
[37]Fang Y,Hyde T J,Arya F,et al.Indium alloy-sealed vacuum glazing development and context[J].Renewable and Sustainable Energy Reviews,2014,37:480-501.
[38]刘小根,包亦望,万德田,等.具金属封边结构的真空玻璃及其制作方法.中国:201310060583.2[P].2013-03-26.
[39]兰迪V玻五大技术[Eb/OL],http://www.landvac.com/five.php.
[40]Rao R T,黄庆安,唐洁影.微系统封装基础[M].南京:东南大学出版社,2005.
[41]Tai-Ran Hsu.微机电系统封装[M].北京:清华大学出版社,2006.
[42]Shoji S,Kikuchi H,Torigoe H.Low-temperature anodic bonding using lithium aluminosilicate-β-quartz glass ceramic[J].Sensors and Actuators A:Physical,1998,64(1):95-100.
[43]常鹰,卢安贤.静电键合用微晶玻璃的研究[J].中南大学学报(自然科学版),2003,34(5):472-475.
[44]Huang Y,Cui Z,Gao X,et al.Lithium aluminosilicate glass-ceramic containing Na2O for low-temperature anodic bonding in microelectronic mechanical systems[J].Journal of Non-Crystalline Solids,2008,354(12-13):1407-1410.
[45]李宏,曹欣,程金树.阳极键合用微晶玻璃的热处理温度研究[J].玻璃与搪瓷,2007,35(4):1-5.
[46]李宏,曹欣,程金树.热处理时间对阳极键合用微晶玻璃性能的影响[J].武汉理工大学学报,2007,29(5):20-22.
[47]Li H,Du Y,Cheng J S,et al.Li2O-Al2O3-Si O2glass-ceramics used as anodic bonding materials[C].Key Engineering Materials.Trans.Tech.Publications,2008,368:1436-1438.
[48]李宏,章钊,王倩,等.阳极键合用Li2O-Al2O3-Si O2微晶玻璃电学性能[J].硅酸盐学报,2009,37(10):1735-1739.
[49]Xiong D,Li H,Cheng J.Electrical properties of R2O-Al2O3-Si O2glass-ceramics for anodic bonding[J].Journal of Materials Science:Materials in Electronics,2010,21(9):882-888.
[50]Xiong D,Cheng J,Li H,et al.Anodic bonding of glass-ceramics to stainless steel coated with intermediate Si O2layer[J].Microelectronic Engineering,2010,87(9):1741-1746.
[51]Cheng J,Xiong D,Li H,et al.Al-Si thin films assisted anodic bonding of R2O-Al2O3-Si O2glass-ceramics to stainless steel[J].Journal of Adhesion Science and Technology,2011,25(15):1925-1935.
[52]Xiong D,Li H,Cheng J.Surface and interface characterization of oxygen plasma activated anodic bonding of glass-ceramics to stainless steel[J].Microelectronics Reliability,2012,52(7):1367-1372.
[53]卢佳.真空玻璃阳极键合密封技术研究[D].黑龙江:哈尔滨工业大学,2008.
[54]李宏,张平,卓永.一种真空玻璃封接用低熔点玻璃粉及其阳极键合增强封装方法.中国:201810305866.1[P].2018-04-09.
[55]李宏,陈鹏,熊德华.一种用于真空玻璃封装的阳极键合方法及装置.中国:201810306534.5[P].2018-04-09.
[56]唐健正,许威.真空玻璃产业化现状[C].2015年全国玻璃科学技术年会,江苏,2015:56-61.
[57]Cuce E,Cuce P M.Vacuum glazing for highly insulating windows:recent developments and future prospects[J].Renewable and Sustainable Energy Reviews,2016,54:1345-1357.
[58]蒋毅.真空玻璃在绿色建筑中的应用[J].绿色建筑,2011(6):21-22.
[59]Nippon Sheet Glass Spacia-SPACIA-21[Eb/OL].http://www.nsg-spacia.co.Jp
[60]Grzybowski R R,Harvey D R,Logunov S L,et al.Vacuum-insulated glass windows with glass-bump spacers.US:8821999[P].2014-9-2.
