1. 教学方面获奖
(1)2018年8月,指导大学生获得全国第四届“互联网+”创新创业大赛陕西省金奖。
(2)2018年9月,指导大学生获得“创青春”陕西省大学生创业大赛金奖。
(3)2017年8月,指导大学生获得全国第三届“互联网+”创新创业大赛陕西省金奖。
(4)2016年9月,指导大学生获得陕西省第二届“互联网+”创新创业大赛银奖;
(5)2015年7月,指导研究生获得首届陕西省研究生创新成果二等奖;
(6)2014年7月,获得第三届全国青年教师《混凝土结构》教学比赛一等奖;
(7)2014年6月,被评为西安建筑科技大学第六届“教坛新秀”;
(8)获得2010-2011学年、2012-2013学年西安建筑科技大学“最受学生欢迎的主讲教师”好评奖;
(9)分别获得西安建筑科技大学2008、2012届校优秀毕业设计指导教师;
(10)指导本科生毕业设计“西安建大住宅楼设计”荣获2012年陕西高校土木工程专业优秀毕业设计一等奖(第1指导教师);
(11)指导本科生毕业设计“西安钢厂住宅楼设计”荣获2009年陕西高校土木工程专业优秀毕业设计一等奖(第1指导教师);
(12)指导本科生毕业设计“西安科技大学某科研办公楼设计”荣获2008年陕西高校土木工程专业优秀毕业设计二等奖(第1指导教师);
2. 科研方面获奖
(1)入选2023年全球前2%顶尖科学家榜单(斯坦福大学,2022-2023);
(2)获得三秦英才产业领军人才(陕西省委组织部,2023);
(3)获得山东省泰山产业领军人才(山东省科技厅,2023);
(4)入选首批西安市领军型青年企业家(共青团西安市委,2022);
(5)获得陕西省科技创新创业人才(陕西省科技厅,2021);
(6)获得第15届苏州工业园区科技领军人才(苏州工业园区,2021);
(7)获得西安市领军创业人才(西安市科技局,2021);
(8)获得陕西省杰出青年基金资助(陕西省科技厅,2020);
(9)获得全国砌体结构领域优秀青年专家(中国工程建设标准化协会砌体结构专业委员会,2019);
(10)获得首届全国建筑结构行业杰出青年(中国勘察设计协会,2019);
(11)获得第18届陕西青年五四奖章(共青团陕西省委,2019);
(12)获得陕西省土木建筑科学技术一等奖,第一完成人(陕西省土木建筑学会,2018);
(13)获得中国产学研合作创新奖(中国产学研合作促进会,2017)。
3.代表性成果(近年的教学和科研成果,专著,专利)
邓明科教授在中外期刊上发表论文共200余篇,包括了SCI论文63篇(其中在一区TOP期刊《Engineering Structures》发表19篇,一区TOP期刊《Construction and Building Materials》发表22篇)和EI论文87篇(其中在行业顶级期刊《土木工程学报》、《建筑结构学报》共发表38篇)。
a.近五年发表SCI论文如下:
(1)Liying Guo, Mingke Deng*, Hui Chen, et al. Experimental study on pre-damaged RC beams shear-strengthened with textile-reinforced mortar (TRM). Engineering Structures, 2022 (256): 113956. (SCI二区)
(2)Tong Li, Mingke Deng*, Mengna Jin, et al. Experimental study on axial compressive behavior of full-scale masonry columns strengthened with reinforced high ductile concrete (RHDC). Engineering Structures, 2022 (252): 113650. (SCI二区)
(3)Yangxi Zhang, Tong Li, Mingke Deng*. Effect of splitting bond on shear response of reinforced engineered cementitious composite short columns under cyclic loading. Engineering Structures, 2022 (251):113474. (SCI二区)
(4)Wei Zhang, Mingke Deng*, Yagang Han, et al. Uniaxial tensile performance of high ductile fiber-reinforced concrete with built-in basalt textile grids. Construction and Building Materials, 2022 (315):125716. (SCI二区)
(5)Ruizhe Li, Mingke Deng*, Yangxi Zhang, et al. Shear strengthening of reinforced concrete deep beams with highly ductile fiber-reinforced concrete jacket. Journal of Building Engineering, 2022 (48):103957. (SCI一区)
(6) Liying Guo, Mingke Deng*, Ruizhe Li, et al. Shear strengthening of RC short columns with CFRP grid-reinforced FRC matrix: Cyclic loading tests. Journal of Building Engineering, 2022 (47):103915. (SCI一区)
(7)Hao Lyu, Mingke Deng*, Yuren Ma, et al. In-plane cyclic tests on strengthening of full-scale autoclaved aerated concrete blocks infilled RC frames using highly ductile concrete (HDC). Journal of Building Engineering, 2022 (49):104083. (SCI一区)
(8)Yangxi Zhang, Jiasheng Yang, Tong Li, Mingke Deng*. Mechanical behavior of RC columns strengthened with thin UHPC jacket under cyclic loads. Journal of Building Engineering,2022 (49):104065. (SCI一区)
