沈祖炎,郭小农,李元齐.铝合金结构研究现状简述[J].建筑结构学报,2007,28(6):100-109. Shen Z Y,Guo X N,Li Y Q.State-of-the-arts of research on aluminum alloy structures[J].Journal of Building Structures,2007,28(6):100-109.(in Chinese)

郭小农,沈祖炎,李元齐,等.国产结构用铝合金材料本构关系及物理力学性能研究[J].建筑结构学报,2007,28(6):110-117. Guo X N,Shen Z Y,Li Y Q,et al.Stress-strain relationship and physical-mechanical properties of domestic structural aluminum alloy[J].Journal of Building Structures,2007,28(6):110-117.(in Chinese)

Maljaars J,Twilt L,Fellinger J,et al.Aluminium structures exposed to fire conditions-An overview[J].Heron,2010,55(2):85-122.

Design of aluminum alloy structures-Part 1-2:Structural fire design:EN1999-1-2 Eurocode 9[S].Brussels:European Committee for Standardization,2007.

Kaufman J G.Properties of aluminum alloys:Tensile,creep,and fatigue data at high and low temperatures[M].Ohio:ASM International,1999.

Martin W R,Weir J R.Mechanical properties of x8001 and 6061 aluminum alloys and aluminum-base fuel dispersion at elevated temperatures[R].[S.l.]:Office of Scientific & Technical Information,1964.

Maljaars J,Soetens F,Snijder H H.Local buckling of aluminium structures exposed to fire.Part 1:Tests[J].Steel Construction,2009,47(11):1 404-1 417.

彭航,蒋首超,赵媛媛.建筑用6061-T6系铝合金高温下力学性能试验研究[J].土木工程学报,2009,42(7):46-49. Peng H,Jiang Sh Ch,Zhao Y Y.Experimental study on the mechanical property of structural Al-alloy at elevated temperatures[J].China Civil Engineering Journal,2009,42(7):46-49.(in Chinese)

郭小农,高志朋,朱劭骏,等.国产结构用铝合金高温力学性能试验研究[J].湖南大学学报(自然科学版),2018,45(7):20-28. Guo X N,Gao Zh P,Zhu Sh J,et al.Experimental research on mechanical property of domestic structural aluminum alloy at elevated temperatures[J].Journal of Hunan University(Natural Sciences),2018,45(7):20-28.(in Chinese)

Aluminum design manual ADM 2015[S].Washington D C:Aluminum Association,2005.

铝合金格构结构技术标准（报批稿）:DG-TJ-08-95-20XX[S].上海:[s.n.],2020. Technical specification for aluminum alloy reticulated structures:DG-TJ-08-95-20**(draft for approval)[S].Shanghai:[s.n.],2020.(in Chinese)

Chen Zh H,Lu J,Liu H B.Experimental investigation on the post-fire mechanical properties of structural aluminum alloys 6061-T6 and 7075-T73[J].Thin-Walled Structures,2016,106:187-200.

Liu Y,Liu H B,Chen Zh H.Post-fire mechanical properties of aluminum alloy 6082-T6[J].Construction and Building Materials,2019,196:256-266.

Maljaars J,Soetens F,Katgerman L.Constitutive model for aluminum alloys exposed to fire conditions[J].Metallurgical & Materials Transactions A,2008,39(4):778-789.

Dorn J E.Some fundamental experiments on high temperature creep[J].Journal of the Mechanics & Physics of Solids,1955,3(2):85-116.

Harmathy T Z.A Comprehensive creep model[J].Journal of Fluids Engineering,1967,89(3):496-502.

王萌,湛利华,李文科,等.2219铝合金蠕变时效研究及宏微观本构建模[J].热加工工艺,2017,46(6):221-225. Wang M,Zhan L H,Li W K,et al.Creep aging research and macro and micro constitutive modelling of 2219 aluminum alloy[J].Hot Working Technology,2017,46(6):221-225.(in Chinese)

王新建.2024T4铝合金蠕变本构关系研究[J].航空精密制造技术,2017,53(3):26-29. Wang X J.A creep constitutive equation for 2024T4 aluminium alloy[J].Aviation Precision Manufacturing Technology,2017,53(3):26-29.(in Chinese)

韦韡,蒋鹏,曹飞.6082铝合金的高温本构关系[J].塑性工程学报,2013,20(2):100-106. Wei W,Jiang P,Cao F.Constitutive equations for hot deformation of 6082 aluminum alloy[J].Journal of Plasticity Engineering,2013,20(2):100-106.(in Chinese)