[61]北京新立基真空玻璃技术有限公司[Eb/OL].http://www.bjsng.com/
[62]Land Glass Technology Co.Ltd[Eb/OL].http://www.landvac.net/
[63]青岛亨达玻璃有限公司[Eb/OL].http://www.hd-glass.com/
[64]天津新沽上真空玻璃有限公司[Eb/OL].http://www.tjzkbl.com.cn/
[65]河南龙旺钢化真空玻璃有限公司[Eb/OL].http://www.lwvig.com
[66]鑫马真空玻璃[Eb/OL].http://www.hrbjmzb.com/
[67]唐健正.超级玻璃与超级真空玻璃[J].中国玻璃,2003,28(5):3-8.
[68]刘甜甜,侯玉芝,许威,等.真空玻璃应用于采光顶的结构研究[J].建筑节能,2016,44(4):65-68.
[69]Fang Y,Hyde T J,Hewitt N.Predicted thermal performance of triple vacuum glazing[J].Solar Energy,2010,84(12):2132-2139.
[70]Hill G R.Proposed demountable squash courts with glass walls[J].The Structural Engineer,1982,60(3):78-85.
[71]王秀芳,包亦望,邱岩,等.光伏真空玻璃组件的建筑一体化设计与应用[J].门窗,2010(7):48-50.
[72]侯玉芝.光伏真空玻璃在建筑节能中的应用[J].建筑节能,2014(10):55-58.
[2]谭海军,张家祯,潘春跃.建筑节能材料综述[J].建筑节能,2009,37(5):49-53.
[3]汤小慧,林岩忠.真空玻璃的性能介绍[J].新型建筑材料,2006(63):63-64.
[4]刘甜甜,邸芳芳,唐健正.真空玻璃的性能优势[J].绿色建筑,2011(8):66-69.
[5]赵光.真空玻璃技术发展及优点[J].绿色建筑,2014(3):34-39.
[6]Zoller A.Hohle glasscheibe.German Patent Application.387655[P].1913.
[7]Robinson S J,Collins R E,Evacuated windows theory and practice[C].ISES Solar World Congress,Kobe,Japan,1989.
[8]Collins R E,Tang J Z.Transparent evacuated insulation[J].Solar Energy,1992(49):333-350.
[9]张兵,陈奇,宋鹂,等.含铅玻璃及其无铅化的研究[J].玻璃与搪瓷,2006,34(1):51-53.
[10]何峰,谭刚健,程金树.低熔点封接玻璃的研究现状与发展趋势[J].建材世界,2009,30(1):1-9.
[11]何鹏,郭伟,林铁松,等.绿色无铅低熔点封接玻璃研究进展[J].材料工程,2016,44(6):123-130.
[12]刘洪学,张计华,曾人杰.Pb O系玻璃的改进及Bi2O3系封接玻璃的研制[J].厦门大学学报(自然版),2006,45(6):812-815.
[13]蒋宗礼.低熔玻璃及其在彩色管制造工艺中的运用[J].真空电子技术,1990(5):7-20.
[14]华有杰,徐时清,赵士龙,等.V2O5-B2O3-Zn O-Te O2-Li2O系低熔点封接玻璃性能研究[J].光子学报,2008,37(1):160-163.
[15]李宏彦.V2O5-P2O5-Sb2O3-Bi2O3体系低熔点玻璃的结构及性质研究[D].北京:北京有色金属研究总院,2012.
[16]罗世永,陈萌,张新林,等.P2O5-B2O3-V2O5无铅低熔玻璃形成能力和结构[J].硅酸盐通报,2009,28(2):280-283.
[17]李静,谢朝晖,朱庆山,等.P2O5-V2O5-B2O3-Zn O系无铅低熔电子封接玻璃的性能[J].过程工程学报,2010,10(2):373-378.
[18]时磊艳,戴金辉,王方,等.V2O5-B2O3-Te O2体系低熔点玻璃形成规律及特性[J].材料导报,2011,25(18):364-366.
[19]王方.V2O5-Te O2-X体系低温封接玻璃的性能研究[D].青岛:中国海洋大学,2012.