(9)Tong Li, Mingke Deng*, Yuren Ma, et al. Study on axial compressive performance of HDC-masonry composite elements. Construction and Building Materials, 2021 (304):124593. (SCI一区)
(10)Zhifang Dong, Mingke Deng*, Jie Dai, et al. Diagonal compressive behavior of unreinforced masonry walls strengthened with textile reinforced mortar added with short PVA fibers. Engineering Structures, 2021 (246):113034. (SCI一区)
(11)Tong Li, Mingke Deng*, Mengna Jin, et al. Performance of axially loaded masonry columns confined using textile reinforced concrete (TRC) added with short fibers. Construction and Building Materials, 2021, 279: 122413. (SCI一区)
(12)Zhifang Dong, Mingke Deng*, Jie Dai, et al. Flexural strengthening of RC slabs using textile reinforced mortar improved with short PVA fibers. Construction and Building Materials, 2021, 304: 124613. (SCI一区)
(13)Fudong Ma, Mingke Deng*, Yong Yang. Experimental study on internal precast beam-column ultra-high-performance concrete connection and shear capacity of its joint. Journal of Building Engineering, 2021, 44: 103204. (SCI二区)
(14)Mingke Deng, Min Zhang, Fudong Ma, et al. Flexural strengthening of over-reinforced concrete beams with highly ductile fiber-reinforced concrete layer. Engineering Structures, 2021, 231: 111725. (SCI一区)
(15)Tong Li, Mingke Deng*, Yangxi Zhang. Effect of eccentricity on strengthening efficiency of bar mesh high ductile concrete (BMHDC) on slender masonry columns. Engineering Structures, 2021, 230: 111732. (SCI一区)
(16)Zhifang Dong, Mingke Deng*, Yangxi Zhang, et al. Strengthening of unreinforced masonry walls against out-of-plane loads using carbon textile reinforced mortar optimized by short PVA fibers. Engineering Structures, 2021, 227: 111433. (SCI一区)
(17)Fudong Ma, Mingke Deng*, Yuren Ma, et al. Experimental study on interior precast concrete beam–column connections with lap-spliced steel bars in field-cast RPC. Engineering Structures, 2021, 228: 111481. (SCI一区)
(18)Min Zhang, Mingke Deng*, Zhiyan Wu, et al. Flexural cracking behavior and calculation approach of reinforced highly ductile fiber-reinforced concrete beams. Archives of Civil and Mechanical Engineering, 2021, 21(4): 1-14.(SCI二区)
(19) Ruizhe Li, Mingke Deng*, Yangxi Zhang. Behavior of highly ductile fiber–reinforced concrete columns under eccentric loading. Structures, 2021 (33): 3357-3370. (SCI三区)
(20)Mingke Deng, Min Zhang, Zihao Zhu, et al. Deformation capacity of over-reinforced concrete beams strengthened with highly ductile fiber-reinforced concrete. Structures, 2021, 29: 1861-1873. (SCI三区)
(21)Tong Li, Mingke Deng*, Yuren Ma, Yangxi Zhang. In-plane behavior of URM wall with openings strengthened with ECC subjected to cyclic load. Structures, 2021, 34: 2765-2776.(SCI三区)