付秀丽,艾兴,万熠,等.铝合金7050高温流变应力特征及本构方程[J].武汉理工大学学报,2006,28(12):113-116. Fu X L,Ai X,Wan Y,et al.Flow stress characteristics and constitutive equation at high temperature for 7050 aluminum alloy[J].Journal of Wuhan University of Technology,2006,28(12):113-116.(in Chinese)

王孟君,杨立斌,甘春雷,等.6063铝合金高温流变本构方程[J].华中科技大学学报(自然科学版),2003,31(6):20-22. Wang M J,Yang L B,Gan Ch L,et al.Constitutive equation of the flow for 6063 aluminium alloy at e levated temperature[J].Journal of Huazhong University of Science and Technology(Natural Science),2003,31(6):20-22.(in Chinese)

黄光杰,朱清洋,黄本多.3104铝合金高温塑性变形本构关系研究[J].材料导报,2006,20(增2):460-462. Huang G J,Zhu Q Y,Huang B D.Research on constitutive relationship of 3104 aluminum alloy during plastic deformation in high temperature[J].Materials Review,2006,20(Sup 2):460-462.(in Chinese)

赵培峰,任广升,沈智,等.6061铝合金热压缩变形条件对流变应力的影响及其本构方程的研究[J].塑性工程学报,2007,14(6):130-133. Zhao P F,Ren G Sh,Shen Zh,et al.Influence of hot compressive deformation conditions of 6061 aluminum alloy on flow stress and research on its constitutive equation[J].Journal of Plasticity Engineering,2007,14(6):130-133.(in Chinese)

林高用,张辉,郭武超,等.7075铝合金热压缩变形流变应力[J].中国有色金属学报,2001,11(3):412-415. Lin G Y,Zhang H,Guo W Ch,et al.Flow stress of 7075 aluminum alloy during hot compression deformation[J].The Chinese Journal of Nonferrous Metals,2001,11(3):412-415.(in Chinese)

盈亮,戴明华,胡平,等.6061-T6铝合金高温本构模型及温成形数值模拟[J].中国有色金属学报,2015,25(7):1 815-1 821. Ying L,Dai M H,Hu P,et al.Thermal constitutive model and numerical simulation of hot forming for 6061-T6 aluminum alloy[J].The Chinese Journal of Nonferrous Metals,2015,25(7):1 815-1 821.(in Chinese)

Suzuki J I,Ohmiya Y,Wakamatsu T,et al.Evaluation of fire resistance of aluminum alloy members[J].Fire Science & Technology,2005,24(4):237-255.

Maljaars J,Soetens F,Snijder H H.Local buckling of aluminium structures exposed to fire:Part 2:Finite element models[J].Thin-Walled Structures,2009,47(11):1 418-1 428.

Maljaars J,Twilt L,Soetens F.Flexural buckling of fire exposed aluminium columns[J].Fire Safety Journal,2009,44(5):711-717.

Liu M,Chang Y C,Wang P J,et al.Buckling behaviors of thin-walled aluminum alloy column with irregular-shaped cross section under axial compression in a fire[J].Thin-Walled Structures,2015,98:230-243.

Jiang Sh Ch,Xiong Z,Guo X N,et al.Buckling behaviour of aluminium alloy columns under fire conditions[J].Thin-Walled Structures,2018,124:523-537.

郭小农,黄玮嘉,楼政权,等.6061-T6铝合金柱高温轴压承载性能数值研究[C]∥ 第十六届全国现代结构工程学术研讨会论文集,天津:全国现代结构工程学术研讨会学术委员会,2016:1 500-1 509. Guo X N,Huang W J,Lou Zh Q,et al.Numerical research on bearing capacity of 6061-t6 aluminum alloy columns under axial compression at elevated temperatures[C]∥ Proceedings of the 16th National Conference on Modern Structural Engineering.Tianjin:Academic Committee of The National Symposium on Modern Structural Engineering,2016:1 500-1 509.(in Chinese)

蒋首超,毛龙,何志力.高温下铝合金轴心受压构件试验研究[J].建筑结构,2013,43(16):93-96. Jiang Sh Ch,Mao L,He Zh L.Experimental research on axially loaded aluminum members at elevated temperatures[J].Building Structure,2013,43(16):93-96.(in Chinese)

刘梅,常熤存,刘昌斌.高温下异形截面薄壁铝合金轴压构件局部-畸变屈曲耦合分析[J].防灾减灾工程学报,2016,36(3):380-385. Liu M,Chang Y C,Liu Ch B.Local-distortional interactive buckling of thin-walled aluminum alloy axial compression member with irregular-shaped cross section at elevated temperatures[J].Journal of Disaster Prevention and Mitigation Engineering,2016,36(3):380-385.(in Chinese)

