个人简介
教育经历
2018.9—2023.6,山东大学,桥梁与隧道工程,博士
2014.9—2018.6,山东大学,土木工程,学士
工作经历
2023.10—至今,金沙集团3354cm,金沙集团3354cm,讲师(准聘副教授)
学术兼职:担任《新材料·新装饰》期刊编委以及多个国内外知名学术期刊审稿人
研究方向
高性能水泥基材料、固体废弃物再生利用、路面结构力学响应
科研项目
(1)金沙集团3354cm引进人才科研启动项目,30万元,主持;
(2)国家自然科学基金面上项目,基于胶凝材料颗粒间相互作用力及骨料特性的自密实混凝土流变性能及机理研究,参与;
(3)山东省自然科学基金面上项目,ECC-钢筋混凝土功能梯度梁力学形为及氯离子传输行为研究,参与;
(4)江苏省自然科学基金青年基金项目,水泥石微观断裂模型构建和力学性能研究,参与。
期刊论文
1.Yuan HQ, Ge Z, Sun RJ, Xu XX, Lu Y, Ling YF*, Zhang HZ*. Drying shrinkage, durability and microstructure of foamed concrete containing high volume lime mud-fly ash [J]. Construction and Building Materials, 2022, 327.
2.Yuan HQ, Ge Z, Zhang HZ, Ling YF*, Guan YH, Wang C. The coefficient of friction and Hamaker constants of cementitious materials [J]. Materials Letters, 2023, 330.
3.Yuan HQ, Ma CY, Liu JM, Ge Z, Ling YF, Zhang HZ*, Tawfek AM, Sun RJ. The effects of particle packing and inter-particle force on rheological behaviors of binary cement paste, KSCE Journal of Civil Engineering, 2024.
4.Yuan HQ, Guan YH, Zhang X*, Sun RJ*, Ge Z, Li W, Feng YJ. Numerical Investigation of the Mechanical Response of Solar Pavement Based on Cement Concrete Under Vehicle and Temperature Loading [J]. Arabian Journal for Science and Engineering, 2022.
5.Zhou Y, Wang YL, Gao TM, Ling YF*, Jiang ND, Tawfek AM,Yuan HQ*. Optimization of Graphene Nanoplatelets Dispersion and Its Performance in Cement Mortars [J]. Materials, 2022, 15(20):1-14
6.Ge Z,Yuan HQ, Sun RJ*, Zhang HZ*, Wang WL, Qi H. Use of green calcium sulphoaluminate cement to prepare foamed concrete for road embankment: A feasibility study [J]. Construction and Building Materials, 2020, 237.
7.Zhang HZ,Yuan HQ, Ge Z*, Wu JJ, Fang C, Schlangen E, Savija B. Fresh and hardened properties of self-compacting concrete containing recycled fine clay brick aggregates [J]. Materials and Structures, 2021, 54(4):1-13.
8.Li ZC,Yuan HQ, Gao FL, Zhang HZ, Ge Z, Wang K, Sun RJ, Guan YH*, Ling YF*, Jiang ND. A Feasibility Study of Low Cement Content Foamed Concrete Using High Volume of Waste Lime Mud and Fly Ash for Road Embankment [J]. Materials, 2022, 15(1):1-17.
9.Guan YH,Yuan HQ, Ge Z*, Huang YJ, Li S, Sun RJ. Flexural Properties of ECC-Concrete Composite Beam[J]. Advances in Civil Engineering, 2018, 2018:1-7.
10.Ge Z, Feng YJ,Yuan HQ, Zhang HZ*, Sun RJ*, Wang Z. Durability and shrinkage performance of self-compacting concrete containing recycled fine clay brick aggregate[J]. Construction and Building Materials, 2021, 308.
11.Tawfek AM, Ge Z,Yuan HQ, Zhang N, Zhang HZ*, Ling YF*, Guan YH, Savija B. Influence of fiber orientation on the mechanical responses of engineering cementitious composite (ECC) under various loading conditions [J]. Journal of Building Engineering, 2023, 63.