(22)Zhifang Dong, Mingke Deng*, Cong Zhang, et al. Tensile behavior of glass textile reinforced mortar (TRM) added with short PVA fibers. Construction and Building Materials, 2020. (SCI二区)
(23)Tong Li, Mingke Deng*, Zhifang Dong, et al. Masonry columns confined with glass textile-reinforced high ductile concrete (TRHDC) jacket. Engineering Structures, 2020. (SCI二区)
(24)Mingke Deng, Wei Zhang, Shuo Yang. In-plane seismic behavior of autoclaved aerated concrete block masonry walls retrofitted with high ductile fiber-reinforced concrete. Engineering Structures, 2020. (SCI二区)
(25)Zhifang Dong, Mingke Deng*, Yangxi Zhang, et al. Out-of-plane strengthening of unreinforced masonry walls using textile reinforced mortar added short polyvinyl alcohol fibers. Construction and Building Materials, 2020. (SCI二区)
(26)Mingke Deng, TongLi, Yangxi Zhang. Compressive performance of masonry columns confined with highly ductile fiber reinforced concrete (HDC). Construction and Building Materials, 2020. (SCI二区)
(27)Mingke Deng, Fudong Ma, Shifei Song, et al. Seismic performance of interior precast concrete beam-column connections with highly ductile fiber-reinforced concrete in the critical cast-in-place regions. Engineering Structures, 2020. (SCI二区)
(28)Mingke Deng, Suo Yang. Experimental and numerical evaluation of confined masonry walls retrofitted with engineered cementitious composites. Engineering Structures, 2020. (SCI二区)
(29)Mingke Deng, Tong Li. Masonry columns strengthened with bar mesh highly ductile fiber reinforced concrete (BMHDC) jacket under concentric and eccentric loads. Construction and Building Materials, 2020. (SCI二区)
(30)Mingke Deng, Zhifang Dong, Cong Zhang. Experimental investigation on tensile behavior of carbon textile reinforced mortar (TRM) added with short polyvinyl alcohol (PVA) fibers. Construction and Building Materials, 2020. (SCI二区)
(31)Mingke Deng, Wei Zhang. In-plane cyclic loading tests of concrete hollow block masonry walls retrofitted with high ductile fiber-reinforced concrete. Construction and Building Materials, 2020. (SCI二区)
(32)Mingke Deng, Fudong Ma, Xuesong Wang, et al. Investigation on the shear behavior of steel reinforced NC/HDC continuous deep beam. Structures, 2020. (SCI三区)
(33)Mingke Deng, Zhifang Dong, Xuesong Wang, Yangxi Zhang, Tiegang Zhou. Shaking table tests of a half-scale 2-storey URM building retrofitted with a high ductility fibre reinforced concrete overlay system. Engineering Structures, 2019(197): 109424(SCI二区)
(34)Mingke Deng, Zhifang Dong, Ping Ma. Cyclic loading tests of flexural-failure dominant URM walls strengthened with engineered cementitious composite. Engineering Structures, 2019(194): 173-182(SCI二区)
(35)Yangxi Zhang, Mingke Deng*, Zhifang Dong. Seismic response and shear mechanism of engineered cementitious composite (ECC) short columns. Engineering Structures, 2019(192): 296-304(SCI二区)
(36)Mingke Deng, Jiaojiao Pan, Hongzhe Sun. Bond behavior of deformed bar embedded in Engineered Cementitious Composites under cyclic load. Construction and Building Materials, 2019(197): 164-174(SCI二区)
(37)Mingke Deng, Zhifang Dong, Xuesong Wang, Yangxi Zhang, Tiegang Zhou. Shaking table tests of a half-scale 2-storey URM building retrofitted with a high ductility fibre reinforced concrete overlay system. Engineering Structures, 2019(197): 109424(SCI二区)
(38)Mingke Deng, Fudong Ma, Wang Ye, Fangyuan Li. Flexural behavior of reinforced concrete beams strengthened by HDC and RPC. Construction and Building Materials, 2018: 995-1006. (SCI二区)
(39)Mingke Deng, Shuo Yang. Cyclic testing of unreinforced masonry walls retrofitted with engineered cementitious composites. Construction and Building Materials, 2018: 395-408. (SCI二区)
(40)Mingke Deng, Fudong Ma, Wang Ye, Xingwen Liang. Investigation of the shear strength of HDC deep beams based on a modified direct strut-and-tie model. Construction and Building Materials, 2018: 340-348. (SCI二区)
(41)Mingke Deng, Jiaojiao Pan, Hongzhe Sun. Bond behavior of steel bar embedded in Engineered Cementitious Composites under pullout load. Construction and Building Materials, 2018: 705-714. (SCI二区)
(42)Mingke Deng, Yangxi Zhang, Qiqi Li. Shear strengthening of RC short columns with ECC jacket: Cyclic behavior tests. Engineering Structures, 2018: 535-545. (SCI二区)
(43)Mingke Deng, Yangxi Zhang. Seismic Performance of High-Ductile Fiber-Reinforced Concrete Short Columns. Advances in Civil Engineering, 2018: 1-11.(SCI四区)
(44)Mingke Deng, Yangxi Zhang. Cyclic loading tests of RC columns strengthened with high ductile fiber reinforced concrete jacket. Construction and Building Materials, 2017(153): 986-995(SCI二区)
b.近五年发表EI论文如下:
(1)邓明科, 王雪松, 张敏, 马福栋, 罗妍, 孙宏哲.钢筋高延性混凝土梁裂缝试验研究与计算方法. 材料导报, 2022, 36(02): 93-101.
(2)马福栋, 邓明科*, 杨勇. 超高性能混凝土装配整体式框架梁柱节点抗震性能研究. 工程力学, 2021, 38 (10): 90-102.
(3)邓明科, 宋诗飞, 张敏, 马福栋, 陈尚城, 张阳玺. 高延性混凝土加固钢筋混凝土梁受剪性能试验研究及承载力计算. 工程力学, 2021, 38 (09): 36-44+63.
(4)邓明科, 马向琨, 张伟, 李宁. 高延性混凝土加固蒸压加气混凝土砌体墙抗震性能试验研究. 工程力学, 2021, 38 (07): 9-18.
(5)邓明科, 李彤, 范丽玮. 钢筋网高延性混凝土加固砖柱偏心受压性能试验及计算方法研究. 工程力学, 2021, 38 (05): 61-71.
(6)邓明科, 刘俊超, 张阳玺, 刘海勃, 景武斌. 钢板-高延性混凝土组合低矮剪力墙抗震性能试验研究. 工程力学, 2021, 38(03): 40-49.
(7)邓明科, 代龙, 何斌斌, 张阳玺. 塑性铰区采用高延性混凝土梁变形性能研究. 工程力学, 2021, 38 (01): 52-63+99.
(8)邓明科, 张敏,张阳玺,陈森. 内置钢板-高延性混凝土组合连梁抗震性能试验研究. 工程力学, 2020,37(07): 47-56.
(9)邓明科, 李琦琦, 马福栋, 黄政. 高延性混凝土加固RC梁抗剪性能试验研究.工程力学,2020,37(05):55-63.
(10)邓明科, 董志芳, 樊鑫淼, 梁兴文. 高延性混凝土面层加固受弯无筋砌体墙抗震性能试验研究. 工程力学, 2020, 37(03): 46-55.
(11)邓明科, 刘华政, 马福栋, 邓灿. 聚乙烯醇纤维改性高延性混凝土双面剪切试验及剪切韧性评价方法.复合材料学报,2020,37(02):461-471.
(12)邓明科, 李琦琦, 刘海勃, 景武斌. 高延性混凝土低矮剪力墙抗震性能试验研究及抗剪承载力计算.工程力学,2020,37(01):63-72.
(13)张阳玺, 邓明科*, 高登科. 高延性混凝土加固高轴压比剪力墙抗震性能试验研究.振动与冲击,2020,39(01):49-56.
(14)邓明科, 李睿喆, 张阳玺, 闵秀明. 高延性混凝土偏心受压柱正截面受力性能试验研究.工程力学,2019,36(11):62-71.
(15)邓明科, 马福栋, 叶旺, 殷鹏飞. 局部采用高延性混凝土装配式框架梁-柱节点抗震性能试验研究.工程力学,2019,36(09):68-78.
(16)邓明科, 潘姣姣, 韩剑, 梁兴文. 高延性混凝土加固剪力墙抗震性能试验研究.建筑结构学报,2019,40(11):45-55.
(17)邓明科, 成媛, 翁世强, 张阳玺. 高温后高延性混凝土的抗压性能及微观结构.复合材料学报,2020,37(04):985-996.
(18)邓明科, 董志芳, 杨铄, 王露, 周铁钢. 高延性混凝土加固震损砌体结构振动台试验研究.工程力学,2019,36(07):116-125.
(19)邓明科, 李彤, 樊鑫淼. 高延性混凝土加固砖柱轴压性能试验研究.工程力学,2019,36(05):92-99.
(20)邓明科, 张阳玺, 熊鑫. 剪切-黏结破坏高延性混凝土短柱拟静力试验研究.湖南大学学报(自然科学版),2019,46(03):33-40.
(21)邓明科, 吕浩, 宋恒钊. 外包钢板-高延性混凝土组合连梁抗震性能试验研究.工程力学,2019,36(03):192-202.
(22)邓明科, 张阳玺, 陈尚城. 高延性混凝土加固框架柱抗震性能试验研究及其轴压比限值分析.土木工程学报,2019,52(02):22-31+65.
(23)邓明科, 杨铄, 王露. 高延性混凝土加固无筋砖墙抗震性能试验研究与承载力分析.工程力学,2018,35(10):101-111+123.
(24)周铁钢, 田鹏, 邓明科, 赵祥, 张浩, 梁增飞. 高延性纤维增强水泥基复合材料加固空斗墙承重房屋模型振动台试验研究.建筑结构学报,2018,39(12):147-152.
(25)邓明科, 杨铄, 梁兴文. 高延性混凝土加固无筋砖砌体墙抗震性能试验研究.土木工程学报,2018,51(06):43-53.
(26)邓明科, 杨铄, 梁兴文. 高延性混凝土单面加固构造柱约束砖砌体墙抗震性能试验研究.土木工程学报,2018,51(04):10-19.
(27)邓明科, 张阳玺, 胡红波. 高延性混凝土加固钢筋混凝土柱抗剪承载力计算.工程力学,2018,35(03):159-166.
(28)邓明科, 潘姣姣, 梁兴文. 高延性混凝土与钢筋黏结性能的试验研究.土木工程学报,2018,51(03):19-26+35.
(29)代洁, 邓明科*, 陈佳莉. 基于材料延性的高延性混凝土无腹筋梁受剪性能试验研究.工程力学,2018,35(02):124-132.
(30)邓明科, 潘姣姣. 基于双参数损伤阈值的高延性混凝土损伤本构模型研究.地震工程与工程振动,2018,38(01):89-96.
(31)邓明科, 马福栋, 李勃志, 梁兴文. 基于修正拉-压杆模型的型钢混凝土深梁受剪承载力分析.工程力学,2017,34(12):95-103.
(32)邓明科, 张阳玺, 胡红波. 高延性混凝土加固钢筋混凝土柱抗震性能试验研究.建筑结构学报,2017,38(06):86-94.
(33)邓明科, 卜新星, 潘姣姣, 梁兴文. 型钢高延性混凝土短柱抗震性能试验研究.工程力学,2017,34(01):163-170.
(34)邓明科, 代洁, 梁兴文, 张明玥. 高延性混凝土无腹筋梁受剪性能试验研究.工程力学,2016,33(10):208-217.
(35)邓明科, 张辉, 梁兴文, 卜新星. 高延性纤维混凝土短柱抗震性能试验研究.建筑结构学报,2015,36(12):62-69.
(36)邓明科, 卢化松, 杨开屏, 梁兴文. 型钢高延性混凝土短梁抗剪性能试验研究.建筑结构学报,2015,36(10):73-80.
(37)邓明科, 樊鑫淼, 高晓军, 梁兴文. ECC面层加固受损砖砌体墙抗震性能试验研究.工程力学,2015,32(04):120-129.
(38)孙宏哲, 邓明科*, 孙飞, 梁兴文, 刘煜, 朱蕾宏.半刚接钢框架内填高延性纤维混凝土剪力墙结构抗震性能试验研究.土木工程学报,2015,48(03):42-51.
(39)邓明科, 孙飞, 孙宏哲, 梁兴文, 刘煜, 朱蕾宏. 钢框架内填高延性纤维混凝土剪力墙结构滞回性能试验研究.建筑结构学报,2014,35(12):29-36.
c.授权专利
(1)邓明科,马福栋,叶旺,一种高强高延性混凝土装配式框架预制节点[P],实用新型专利:ZL201820117340.6
(2)邓明科,马福栋,叶旺,一种高强高延性混凝土装配式框架结构体系[P],实用新型专利:ZL201820117341.0
(3)邓明科,叶旺,李彤,马福栋,一种装配式高延性混凝土梁柱节点[P],实用新型专利:ZL201820118247.7
(4)邓明科,吕浩,马福栋,一种可更换装配式高延性混凝土连梁[P],实用新型专利:ZL201820116966.5
(5)邓明科,叶旺,马福栋,李彤,一种装配式高延性混凝土剪力墙连接结构[P],实用新型专利:ZL201820117768.0
(6)邓明科,马福栋,叶旺,一种装配式高强高延性混凝土免套筒连接结构[P],实用新型专利:ZL201820117618.X
(7)邓明科,李彤,叶旺,马福栋,一种高延性混凝土组合砌体结构的滑移隔震装置及其施工方法,[P],发明专利:ZL201810064625.2
(8)邓明科,李彤,叶旺,马福栋,一种无圈梁砌体结构的滑移隔震装置及其施工方法[P],发明专利:ZL201810065788.2
(9)邓明科,李彤,叶旺,马福栋,一种有圈梁砌体结构的滑移隔震装置及其施工方法[P],发明专利:ZL201810063818.6
(10)邓明科,李彤,叶旺,马福栋,一种高延性混凝土组合砌体结构的滑移隔震装置[P],实用新型专利:ZL201820111459.2
(11)邓明科,李彤,叶旺,马福栋,一种有圈梁砌体结构的滑移隔震装置[P],实用新型专利:ZL201820112072.9
(12)邓明科,张凡,卜新星,一种高延性混凝土-绕丝木柱加固结构[P],实用新型专利:ZL201820110456.7
(13)邓明科,卜新星,张思海,余志平,一种砖砌体墙加固结构[P],实用新型专利:ZL201820111023.3
(14)邓明科,张凡,卜新星,一种高延性混凝土-砖柱围套木柱加固结构[P],实用新型专利:ZL201820111024.8
(15)邓明科,李彤,叶旺,马福栋,一种无圈梁砌体结构的滑移隔震装置[P],实用新型专利:ZL201820112832.6
(16)邓明科,马福栋,卜新星,张思海,一种型钢高延性混凝土深梁[P],实用新型专利:ZL201621482036.9
(17)邓明科,马福栋,张思海,一种梁抗弯加固装置[P],实用新型专利:ZL201621482034.X
(18)邓明科,马福栋,张阳玺,张思海,一种混凝土梁抗剪加固装置[P],实用新型专利:ZL201621480269.5
(19)邓明科,卜新星,张思海,宋林,景武斌,一种空斗墙加固装置[P],实用新型专利:ZL201621483562.7
(20)张思海,卜新星,邓明科,宋林,一种楼板加固装置[P],实用新型专利:ZL201621483561.2
(21)邓明科,张阳玺,卜新星,张思海,一种钢筋混凝土柱加固装置[P],实用新型专利:ZL201621482054.7
(22)邓明科,潘姣姣,张思海,兰丽娜,一种钢筋混凝土剪力墙加固装置[P],实用新型专利:ZL201621489128.X
(23)邓明科,卜新星,潘姣姣,张思海,一种生土墙加固装置[P],实用新型专利:ZL201621483574.X
(24)邓明科,卜新星,张阳玺,张思海,一种预制钢板‑高延性混凝土连梁[P],实用新型专利:ZL201621480221.4
(25)张思海,景武斌,邓明科,兰丽娜,一种砖砌体结构预制板支撑加固装置[P],实用新型专利:ZL201621488988.1
(26)邓明科,景武斌,张思海,一种高延性混凝土组合抗震墙[P],实用新型专利:ZL201621488226.1