[20]Morena R.Phosphate glasses as alternatives to Pb-based sealing frits[J].Journal of Non-crystalline Solids,2000,263:382-387.
[21]马占峰,李启甲,赵彦钊,等.Sn O-Zn O-P2O5玻璃部分热性质研究[J].玻璃与搪瓷,2005,33(5):5-9.
[22]沈健,李启甲,殷海荣,等.Sn O-Zn O-P2O5三元系统封接玻璃的研究[J].陕西科技大学学报,2003,21(6):30-33.
[23]赵偶.低温封接玻璃的研究[D].湖南:湖南大学,2007.
[24]李春丽,田良英,孙诗兵.R2O3对Sn O-Zn O-P2O5无铅玻璃性能影响[J].玻璃与搪瓷,2007,35(1):11-14.
[25]Shyu J J,Yeh C H.Formation and properties of Sn O-Mg O-P2O5glasses[J].Journal of Materials Science,2007,42(13):4772-4777.
[26]Shaaban E R,Shapaan M,Saddeek Y B.Structural and thermal stability criteria of Bi2O3-B2O3glasses[J].Journal of Physics:Condensed Matter,2008,20(15):155108.
[27]Becker P.Thermal and optical properties of glasses of the system Bi2O3-B2O3[J].Crystal Research and Technology,2003,38(1):74-82.
[28]Singh S P,Karmakar B.Synthesis and characterization of low softening point high Bi2O3glasses in the K2O-B2O3-Bi2O3system[J].Materials Characterization,2011,62(6):626-634.
[29]Qiao W,Chen P.Study on the properties of Bi2O3-B2O3-Ba O lead-free glass using in the electronic pastes[J].Glass Physics and Chemistry,2010,36(3):304-308.
[30]常明.Bi2O3-Zn O-B2O3低温无铅封接玻璃结构及性能研究[D].北京:中国建筑材料科学研究总院,2014.
[31]乔文杰.Bi2O3-B2O3-Ba O系无铅玻璃粉在电子浆料中的应用[D].上海:东华大学,2011.
[32]刘远平.低熔点铋酸盐封接玻璃的研究[D].杭州:中国计量学院,2013.
[33]王俊.Bi2O3-Zn O-B2O3系统低熔点玻璃封接性能的研究[D].湖北:武汉理工大学,2011.
[34]张平.真空玻璃封接用低熔点玻璃的制备及其性能研究[D].湖北:武汉理工大学,2017.
[35]唐健正,董镛.真空玻璃的边缘加热方法和采用该方法制造的真空玻璃.CN:200410029896.2[P].2004-04-01.
[36]李要辉,黄幼榕,王晋珍,等.钢化真空玻璃的封接方法、制备方法和钢化真空玻璃.中国:201310261362.1[P].2013-06-27.
[37]Fang Y,Hyde T J,Arya F,et al.Indium alloy-sealed vacuum glazing development and context[J].Renewable and Sustainable Energy Reviews,2014,37:480-501.
[38]刘小根,包亦望,万德田,等.具金属封边结构的真空玻璃及其制作方法.中国:201310060583.2[P].2013-03-26.
[39]兰迪V玻五大技术[Eb/OL],http://www.landvac.com/five.php.
[40]Rao R T,黄庆安,唐洁影.微系统封装基础[M].南京:东南大学出版社,2005.
[41]Tai-Ran Hsu.微机电系统封装[M].北京:清华大学出版社,2006.
[42]Shoji S,Kikuchi H,Torigoe H.Low-temperature anodic bonding using lithium aluminosilicate-β-quartz glass ceramic[J].Sensors and Actuators A:Physical,1998,64(1):95-100.
[43]常鹰,卢安贤.静电键合用微晶玻璃的研究[J].中南大学学报(自然科学版),2003,34(5):472-475.
[44]Huang Y,Cui Z,Gao X,et al.Lithium aluminosilicate glass-ceramic containing Na2O for low-temperature anodic bonding in microelectronic mechanical systems[J].Journal of Non-Crystalline Solids,2008,354(12-13):1407-1410.
[45]李宏,曹欣,程金树.阳极键合用微晶玻璃的热处理温度研究[J].玻璃与搪瓷,2007,35(4):1-5.
