个人简介
嘉兴大学建筑工程学院专任讲师。博士毕业于韩国江原国立大学建筑工程系,工学博士学位。主要研究领域为环保可持续建筑材料的开发,超高性能混凝土的自生收缩性能评估,以及混凝土产业CO2利用及封存等。曾作为分项目负责人参与韩国自然基金项目5项。曾获得中国国家留学基金委CSC资助公派于韩国学习。目前以第一作者发表SCI论文13篇,包括水泥混凝土领域顶刊Cement and Concrete Composites, Construction and Building Materials, Journal of Cleaner Production, Journal of Materials Research and Technology。另外授权韩国发明专利7项。
教育经历
(1) 2020-09 至 2024-02, 韩国江原国立大学, 建筑工学, 博士
(2) 2016-09 至 2018-08, 韩国汉阳大学, 建筑工学, 硕士
(3) 2012-09 至 2016-06, 大连民族大学, 土木工程, 学士
研究论文
[1] Mei-Yu Xuan, Rong-xin Guo, Run-sheng Lin, Xiao-Yong Wang*. Mechanism of fineness and content of quartz powder on the improvement of carbonation curing efficiency. Cement and Concrete Composites. (2024), 105570. (SCI;工程技术1区;Top期刊;Q1;IF=10.664)
[2] Mei-Yu Xuan, Run-Sheng Lin, Yi-Han, Gui-yu Zhang, Cheng Guo, Xiao-Yong Wang*. Produce low-CO2 silica fume hybrid high-strength concrete using dry ice (solid CO2) as a CO2-utilized admixture. Journal of Cleaner Production. (2024), 142555. (SCI;环境科学与生态学1区;Top期刊;Q1;IF=9.619)
[3] Mei-Yu Xuan, Chao-feng Liang, Hyeong-Kyu Cho, Xiao-Yong Wang*. Utilization of nano-ZrO2 to improve the efficiency of carbonation curing of cement-based materials. Construction and Building Materials. (2023),404: 133297. (SCI;工程技术1区;Top期刊;Q1;IF=7.693)
[4] Mei-Yu Xuan, Si-hwan Lee, Hui-qin Hu, Xiao-Yong Wang*. Performance enhancement of ultra-high-performance concrete using dry ice as a CO2 utilized admixture. Construction and Building Materials. (2023),392: 131858. (SCI;工程技术1区;Top期刊;Q1;IF=7.693)
[5] Mei-Yu Xuan, Run-Sheng Lin, Tae-Beom Min, Xiao-Yong Wang*. Carbonation treatment of eggshell powder concrete for performance enhancement. Construction and Building Materials. (2023), 377: 130814. (SCI;工程技术1区;Top期刊;Q1;IF=7.693)
[6] Mei-Yu Xuan, and Xiao-Yong Wang*. Effect of belite-rich cement replacement on the properties enhancement of eco-efficient UHPC containing limestone powder and slag. Journal of Materials Research and Technology. (2023), 1487-1502. (SCI;材料科学1区;Top期刊;Q1;IF=6.267)
[7] Mei-Yu Xuan, Hyeong-Kyu Cho, Xiao-Yong Wang*. Performance improvement of waste oyster-shell powder–cement binary system via carbonation curing. Journal of Building Engineering. (2023),70: 106336. (SCI;工程技术2区;Q1;JCR前10%期刊;IF=7.144)
[8] Mei-yu Xuan, Sung Chul Bae, Seung-Jun Kwon, and Xiao-Yong Wang*. Sustainability enhancement of calcined clay and limestone powder hybrid ultra-high-performance concrete using belite-rich Portland cement. Construction and Building Materials. (2022), 351:128932. (SCI;工程技术1区;Top期刊;Q1;IF=7.693)
[9] Mei-Yu Xuan, and Xiao-Yong Wang*. Multi-technique investigation regarding the impact of cellulose nanofibers on ultra-high-performance concrete at the macroscopic and microscopic levels. Construction and Building Materials. (2022), 327:126936. (SCI;工程技术1区;Top期刊;Q1;IF=7.693)
[10] Mei-Yu Xuan, and Xiao-Yong Wang*. Autogenous shrinkage reduction and strength improvement of ultra-high-strength concrete using belite-rich Portland cement. Journal of Building Engineering. (2022), 59:105107. (SCI;工程技术2区;Q1;JCR前10%期刊;IF=7.144)
[11] Mei-Yu Xuan, Yi-Sheng Wang, Han-Seung Lee, and Seung-Jun Kwon, Xiao-Yong Wang*. Effect of Cement Types and Superabsorbent Polymers on the Properties of Sustainable Ultra-High-Performance Paste. Materials. (2021), 14:1497. (SCI;材料科学3区;Q1;IF=3.748)
[12] Mei-Yu Xuan, Yi Han, and Xiao-Yong Wang*. The hydration, mechanical, autogenous shrinkage, durability, and sustainability properties of cement–limestone–slag ternary composites. Sustainability. (2021), 13:1881. (SCI;环境科学与生态学3区;Q2;IF=3.889)
[13] Mei-Yu Xuan, Sara Yazdanpanah, and Ju-Hyung Kim*. Public rental housing ownership conversion based on housing affordability in China. Journal of Asian Architecture and Building Engineering. (2020), 19:220-229. (SCI;工程技术四区;Q2;IF=1.210)
科研项目
1. 韩国国家研究基金项目;碳转化法制备纳米方解石并将其应用于低CO2、高强、高耐久性混凝土的制备;RS-2023-00208720;项目经费: 284,464,000 韩元 (约 1,500,000 人民币);研究期间: 2023.03 – 2024.02 主要负责内容:碳转化技术研究;CO2利用和封存
2. 韩国国家研究基金项目;考虑气候变化和结构应力的低碳混凝土性能评估及最佳配合比设计方案;NRF-2020R1A2C4002093;项目经费: 300,000,000 韩元 (约 1,800,000 人民币);研究期间: 2020.09~2023.02 主要负责内容:低碳混凝土的配合比设计;环保可持续建筑材料的开发;低碳技术开发
3. 韩国国家研究基金项目;钢筋腐蚀模型及钢筋混凝土结构承载阻力劣化模型; NRF-2015R1A5A1037548; 项目经费: 700,000,000 韩元 (约4,200,000 人民币);研究期间: 2020.09~2022.2 主要负责内容:混凝土耐久性检测;微观组成相和形态分析;混凝土自生收缩的减少或抵消
4. 韩国国家研究基金会项目;由两个或多个国家推动的建设项目管理框架;No. 201800000000464;项目经费: 500,000,000 韩元 (约 2,500,000 人民币);研 究期间: 2017.06~2018.06 主要负责内容:以韩国美军基地建设项目为中心建立项目管理框架
5. 韩国国家研究基金会项目;城市轨道交通车站专用高效通风系统应用技术开发;No. 201600000002069;项目经费: 1,000,000,000 韩元 (约 5,000,000 人民币);研 究期间: 2016.12 – 2017.06 主要负责内容:车站通风系统检查和维护,项目经费报销,报告书编写
专利情况
[1] Wang Xiao-Yong, Xuan Mei-Yu, Yang bo, Meng Li-Yi, 2024. Manufacturing Method Of Alkaline Activated Slag Concrete Using Dry Ice. 韩国专利, 专利号: 10-2024-0019513, 授权公告日: 2024.04.28, 排名: 2.
[2] Wang Xiao-Yong, Xuan Mei-Yu, Wang Yi-Sheng, Yang bo, Meng Li-Yi, 2023. Cement Mixture For Ultra High Performance Concrete And Manufacturing Method Of Ultra High Performance Concrete Using The Same. 韩国专利, 专利号: 10-2023-0091246, 授权公告日: 2023.07.13, 排名: 2.
[3] Wang Xiao-Yong, Xuan Mei-Yu, Wang Yi-Sheng, Yang bo, Meng Li-Yi, 2023. Method And Computer Program For Providing Optimal Mixture Of Silica Fume Modified Concrete. 韩国专利, 专利号: 10-2023-0066795, 授权公告日: 2023.05.24, 排名: 2.
[4] Wang Xiao-Yong, Xuan Mei-Yu, Wang Yi-Sheng, 2022. Method for evaluation of properties of limestone-calcined clay-cement ternary blends using kinetic hydration model, and recording medium thereof. 韩国专利, 专利号: 10-2022-0025797, 授权公告日: 2022.02.28, 排名: 2.
[5] Wang Xiao-Yong, Xuan Mei-Yu, Han Yi, 2022. Method for optimal mix design of slag blended concrete considering carbonation and frost durability, and recording medium thereof. 韩国专利, 专利号: 10-2022-0018647, 授权公告日: 2022.02.14, 排名: 2.
[6] Wang Xiao-Yong, Xuan Mei-Yu, Lee Han-Seung, Lim Jong-Yeon, Han Yi, 2021. Method And Computer Program For Providing Optimal Mixture of Limestone Blended Concrete Considering Low Carbon Dioxide Emissions. 韩国专利, 专利号: 10-2021-0022585, 授权公告日: 2021.02.19, 排名: 2.
[7] Wang Xiao-Yong, Xuan Mei-Yu, Lee Han-Seung, Kim Tae-Wan, Han Yi, 2021. Method And Computer Program For Providing Optimal Mixture of Air entrained Fly Ash Blended Concrete Considering Carbonation Durability And Frost Durability. 韩国专利, 专利号: 10-2021-0022586, 授权公告日: 2021.02.19, 排名: 2.
获奖情况
1. 2024 年获优秀研究学术奖
2021年获国家留学基金委员会(CSC)公派留学奖学金