(27)张思海,潘姣姣,卜新星,邓明科,一种高延性混凝土‑轻钢组合墙体[P],实用新型专利:ZL201621488199.8
(28)张思海,卜新星,潘姣姣,邓明科,一种高延性混凝土‑轻质芯材组合抗震墙[P],发明专利:ZL201621480236.0
(29)邓明科,马福栋,张思海,一种超高性能混凝土预制空腹梁[P],发明专利:ZL201621488144.7
(30)张思海,卜新星,潘姣姣,邓明科,一种高延性混凝土-轻质芯材组合抗震墙[P],发明专利:ZL201611260209.7
(31)邓明科,梁兴文,樊鑫淼,一种钢管高延性纤维混凝土组合柱[P],发明专利:ZL201210435077.2
(32)邓明科,梁兴文,代洁,一种高延性纤维混凝土组合框架填充墙及其施工方法[P],发明专利:ZL201210434311.X
(33)邓明科,梁兴文,秦萌,一种砖砌体墙增设圈梁的方法[P],发明专利:201210435115.4
(34)邓明科,梁兴文,秦萌,一种砖砌体墙增设构造柱的方法[P],发明专利:ZL201210435003.9
(35)邓明科,梁兴文,樊鑫淼,一种高延性组合砖柱及其施工方法[P],发明专利:ZL201210435111.6
(36)邓明科;梁兴文;代洁;景武斌,一种高延性空心砌块及其制作方法[P],发明专利:201210434936.6
(37)梁兴文;邓明科;车佳玲;李方圆;孙宏哲;党争;王英俊,一种小跨高比交叉式对角斜筋连梁[P],发明专利:201210434315.8
(38)邓明科;梁兴文;孙宏哲;秦萌,一种屋面防水层的抗裂保护砂浆[P],发明专利:201210434271.9
(39)邓明科;梁兴文;孙飞,一种型钢高延性纤维混凝土组合柱[P],发明专利:201210434312.4
(40)梁兴文;邓明科;代洁;景武斌,一种高延性砂浆[P],发明专利:201210435019.X
(41)邓明科;梁兴文;樊鑫淼,一种高延性纤维混凝土组合砖砌体墙及其施工方法[P],发明专利:201210435004.3
(42)邓明科;梁兴文;樊鑫淼,一种高延性纤维混凝土组合砌块砌体墙及其施工方法[P],发明专利:201210435151.0
(43)梁兴文;车佳玲;邓明科;李方圆;史金田;孙云飞,一种高延性联肢剪力墙[P],发明专利:201210435018.5
(44)邓明科;梁兴文;樊鑫淼,一种内嵌式型钢高延性纤维混凝土组合柱[P],发明专利:201210435016.6
(45)邓明科;梁兴文;孙宏哲;秦萌,一种高延性纤维混凝土楼面整浇层的施工方法[P],发明专利:201210434270.4
(46)邓明科;梁兴文;代洁,一种高延性纤维混凝土组合砖砌体烟囱及其施工方法[P],发明专利:201210434818.5
(47)邓明科;梁兴文;代洁,一种高延性纤维混凝土低矮剪力墙[P],发明专利:201210435078.7
(48)邓明科;梁兴文;代洁,一种高延性纤维混凝土短柱[P],发明专利:201210437098.8
(49)邓明科;梁兴文;秦萌,一种高延性混凝土嵌入式构造柱的施工方法[P],发明专利:201210435152.5
(50)梁兴文;邓明科;代洁,一种高延性砖柱[P],发明专利:201210435020.2
(51)邓明科;梁兴文;秦萌,一种增设圈梁的砖砌体墙[P],实用新型专利:201220575970.0
(52)邓明科;梁兴文;樊鑫淼;高晓军,一种砖砌体墙的组合加固装置[P],实用新型专利:201220576221.X
(53)邓明科;梁兴文;代洁,一种高延性砌体窗间墙[P],实用新型专利:201220575175.1
(54)邓明科,梁兴文,樊鑫淼,一种高延性纤维混凝土组合砖砌体墙及其施工方法[P],发明专利:ZL201210435004.3
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