[46]李宏,曹欣,程金树.热处理时间对阳极键合用微晶玻璃性能的影响[J].武汉理工大学学报,2007,29(5):20-22.
[47]Li H,Du Y,Cheng J S,et al.Li2O-Al2O3-Si O2glass-ceramics used as anodic bonding materials[C].Key Engineering Materials.Trans.Tech.Publications,2008,368:1436-1438.
[48]李宏,章钊,王倩,等.阳极键合用Li2O-Al2O3-Si O2微晶玻璃电学性能[J].硅酸盐学报,2009,37(10):1735-1739.
[49]Xiong D,Li H,Cheng J.Electrical properties of R2O-Al2O3-Si O2glass-ceramics for anodic bonding[J].Journal of Materials Science:Materials in Electronics,2010,21(9):882-888.
[50]Xiong D,Cheng J,Li H,et al.Anodic bonding of glass-ceramics to stainless steel coated with intermediate Si O2layer[J].Microelectronic Engineering,2010,87(9):1741-1746.
[51]Cheng J,Xiong D,Li H,et al.Al-Si thin films assisted anodic bonding of R2O-Al2O3-Si O2glass-ceramics to stainless steel[J].Journal of Adhesion Science and Technology,2011,25(15):1925-1935.
[52]Xiong D,Li H,Cheng J.Surface and interface characterization of oxygen plasma activated anodic bonding of glass-ceramics to stainless steel[J].Microelectronics Reliability,2012,52(7):1367-1372.
[53]卢佳.真空玻璃阳极键合密封技术研究[D].黑龙江:哈尔滨工业大学,2008.
[54]李宏,张平,卓永.一种真空玻璃封接用低熔点玻璃粉及其阳极键合增强封装方法.中国:201810305866.1[P].2018-04-09.
[55]李宏,陈鹏,熊德华.一种用于真空玻璃封装的阳极键合方法及装置.中国:201810306534.5[P].2018-04-09.
[56]唐健正,许威.真空玻璃产业化现状[C].2015年全国玻璃科学技术年会,江苏,2015:56-61.
[57]Cuce E,Cuce P M.Vacuum glazing for highly insulating windows:recent developments and future prospects[J].Renewable and Sustainable Energy Reviews,2016,54:1345-1357.
[58]蒋毅.真空玻璃在绿色建筑中的应用[J].绿色建筑,2011(6):21-22.
[59]Nippon Sheet Glass Spacia-SPACIA-21[Eb/OL].http://www.nsg-spacia.co.Jp
[60]Grzybowski R R,Harvey D R,Logunov S L,et al.Vacuum-insulated glass windows with glass-bump spacers.US:8821999[P].2014-9-2.
[61]北京新立基真空玻璃技术有限公司[Eb/OL].http://www.bjsng.com/
[62]Land Glass Technology Co.Ltd[Eb/OL].http://www.landvac.net/
[63]青岛亨达玻璃有限公司[Eb/OL].http://www.hd-glass.com/
[64]天津新沽上真空玻璃有限公司[Eb/OL].http://www.tjzkbl.com.cn/
[65]河南龙旺钢化真空玻璃有限公司[Eb/OL].http://www.lwvig.com
[66]鑫马真空玻璃[Eb/OL].http://www.hrbjmzb.com/
[67]唐健正.超级玻璃与超级真空玻璃[J].中国玻璃,2003,28(5):3-8.
[68]刘甜甜,侯玉芝,许威,等.真空玻璃应用于采光顶的结构研究[J].建筑节能,2016,44(4):65-68.
[69]Fang Y,Hyde T J,Hewitt N.Predicted thermal performance of triple vacuum glazing[J].Solar Energy,2010,84(12):2132-2139.
[70]Hill G R.Proposed demountable squash courts with glass walls[J].The Structural Engineer,1982,60(3):78-85.
[71]王秀芳,包亦望,邱岩,等.光伏真空玻璃组件的建筑一体化设计与应用[J].门窗,2010(7):48-50.
[72]侯玉芝.光伏真空玻璃在建筑节能中的应用[J].建筑节能,2014(10):55-58.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |