《建筑钢结构进展》近两年文章列表中英文参考文献格式2022年.docx

附件：建筑钢结构进展近两年文章列表(中英文参考文献格式)2022 年> 梁晓婕，王燕.钢结构装配式半刚性连接节点研究进展J.建筑钢结构进展，2022, 24 (1 ) ： 1-14. DOI：10.13969/J.31 -1893.2022.01.001.LIANG Xiaojie» WANG Yan. State-of-the-art on semi-rigid connections for fabricated steel structuresJ. Progress in Steel Building Structures, 2022, 24( 1) ： 1-14. DOI： 10.13969/j.31 -1893.2022.01.001 .(in Chinese)陈志华，温锁林，刘红波，等.北京大兴国际机场大直径焊接空心球节点力学性能研究JL建筑钢结构进 展，2022, 24 (1) ： 15-23. DOI： 10.13969/j.31 -11.002.CHEN Zhihu, WEN Suolin, LIU Hongbo, el al. A study on the mechanical properties of large-size welded hollow spherical joints of Beijing Daxing International AirportfJ, Progress in Steel Building Structures, 2022, 24 (1) ： 15-23. DOI： 10.13969/j.31 -1893.2022.01.002.(in Chinese)申红侠，林敬邦，程浩.高强钢焊接箱形截面双向压弯构件屈曲后强度设计方法研究J1.建筑钢结构进 展，2022, 24 (1) ： 24-30. DOI： 10.13969/j.31-11.003.SHEN Hongxia, LIN Qibang, CHENG Hao. Research on the design methods for the post-buckling strength of high-strength steel welded box beam-columns under biaxial bendingfJ. Progress in Steel Building Structures, 2022, 24 ( 1) ： 24-30. DOI： 10.13969/j.31 -1893.2022.01.003.(in Chinese)李慎，王泽宇，出建勃，等.高强钢组合K形偏心支撑结构的结构影响系数和位移放大系数研究几建 筑钢结构进展，2022, 24 (1) ： 31-40. DOI： 10.13969/j.31 -1893.2022.01.004.LI Shen, WANG Zeyu, TIAN Jianbo, LI Xiaolei. A study on the structural influence coefficient and displacement amplification coefficient of high-strength steel composite K-typc eccentrically braced structurcJ. Progress in Steel Building Structures , 2022 , 24 ( 1 ) ： 31 -40. DOI ： 10.13969/j.31- 1893.2022.01.004.(in Chinese)李帼昌,刘璐，杨志坚.内置CFRP型材方钢管混凝土构件抗侧向冲击性能有限元分析J.建筑钢结构 进展，2022, 24 (1) ： 41-52. DOI： 10.13969/31-1893.2022.01.005.LI Guochang, LIU Lu, YANG Zhijian. Finite element analysis on the lateral impact behavior of concrete- filled square steel tube with CFRP protllesJ. Progress in Steel Building Structures, 2022» 24 (1) ： 41-52. DOI： 10.13969/j.31 -1893.2022.0 L005.(in Chinese)杜咏，李国强.大跨度建筑钢结构抗火性能研究进展与趋势J.建筑钢结构进展，2022, 24 (I ) ： 53-66. DOI： 10.13969/j.31 -1893.2022.0 l.(X)6.DU Yong, LI Guoqiang. Development and tendency of the fire resistance of large-span steel buildingsJJ. Progress in Steel Building Structures, 2022, 24 (1) ： 53-66. DOI： 10.13969/j.31 -1893.2022.01.006.(in Chinese)张旭，余敏,胡靖，等.钢管超高性能混凝土柱耐火性能数值模拟与理论分析J.建筑钢结构进展，2022, 24 (1) ： 67-79, 97. DOI： 10.13969/j.31-11.007.ZHANG Xu, YU Min, HU Xuan, et al. Numerical simulation and theoretical analysis on the fire resistance of ultra-high-perfbnnance concrete filled steel tubularcolumnsJ. Progress in Steel Building Structures> 2022, 24 (1) ： 67-79, 97. DOI： 10.13969/j.31 -1893.2022.01 .OO7.(in Chinese)付皓然，曲哲.摩擦摆隔震层的瞬时偏心与扭转反应分析J.建筑钢结构进展，2022, 24 ( I ) ： 80-88.Building Structures, 2022, 24 (7) ： 1-10. DOI： 10.13969/j.31-1893.2022.07.001. (in Chinese)周明，孙国华，刘文渊.自攻螺钉厚板连接的抗剪性能试验研究J.建筑钢结构进展，2022, 24 (7)： 11-19. DOI： 10.13969/j.31 -1893.2022.07.002.ZHOU Ming, SUN Guohua, LIU Wenyuan. An experimental study on the shear behavior of self-tapping screw connection for thick steel plateJ. Progress in Steel Building Structures, 2022, 24 (7) ： 11-19. DOI： 10.13969/j.31-l 893.2022.07.002.(in Chinese)王学飞，高燕梅，王昱，等.一种全装配式栓钉剪刀键抗剪性能的对比试验及机理分析JL建筑钢结构进 展，2022, 24 (7) ： 20-28, 37. DOI： 10.13969/j.31 -1893.2022.07.003.WANG Xuefei, GAO Yanmei, WANG Yu, et al. Comparative test and mechanism analysis ofhe shear performance of a novel prefabricated composite shear stud connector|J. Progress in Steel Building Structures, 2022, 24 (7) ： 20-28, 37. DOI： 10.13969/j.31 -1893.2022.07.003.(in Chinese)胡婉颖，余玉洁，赵凤涛.横肋波纹板剪力墙简化模型及其住宅体系设计J.建筑钢结构进展，2022, 24 (7) ： 29-37. DOI： 10.13969小31-1893.2022.07.004.HU Wanying, YU Yujie, ZHAO Fengtao. Simplified analytical model of horizontally corrugated steel plate shear wall and its application on steel structure residential buildingsJ. Progress in Steel Building Structures> 2022, 24 (7) ： 29-37. DOI： 10.13969/j.31 -1893.2022.07.004.(in Chinese)赵小芹，左志亮，蔡健.带约束拉杆十字形钢管混凝土短柱轴压试验研究J.建筑钢结构进展，2022, 24 (7) ： 38-48. DOI： 10.13969/J.31 -1893.2022.07.005.ZHAO Xiaoqin, ZUO Zhiliang, CAI Jian. Experimental Study on the cross-shaped CFST stub column with binding bars subjected to axial compressionJ. Progress in Steel Building Structures, 2022, 24 (7) ： 38- 48. DOI： 10.13969/j.31 -1893.2022.07.005.(in Chinese)王静峰，王翰斓，郭磊，等.预制钢管混凝土叠合柱与PEC梁螺栓连接节点受力性能分析J.建筑钢结 构进展，2022, 24 (7) ： 49-56. DOI： 10.13969/j.31 -1893.2022.07.006.WANG Jingfeng, WANG Hanlam GUO Lei» et al. Mechanical behavior analysis of prefabricated CFST composite column bolted to PEC beam jointsJ. Progress in Steel Building Structures, 2022, 24 (7) ： 49- 56. DOI： 10.13969/j.31 -1893.2022.07.006.(in Chinese)何宇辰，张慧洁，王静峰，等.部分包覆钢-轻骨料混凝土组合长柱轴压性能研究J.建筑钢结构进展， 2022, 24 (7) ： 57-65, 74. DOI： 10.13969/j.31 -1893.2022.07.007.HE Yuchcn, ZHANG Huijic. WANG Jingfcng, ct al. An investigation on the axial compressive behavior of partially encased composite steel and lightweight aggregate concrete long columnsJJ. Progress in Steel Building Structures, 2022, 24 (7) ： 57-65, 74. DOI： 10.13969/j.31-1893.2022.07.007. (in Chinese)陈乐，岳峰，李杰，等.SHCC局部增强PEC梁柱节点抗震性能有限元分析J.建筑钢结构进展，2022, 24 (7) ： 66-74. DOI： 10.13969/j.31 -1893.2022.07.008.CHEN Lc, YUE Feng, LI Jic, ct al. Finite element analysis on the seismic performance of SHCC reinforced PEC beam-column jointsJJ. Progress in Steel Building Structures, 2022, 24(7)： 66-74. DOI： 10.13969彳.31- 1893.2022.07.008.(in Chinese)韦建刚，张瀚文，罗霞，等.方矩形钢管约束超高强混凝土短柱轴压承载力研究J.建筑钢结构进展， 2022, 24 (7) ： 75-83. DOI： 10.13969彳.31-1893.2022.07.(X)9.WEI Jiangang, ZHANG Han wen, LUO Xia, ct al. A study on axial compressive capacity of ultra-high- strength concrete short column confined by rectangular steel lubeJ. Progress in Steel Building Structures, 2022, 24 (7) ： 75-83. DOI： 10.13969/j.31 -1893.2022.07.009.(in Chinese) 陈安阳，邹小舟，陈乐贤，等.无槐空间网格结构装配式螺栓球柱节点高温受压性能研究J.建筑钢结构 进展，2022, 24 (7) ： 84-96. DOI： 10.13969个31-1893.2022.07.010.CHEN Anyang, ZOU Xiaozhou, CHEN Lexian, et al. A Study on the compressive bearing capacity of prefabricated boiled ball-cylinder joints at elevated temperaturesJ. Progress in Steel Building Structures, 2022, 24 (7) ： 84-96. DOI： 10.13969/j.31 -1893.2022.07.010.(in Chinese)黄丹，王P.永.装配式钢结构建筑体系研究及应用综述J.建筑钢结构进展，2022, 24 (8) ： 1-18. DOI： 10.i 3969/j.31 -1893.2022.08.001.HUANG Dan, WANG Weiyong. Review on research and application of prefabricated steel structure building system!J. Progress in Steel Building Structures, 2022, 24(8)： 1-18. DOI： 10.13969/(.31-1893.2022.08.001. (in Chinese)叶重阳，王新武，时强，等.装配式偏心支撑钢框架可替换性研究J.建筑钢结构进展，2022, 24 (8)： 19-34, 60. DOI： 10.13969/j,31-1893.2022.08.002.YEChongyang, WANG Xinwu, SHI Qiang, et al. Research on the replaceability of prefabricated eccentrically braced steel frameJ. Progress in Steel Building Structures, 2022, 24 (8) ： 19-34, 60. DOI： 10.13969/j.31- 1893.2022.08.002.(in Chinese)班慧勇，罗家伟，王元清，等.可拆卸钢-混凝土组合梁抗剪连接件的受力性能研究J.建筑钢结构进展， 2022, 24 (8) ： 35-46. DOI： 10.13969/j.31 -1893.2022.08.004.BAN Huiyong, LUO Jiawei, WANG Yuanqing, et al. Research on mechanical behavior of shear connectors in dcconstructable steel-concretecomposite beamsJ. Progress in Steel Building Structures, 2022, 24 (8)： 35-46. DOI： 10.13969/j.31 -1893.2022.08.004.(in Chinese)刘雁斌，邢颖，徐亚宁，等.钢-混凝土组合梁中摩擦型高强螺栓抗剪连接件的力学性能研究J.建筑钢 结构进展,2022, 24 (8) ： 47-60. DOI： 10.13969/j.31 -1893.2022.08.005.LIU Yanbin, XING Ying, XU Yaning, et al. Study on mechanical properties of friction-typc high-strength bolt shear connectors in stcel-concrctc composite bcamslJJ. Progress in Steel Building Structures, 2022, 24 (8) ： 47-60. DOI： 10.13969/j.31 -1893.2022.08.005.(in Chinese)陈宇峰，林镇源，廖飞宇，等.圆形钢管地聚合物再生混凝土短柱轴压力学性能试验研究J.建筑钢结构 进展，2022, 24 (8) ： 61-69. DOI： 10.13969/j.31 -1893.2022.08.006.CHEN Yufcng, LIN Zhcnyuan, LIAO Fciyu, ct al. Experimental research on axial compression performance of circular steel tubular slub columns filled with geopolymer recycled concreteJ. Progress in Steel Building Structures, 2022, 24 (8) ： 61-69. DOI： 10.13969/j.31 -1893.2022.08.006.(in Chinese)陈汉元，廖飞宇，林志平，等.考虑脱空缺陷影响的钢管混凝土压弯剪力学性能分析与实用设计方法J. 建筑钢结构进展，2022, 24 (8) ： 70-81. DOI： 10.13969/j.31 -1893.2022.08.007.CHEN Hanyuan, LIAO Feiyu, LIN Zhiping, et al. Analytical behavior and simplified method of concrete- filled steel tube with gap under combined compression-bending-shear ac(ionsJ. Progress in Steel Building Structures, 2022, 24 (8) ： 70-81. DOI： 10.13969/j.31 -1893.2022.08.007.(in Chinese)卢林枫，李忠鹏，丁凯，等.箱形钢楼盖主梁对(超)高层混合框架-钢筋混凝土核心筒结构性能的影响 研究J.建筑钢结构进展,2022, 24 (8) ： 82-94. DOI： 10.13969/j.31-1893.2022.08.008.LU Linfeng, LI Zhongpeng, DING Kai, et al. Study on the influence of steel box girders on the performance of (super) high-rise hybrid frame-core tube structureJ. Progress in Steel Building S(ruclures» 2022, 24 (8)： 82-94. DOI： 10.13969/j.31 -1893.2022.08.008.(in Chinese)邵冰，苏英强，邹海涛，等.高层钢管混凝土框架-屈曲约束支撑结构多因素减震效果研究J.建筑钢结构进展，2022, 24 (8) ： 95-105. DOI： 10.13969/j.31 -1893.2022.08.009.SHAO Bing, SU Yingqiang, ZOU Hai(ao> et al. Study on multi factor seismic mitigation effect of high-rise concrete filled steel tubular frame with buckling restrained bracesfJl. Progress in Steel Building Structures, 2022, 24 (8) ： 95-105. DOI： 10.13969/).31 -1893.2022.08.009.(in Chinese)陈荣，马志东，冯飞，等.考虑内力重分布影响的高层结构减震构件单步优化法J.建筑钢结构进展， 2022, 24 (8) ： 106-116. DOI： 10.13969/j.31 -110.CHEN Rong, MA Zhidong, FENG Fei, et al. Single-step optimization method considering influence of internal force redistribution for energy dissipation components of high-rise structures!J. Progress in Steel Building Structures, 2022, 24 (8) ： 106-116. DOI： i0.13969/j.31 -1893.2022.08.010.(in Chinese)聂少锋，张林，叶梦娜，等.RC环梁式圆钢管约束SRC柱-狗骨式钢梁节点抗震性能研究J.建筑钢结 构进展，2022, 24 (9) ： I-1LDOI： 10.13969/).31 -11.NIE Shaofeng» ZHANG Ben, YE Mengna. et al. An investigation on the seismic behavior of circular steel tube confined SRC column-RBS joints with RC ring beamfJl. Progress in Steel Building Structures, 2022, 24 (9) ： 1-11. DOI： 10.13969/j.31 -1893.2022.09.001 .(in Chinese)陈铭，石韵，苏明周，等.混合联股部分外包组合剪力墙-钢连梁刚接节点极限承载力研究J|.建筑钢结 构进展，2022, 24 (9) ： 12-24. DOI： 10.13969/j.31 -1893.2022.09.002.CHEN Nuo, SHI Yun» SU Mingzhou, et al. The ultimate bearing capacity of rigid joint of hybrid coupled partially encased composite shear wall-steel coupling beam J. Progress in Steel Building Structures, 2022, 24 (9) ： 12-24. DOI： 10.13969/j.31-1893.2022.09.002. (in Chinese)王景玄，王文琦.不同连接形式的钢管混凝土节点抗连续倒塌与抗震综合能力分析J.建筑钢结构进展， 2022, 24 (9) ： 25-35. DOI： 10.13969/).31 -1893.2022.09.003.WANG Jingxuan, WANG Wenqi. Analysis of progressive collapse resistance and comprehensive seismic capability of concrcte-fillcd steel tubular joints in different connection typeslJJ. Progress in Steel Building Structures, 2022, 24 (9) ： 25-35. DOI： 10.13969/j.31 -1893.2022.09.003.(in Chinese)任重，刘家巍，戴柳丝.冷弯薄壁型钢货架梁柱节点子结构抗连续性倒塌性能研究叫.建筑钢结构进展， 2022, 24 (9) ： 36-44, 66. DOI： 10.13969/).31 -1893.2022.09.004.REN Chong, LIU Jiawci. DAI Liusi. Progressive collapse resistance of cold-formcd th in-walled steel storage rack bcam-to-upright connection substructure!J|. Progress in Steel Building Structures, 2022, 24 (9) ： 36- 44 , 66. DOI： 10.13969/j.31 -1893.2022.09.004.(in Chinese)王静峰，陶书庆，沈奇罕，等.椭圆钢管混凝土压弯扭复合受力性能及承载力计算方法研究J.建筑钢结 构进展，2022, 24 (9) ： 45-55. DOI： 10.13969/j.31 -1893.2022.09.005.WANG Jingfeng, TAOShuqing, SHEN Qihan, et al. Mechanical performance and bearing capacity calculation of elliptical CFST members subjected to compression, bending and torsion|JJ. Progress in Steel Building Structures, 2022, 24 (9) ： 45-55. 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