时文丽.铝合金受弯构件抗火性能试验研究[D].上海:同济大学,2015. Shi W L.Experimental study on fire resistance of aluminum alloy bending members[D].Shanghai:Tongji University,2015.(in Chinese)

黄力才,蒋首超.高温下铝合金受弯构件弯扭稳定承载力研究[J].防灾减灾工程学报,2015,35(1):57-62. Huang L C,Jiang Sh Ch.Research on lateral-torsional buckling resistance of aluminum beams in fire[J].Journal of Disaster Prevention and Mitigation Engineering,2015,35(1):57-62.(in Chinese)

林维春.高温下铝合金构件极限承载力实用计算方法[D].上海:同济大学,2016. Lin W Ch.Practical calculation method of ultimate bearing capacity of aluminum alloy members at high temperature[D].Shanghai:Tongji University,2016.(in Chinese)

韩川.铝合金偏压构件抗火性能试验研究[D].上海:同济大学,2013. Han Ch.Experimental research on structural behavior of aluminum alloy members at elevated temperature[D].Shanghai:Tongji University,2013.(in Chinese)

黄玮嘉.铝合金偏压构件高温承载力研究[D].上海:同济大学,2017. Huang W J.Research on bearing capacity of aluminum alloy members under eccentric compression at elevated temperatures[D].Shanghai:Tongji University,2017.(in Chinese)

郭小农,王昆,楼政权,等.铝合金板式节点高温承载性能数值模拟[C]∥ 十六届全国现代结构工程学术研讨会论文集,天津:全国现代结构工程学术研讨会学术委员会,2016:296-302. Guo X N,Wang K,Lou Zh Q,et al.Numerical research on bearing capacity of aluminum alloy gusset joints at elevated temperatures[C]∥ Proceedings of the 16th National Conference on Modern Structural Engineering,Tianjin:Academic Committee of The National Symposium on Modern Structural Engineering,2016:296-302.(in Chinese)

Guo X N,Zhu Sh J,Liu X,et al.Study on out-of-plane flexural behavior of aluminum alloy gusset joints at elevated temperatures[J].Thin-Walled Structures,2018,123:452-466.

Guo X N,Xiong Z,Luo Y F,et al.Application of the component method to aluminum alloy gusset joints[J].Advances in Structural Engineering,2015,18(11):1 931-1 946.

李国强.钢结构及钢-混凝土组合结构抗火设计[M].北京:中国建筑工业出版社,2006. Li G Q.Fire resistance design of steel structure and steel-concrete composite structure[M].Beijing:China Architecture & Building Press,2006.(in Chinese)

马忠诚.火灾后钢筋混凝土结构损伤评估与抗震修复[D].哈尔滨:哈尔滨工业大学,1997. Ma Zh Ch.Evaluation and seismic repair of reinforced concrete structure after fire[D].Harbin:Harbin Institute of Technology,1997.(in Chinese)

ASCE.Manuals and reports on engineering practice No.78,structural fire protection[M].New York:[s.n.],1992.

Actions on structures-Part 1-2:General actions-Actions on structures exposed to fire:EN1991-1-2 Eurocode 1[S].Brussels:European Committee for Standardization,2002.

ISO 834-1:Fire-resistance tests-elements of building construction,Part 1:General requirements[S].Geneva:International Standard Organization,1999.

Zukoski E E,Kubota T,Cetegen B.Entrainment in fire plumes[J].Fire Safety Journal,1981,3(3):107-121.

Thomas P H,Hinkley P L,Theobald C R,et al.Investigations into the flow of hot gases in roof venting[M].London:The Stationary Office,1963.

Jones W W,Forney G P,Peacock R D,et al.Technical Reference for CFAST:an engineering tool for estimating fire and smoke transport(NIST TN 1431)[R].Gaithersburg:Building and Fire Research Laboratory,NIST TN 1431,2000.

程远平,陈亮,张孟君.火灾过程中羽流模型及其评价[J].火灾科学,2002,11(3):132-136. Cheng Y P,Chen L,Zhang M J.The analysis and estimation of the plume models in the development of fires[J].Fire Safety Science,2002,11(3):132-136.(in Chinese)

杜咏,李国强,黄珏倩.大空间建筑火灾中烟气温度计算模型的比较[J].自然灾害学报,2007,16(6):99-103. Du Y,Li G Q,Huang Y Q.Comparison of calculation models for smoke temperature in fire of large space[J].Journal of Natural Disasters,2007,16(6):99-103.(in Chinese)

杨世铭,陶文铨.传热学[M].北京:高等教育出版社,2006. Yang Sh M,Tao W Sh.Heat transfer[M].Beijing:Higher Education Press,2006.(in Chinese)

李国强,杜咏.大空间建筑顶部火灾空气升温的参数分析[J].消防科学与技术,2005,24(1):19-22. Li G Q,Du Y.Analyses the parameters of fire temperature elevation at the top of large space buildings[J].Fire Science and Technology,2005,24(1):19-22(in Chinese)

白音,石永久,王元清.火灾下大空间结构温度场的数值模拟分析[J].中国安全科学学报,2006,16(1):34-38. Bai Y,Shi Y J,Wang Y Q.Numerical simulation analysis on temperture field for large-space structures under fire[J].China Safety Science Journal,2006,16(1):34-38.(in Chinese)

袁铁柱,王江飞.大空间火灾温度场分布研究[C]∥ 庆贺刘锡良教授执教六十周年暨第十一届全国现代结构工程学术研讨会论文集,天津:全国现代结构工程学术研讨会学术委员会,2011:1 438-1 443. Yuan T Zh,Wang J F.Study on temperature field distribution of large space fire[C]∥ Proceedings of the 11th National Conference on Modern Structural Engineering,Tianjin:Academic Committee of The National Symposium on Modern Structural Engineering,2011:1 438-1 443.(in Chinese)

白音,杨海勇,石永久,等.大空间结构各种火灾场景下的温度场分布[J].清华大学学报(自然科学版),2011,51(8):1 122-1 127. Bai Y,Yang H Y,Shi Y J,et al.Temperature field distribution of large-space structures under various fire scenarios[J].Journal of Tsinghua University(Science and Technology),2011,51(8):1 122-1 127.(in Chinese)

于志超,朱国庆,张国维.建筑高度对大空间温度场的影响[J].消防科学与技术,2016,35(7):903-905,916. Yu Zh Ch,Zhu G Q,Zhang G W.Influence of building height on large space temperature field[J].Fire Science and Technology,2016,35(7):903-905,916.(in Chinese)

李国强,杜咏.实用大空间建筑火灾空气升温经验公式[J].消防科学与技术,2005,24(3):283-287. Li G Q,Du Y.Utility temperature elevation empirical formula in large space fire[J].Fire Science and Technology,2005,24(3):283-287.(in Chinese)

梁劲,薛素铎,李雄彦.考虑圆弧形壁面影响的大空间建筑火灾空气升温经验公式[J].工业建筑,2012,42(7):91-94. Liang J,Xue S D,Li X Y.Air temperature empirical formula for large space structure under fire considering the effect of circular wall[J].Industrial Construction,2012,42(7):91-94.(in Chinese)

薛素铎,梁劲,李雄彦.大空间建筑火灾空气升温经验公式[J].北京工业大学学报,2013,39(2):203-207. Xue S D,Liang J,Li X Y.Empirical formula for air temperature in large space structure under fire[J].Journal of Beijing University of Technology,2013,39(2):203-207.(in Chinese)

梁劲.考虑烟气排放的大空间建筑火灾空气升温特性研究[D].北京:北京工业大学,2010. Liang J.The research on the characteristics of air temperature of large space structures in fire considering the effect of smoke emission[D].Beijing:Beijing University of Technology,2010.(in Chinese)

Zhang G W,Zhu G Q,Yuan G L,et al.Methods for prediction of steel temperature curve in the whole process of a localized fire in large spaces[J].Mathematical Problems in Engineering,2014(1):1-12.

建筑钢结构防火技术规范:CECS 200—2006 [S].北京:中国计划出版社,2006. Technical code for fire safety of steel structure in buildings:CECS200—2006[S].Beijing:China Planning Press,2006.(in Chinese)

建筑钢结构防火技术规范:GB51249—2017 [S].北京:中国计划出版社,2017. Technical code for fire safety of steel structure in buildings:GB51249—2017[S].Beijing:China Planning Press,2017.(in Chinese)

于志超,朱国庆,田承飞.大空间温度场预测模型与实验分析[J].消防科学与技术,2016,35(10):1 372-1 375. Yu Zh Ch,Zhu G Q,Tian Ch F.Large space temperature field prediction model and experimental analysis[J].Fire Science and Technology,2016,35(10):1 372-1 375.(in Chinese)

丁军,李国强,蒋首超.火灾下钢结构构件的温度分析[J].钢结构,2002,17(2):53-56. Ding J,Li G Q,Jiang Sh Ch.Analysis of temperature response of steel structural members exposed to fire[J].Steel Construction,2002,17(2):53-56.(in Chinese)

史聪灵,霍然,李元洲,等.火灾环境下钢构件升温过程的模型研究[J].中国工程科学,2003,5(12):66-72. Shi C L,Huo R,Li Y Zh,et al.Modeling study of steel elements submitted to real compartment fires[J].Engineering Science,2003,5(12):66-72.(in Chinese)

Zhang Ch,Usmani A.Heat transfer principles in thermal calculation of structures in fire[J].Fire Safety Journal,2015,78:85-95.

Ghojel J I.A new approach to modeling heat transfer in compartment fires[J].Fire Safety Journal,1998,31(3):227-237.

Dwaikat M M S,Kodur V K R.A simplified approach for predicting temperature profile in steel members with locally damaged fire protection[J].Fire Technology,2012,48(2):493-512.

Ghojel J I,Wong M B.Heat transfer model for unprotected steel members in a standard compartment fire with participating medium[J].Journal of Constructional Steel Research,2005,61(6):825-833.

Gardner L,Ng K T.Temperature development in structural stainless steel sections exposed to fire[J].Fire Safety Journal,2006,41(3):185-203.

邢君,杨斌.钢构件升温计算方法对比分析[J].消防科学与技术,2011,30(8):664-667. Xing J,Yang B.Comparative analysis of calculation method for temperature elevation of steel member[J].Fire Science and Technology,2011,30(8):664-667.(in Chinese)

Design of steel structures-Part 1-2:Structural fire design:EN1993-1-2 Eurocode 3[S].Brussels:European Committee for Standardization,2005.

黄珏倩.平面大空间钢结构抗火研究[D].上海:同济大学,2006. Huang Y Q.Study on fire resistance of large space steel structure[D].Shanghai:Tongji University,2006.(in Chinese)

张超,李国强.基于FDS模拟分析的建筑大空间火灾下钢构件的升温确定方法研究[J].防灾减灾工程学报,2012,32(增1):72-75. Zhang Ch,Li G Q.Study on the method of determining the temperature rise of steel components in large space fire based on FDS[J].Journal of Disaster Prevention and Mitigation Engineering,2012,32(Sup 1):72-75.(in Chinese)

杜咏,李国强.基于场模型的大空间建筑火灾钢构件升温的简化计算方法[J].消防科学与技术,2006,25(3):299-303. Du Y,Li G Q.Simplified algorithm of steel member at elevated temperature in large space fire based on field model[J].Fire Science and Technology,2006,25(3):299-303.(in Chinese)

杜咏.大空间建筑网架结构实用抗火设计方法[D].上海:同济大学,2007. Du Y.A practical method of fire-resistant design for large space buildings[D].Shanghai:Tongji University,2007.(in Chinese)

杜咏,李国强.大空间建筑火灾中火焰辐射对无保护钢构件升温的影响[J].火灾科学,2006,15(4):189-199. Du Y,Li G Q.Fire radiation effect on steel member at elevated temperature in large space fire[J].Fire Safety Science,2006,15(4):189-199.(in Chinese)

杜咏,李国强.考虑火焰辐射的大空间建筑火灾中钢构件升温实用计算方法[J].建筑科学与工程学报,2008,25(3):54-60. Du Y,Li G Q.Practical calculation method for temperature elevation of steel members on flame radiation in large space building fire[J].Journal of Architecture and Civil Engineering,2008,25(3):54-60.(in Chinese)

黄珏倩,李国强,杜咏,等.大空间火灾中火焰辐射对钢构件升温的影响[J].自然灾害学报,2008,17(5):87-94. Huang Y Q,Li G Q,Du Y,et al.Influence of flame radiation on temperature rising of steel members in large space fire[J].Journal of Natural Disasters,2008,17(5):87-94.(in Chinese)

张国维,朱国庆,王晓岚,等.基于区域模型的单层高大空间建筑钢构件温升计算[J].消防科学与技术,2010,29(12):1 043-1 046. Zhang G W,Zhu G Q,Wang X L,et al.The calculation of steel temperature rise in the large-space building based on the regional model[J].Fire Science and Technology,2010,29(12):1 043-1 046.(in Chinese)

张国维,朱国庆,黄丽丽.大空间建筑火场钢构件升温实验与理论模型[J].中国矿业大学学报,2013,42(3):370-374. Zhang G W,Zhu G Q,Huang L L.Experiment and theoretical model for the temperature development in steel members exposed to fire in the large space building[J].Journal of China University of Mining & Technology,2013,42(3):370-374.(in Chinese)

张国维,朱国庆,袁广林,等.火焰热辐射作用下大空间火场钢构件升温模型[J].哈尔滨工业大学学报,2013,45(6):96-101. Zhang G W,Zhu G Q,Yuan G L,et al.Temperature model of steel members exposed to thermal radiation and fire in large space building[J].Journal of Harbin Institute of Technology,2013,45(6):96-101.(in Chinese)

Zhang G W,Zhu G Q,Huang L L.Temperature development in steel members exposed to localized fire in large enclosure[J].Safety Science,2014,62(1):319-325.

郑永乾,陈志波,张铮.火灾下铝合金方管柱的升温[J].消防科学与技术,2014,33(9):991-994. Zheng Y Q,Chen Zh B,Zhang Zh.Temperature rises of square aluminium alloy tubular columns in fire[J].Fire Science and Technology,2014,33(9):991-994.(in Chinese)

郭小农,陈晨,朱劭骏,等.大空间火灾下铝合金结构部件温升计算方法[J].建筑结构学报,doi:10.14006/j.jzjgxb.2019.0876. Guo X N,Chen Ch,Zhu Sh J,et al.Calculation method of temperature rise of aluminum alloy structural components in large-space fires[J].Journal of Building Structures,doi:10.14006/j.jzjgxb.2019.0876.(in Chinese)

赵金城,沈祖炎.局部火灾下钢框架结构整体性能的非线性分析[J].建筑结构学报,1997,18(4):30-36. Zhao J Ch,Shen Z Y.Nonlinear analysis of the whole performance of steel frame structure under local fire[J].Journal of Building Structures,1997,18(4):30-36.(in Chinese)

蒋首超,李国强,叶绮玲.火灾下钢框架结构非线性反应分析与试验研究[J].工业建筑,2004,34(8):66-69. Jiang Sh Ch,Li G Q,Ye Q L.Theoretical and experimental research on nonlinear behavior of steel frames subjected to fire[J].Industrial Construction,2004,34(8):66-69.(in Chinese)

董毓利.两层两跨组合钢框架抗火性能的试验研究[J].建筑钢结构进展,2009,11(3):37-50. Dong Sh L,Experimental study on performance of 2-storey and 2-bay composite steel frames subjected to fire[J].Progress in Steel Building Structures,2009,11(3):37-50.(in Chinese)

吕俊利,董毓利,杨志年,等.钢框架边跨梁抗火性能试验研究和理论分析[J].建筑结构学报,2011,32(9):92-98. Lyu J L,Dong Sh L,Yang Zh N,et al.Experimental and analytical studies on performance of edge beams of steel framed building subjected to fire[J].Journal of Building Structures,2011,32(9):92-98.(in Chinese)

吕俊利,董毓利,杨志年.整体结构中两跨钢梁火灾变形性能的试验研究[J].工程力学,2012,29(3):110-114. Lyu J L,Dong Sh L,Yang Zh N.Experimental study on the deformation of a two-span steel beam in a structal system[J].Engineering Mechanics,2012,29(3):110-114.(in Chinese)

王勇,董毓利,彭普维,等.足尺钢框架结构中楼板受火试验研究[J].建筑结构学报,2013,34(8):1-11. Wang Y,Dong Sh L,Peng P W,et al.Fire test on floor of full-scale steel-framed structure[J].Journal of Building Structures,2013,34(8):1-11.(in Chinese)

Wang Y C,Lennon T,Moore D B.The behaviour of steel frames subject to fire[J].Journal of Constructional Steel Research,1995,35(3):291-322.

Franssen J M,Cooke G M E,Latham D J.Numerical simulation of a full scale fire test on a loaded steel framework[J].Journal of Constructional Steel Research,1995,35(3):377-408.

Bailey C G,Moore D B.The behaviour of full-scale steel framed buildings subject to compartment fires[J].Structural Engineer,1999,77(8):15-21.

Wang Y C.An analysis of the global structural behaviour of the Cardington steel-framed building during the two BRE fire tests[J].Engineering Structures,2000,22(5):401-412.

Gillie M,Usmani A S,Rotter J M.A structural analysis of the first Cardington test[J].Journal of Constructional Steel Research,2001,57(6):581-601.

陈波,郑瑾,岳磊.网壳结构火灾反应非线性有限元分析[J].武汉理工大学学报,2007,29(6):69-72. Chen B,Zheng J,Yue L.Nonlinear finite element analysis of a reticulated shell subjected to a fire[J].Journal of Wuhan University of technology,2007,29(6):69-72.(in Chinese)

殷志祥,张晶晶.大跨度空间网壳结构抗火反应分析[J].辽宁工程技术大学学报,2008,27(增1):65-67. Yin Zh X,Zhang J J.Analysis of large-span space truss dome fire resistant response[J].Journal of Liaoning Technology University(Natural Science Edition),2008,27(Sup 1):65-67.(in Chinese)

张艳,陈波.施威德勒型单层球面网壳结构抗火的非线性有限元分析[J].华北水利水电大学学报(自然科学版),2008,29(5):42-44. Zhang Y,Chen B.Nonlinear finite element analysis of fire resistance for schwedler single spherical steel truss dome[J].Journal of North China Institute of Water Conservancy and Hydroelectric Power,2008,29(5):42-44.(in Chinese)

刘明友,王海忠.单层球面网壳结构的抗火性能研究[J].工程建设,2009,41(1):10-13. Liu M Y,Wang H Zh.Study on fire resistance performance of single layer spherical reticulated shell structure[J].Engineering Construction,2009,41(1):10-13.(in Chinese)

韩庆华,陈鑫,张坤.非均匀温度场下双层网壳的抗火反应分析[C]∥ 庆祝刘锡良教授八十华诞暨第八届全国现代结构工程学术研讨会,天津:全国现代结构工程学术研讨会学术委员会,2008:873-879. Han Q H,Chen X,Zhang K.Analysis of fire resistance of double layer reticulated shell under non-uniform temperature field[C]∥ Proceedings of the 8th National Conference on Modern Structural Engineering,Tianjin:Academic Committee of The National Symposium on Modern Structural Engineering,2008:873-879.(in Chinese)

陈鑫.双层网壳结构抗火性能数值分析[J].消防科学与技术,2012,31(7):691-695. Chen X.Numerical analysis on fire resistance behavior of the double-layer grid shell structure[J].Fire Science and Technology,2012,31(7):691-695.(in Chinese)

周明,王新堂,俞锋波.柱面弦支网壳预应力钢结构的火灾响应数值分析[J].空间结构,2012,18(1):51-57. Zhou M,Wang X T,Yu F B.Numerical analysis of fire response of the pre-stressed suspend-reticulated cylindrical shells[J].Spatial Structures,2012,18(1):51-57.(in Chinese)

邱林波,薛素铎.火灾作用下单层球面网壳的非线性有限元分析[J].防灾减灾工程学报,2010,30(5):533-537. Qiu L B,Xue S D.Nonlinear finite element analysis of single layer reticulated dome under fire[J].Journal of Disaster Prevention and Mitigation Engineering,2010,30(5):533-537.(in Chinese)

薛素铎,邱林波,李雄彦,等.火灾作用下单层球面网壳结构的整体性能分析[J].北京工业大学学报,2012,38(4):488-491. Xue S D,Qiu L B,Li X Y,et al.Overall performance analysis of single layer reticulated dome under fire[J].Journal of Beijing University of Technology,2012,38(4):488-491.(in Chinese)

梅冰辉.施威德勒网壳和凯威特网壳结构抗火屈曲分析[J].低温建筑技术,2011,33(7):25-27. Mei B H.Analysis of fire buckling of schweidler reticulated shell and kevit reticulated shell[J].Low Temperature Architecture Technology,2011,33(7):25-27.(in Chinese)

薛素铎,王广勇.凯维特单层球面网壳抗火性能研究[J].工业建筑,2008(增1):452-454. Xue S D,Wang G Y.Behavior of a single layer spherical keweit lattice and shell at elevated temperatures[J].Industrial Construction,2008(Sup 1):452-454.(in Chinese)

王娜,薛素铎,李雄彦,等.火灾下单层球面网壳的耐火极限分析[C]∥ 第十三届全国现代结构工程学术研讨会论文集,天津,全国现代结构工程学术研讨会学术委员会,2013:328-335. Wang N,Xue S D,Li X Y,et al.Analysis of fire resistance limit of single layer spherical reticulated shell in fire[C]∥ Proceedings of the 13th National Conference on Modern Structural Engineering,Tianjin:Academic Committee of The National Symposium on Modern Structural Engineering,2013:328-335.(in Chinese)

白音,翟建磊,石永久,等.单层网壳在高温状态下的整体稳定承载力分析[J].中国科学:技术科学,2013,43(3):291-297. Bai Y,Zhai J L,Shi Y J,et al.Analysis of overall stability bearing capacity of single-layer shell structures under high temperature condition[J].Scientia Sinica Technologica,2013,43(3):291-297.(in Chinese)

白音,石永久,王元清.火灾下K8型单层网壳弹塑性稳定承载力计算[J].北京工业大学学报,2011,37(3):381-387. Bai Y,Shi Y J,Wang Y Q.Elasto-plastic stability bearing capacity calculation for k8 single-layer reticulated shells under fire conditions[J].Beijing University of Technology,2011,37(3):381-387.(in Chinese)

郭胜,赵金城,史健勇.火灾下凯威特单层球面网壳非线性分析[J].钢结构,2012,27(5):70-75. Guo Sh,Zhao J Ch,Shi J Y.Nonlinear analysis of Kiewitt single layer latticed dome in fire[J].Steel Construction,2012,27(5):70-75.(in Chinese)

郭小农,陈晨,朱劭骏,等.铝合金板式节点网壳火灾响应试验研究[J].建筑结构学报,doi:10.14006/j.jzjgxb.2019.0814. Guo X N,Chen Ch,Zhu Sh J,et al.Experimental study on the fire response of aluminum alloy shells with gusset joints[J].Journal of Building Structures，doi:10.14006/j.jzjgxb.2019.0814.(in Chinese)

郭小农,陈晨,朱劭骏,等.铝合金板式节点网壳破坏性火灾试验[J].建筑结构学报,doi:10.14006/j.jzjgxb.2019.0815. Guo X N,Chen Ch,Zhu Sh J,et al.Experimental study on the fire-induced collapse of single-layer aluminum alloy reticulated shells with gusset joints[J].Journal of Building Structures,doi:10.14006/j.jzjgxb.2019.0815.(in Chinese)

史健勇,孙旋,刘文利,等.基于整体的大空间钢结构性能化防火设计方法研究[J].土木工程学报,2011,44(5):69-78. Shi J Y,Sun X,Liu W L,et al.Study of performance-based fire resistance design methodology for large space structures[J].China Civil Engineering Journal,2011,44(5):69-78.(in Chinese)

Meacham B J,Custer R L P.Performance-based fire safety engineering:an introduction of basic concepts[J].Journal of Fire Protection Engineering,1995,7(2):35-53.

李国强.性能化钢结构抗火设计[C]∥ 工程力学学术研讨会论文集,北京:中国力学学会,2004:109-119. Li G Q.Performance-based fire-resistant design of steel structure[C]∥ Proceedings of the Symposium on Engineering Mechanics,Beijing:The Chinese Society of Theoretical and Applied Mechanics,2004:109-119.(in Chinese)

石永久,白音,王元清.大空间结构防火性能化设计方法研究[J].空间结构,2005,11(4):16-20. Shi Y J,Bai Y,Wang Y Q.Studies on performance-based fire-resisting design method for large-space structures[J].Spatial Structures,2005,11(4):16-20.(in Chinese)

史健勇.我国大空间钢结构性能化防火设计的现状与发展[C]∥中国科协年会论文集（四）,北京:中国科学技术协会,2007:610-617. Shi J Y.Current situation and development of performance-based fire protection design for large space steel structures in China[C]∥ Proceedings of the Annual Meeting of The China Association for Science and Technology(No.4),Beijing:China Association for Science and Technology,2007:610-617.(in Chinese)

李国强,郭士雄,蒋首超,等.上海南站钢屋盖结构性能化抗火安全评估[J].建筑钢结构进展,2005,7(2):31-36. Li G Q,Guo Sh X,Jiang Sh Ch,et al.Analysis of the fire safety of the steel roof construction of Shanghai South Railway Station[J].Progress in Steel Building Structures,2005,7(2):31-36.(in Chinese)

张相勇,尧金金,牟在根.青岛北站主站房性能化抗火设计研究[J].建筑结构,2011,41(增1):816-820. Zhang X Y,Yao J J,Mu Z G.Performance-based design for the fire-resistance of Qingdao North Station main station building[J].2011,41(Sup 1):816-820.(in Chinese)

殷颖智.上海吴淞口国际邮轮码头钢结构抗火设计[J].建筑钢结构进展,2011,13(3):15-19. Yin Y Zh.Structural fire engineering design for Shanghai Wusong Cruise Terminal[J].Progress in Steel Building Structures,2011,13(3):15-19.(in Chinese)

陈适才,任爱珠,唐方勤,等.火灾下大空间网架结构的抗倒塌分析方法[J].钢结构,2007,22(7):85-88. Chen Sh C,Ren A Zh,Tang F Q,et al.Performance-based anti-collapse analysis of the large-space steel lattice truss structure under fire[J].Steel Construction,2007,22(7):85-88.(in Chinese)