12.Ge Z, Tawfek AM, Zhang HZ*, Yang YW,Yuan HQ, Sun RJ*, Wang Z. Influence of an extrusion approach on the fiber orientation and mechanical properties of engineering cementitious composite[J]. Construction and Building Materials, 2021, 306.
13.袁化强,李洪印,崔志勇,孙仁娟,管延华,葛智.非黏结混凝土-ECC复合功能梯度构件弯曲性能研究[J].铁道科学与工程学报, 2019, 16(07): 1765-1773.
14.袁化强,朱登元,张宏庆,吴佳杰,徐茜茜,孙仁娟.三轴应力条件下泡沫轻质土压缩特性[J].硅酸盐通报, 2020, 39(10): 3379-3385.
15.葛智,高天明,王思琪,盛丽艳,陈萌萌,孙柯,万田涛,袁化强*.粗骨料特性对新拌自密实混凝土流动性能的影响[J],混凝土,2024.
16.张暄,冯玉洁,袁化强,管延华,李武,葛智,孙仁娟.承载式光伏路面面板路用性能试验研究[J].公路, 2022, 67(09): 138-145.
17.毕玉峰,袁化强,张文武,王飞,宋杰,李晨.水泥基粉煤灰粉土气泡混合轻质土性能研究[J].路基工程, 2021, 219(06): 75-80.
专利软著
1.DEVICE AND METHOD FOR REINFORCINGRECYCLED AGGREGATE BASED ON IN-SITU C-S-H PRODUCTION,US11,187,460 B2,排名第2(美国发明专利);
2.一种基于原位生成C-S-H强化再生集料的装置与方法,ZL 2018 1 1331818.6,排名第2;
3.一种装配式ECC-光伏发电路面结构及施工方法,ZL 2019 1 1129757.X,排名第2;
4.一种生态和工程一体化的装配式边坡防护结构及施工方法,ZL 2022 1 0149719.6,排名第2;
5.一种非粘结性超高韧性水泥基复合材料功能梯度梁,ZL 2017 2 1486460.5,排名第2;
6.一种可调节气孔特征的泡沫混凝土制备方法,ZL 2020 1 0641016.6,排名第3;
7.一种混凝土施工振捣参数快速测定装置及方法,ZL 2021 1 1323331.5,排名第4;
8.一种基于原位生成碳酸钙强化再生集料的装置与方法,ZL 2018 1 1332138.6,排名第5;
9.一种基于地下暗拱结构的不良地基加固体系及其加固方法,ZL 2022 1 0192912.8,排名第5;
10.POOR FOUNDATION REINFORCEMENT SYSTEM AND REINFORCEMENT METHOD BASED ON UNDERGROUND CONCEALED ARCH STRUCTURES,US 11,773,560 B2,排名第5(美国发明专利);
11.一种多功能装配式光伏发电路面及施工方法,ZL 2019 1 1128450.8,排名第6;
12.一种装配式光伏发电-高性能混凝土路面结构及施工方法,ZL 2019 1 1129742.3,排名第6;
13.ECC轴向拉伸试验变形监测系统及方法,ZL 2016 1 0004811.8,排名第7;
14.一种混凝土界面过渡区微观粘结强度和弹性模量测试方法,ZL 2020 1 0954440.6,排名第7;
15.一种水泥石微观抗压强度与弹性模量的测试装置与方法,ZL 2020 1 0916666.7,排名第7;
16.一种装配式沥青混凝土-光伏发电路面结构及施工方法,ZL 2019 1 1128501.7,排名第7;
17.一种基于DIC技术的混凝土材料疲劳变形量及裂缝宽度的测量方法,ZL 2021 1 0743678.9,排名第7;
18.一种具有负泊松比特性的水泥基复合材料、方法及应用,ZL 2020 1 1620382.X,排名第8;
19.超高韧性水泥基复合材料排出定向型伴合机及排出方法,ZL 2018 1 1504598.2,排名第9;
20.一种水泥石微观试样的制备及弯拉强度测试的装置与方法,ZL 2020 1 0928290.1,排名第9;
21.用于测试激光雷达在恶劣天气下工作性能的装置及方法,ZL 2020 1 0327269.6,排名第9;
22.基于路侧激光雷达的车辆排队长度实时估计方法及系统,ZL 2020 1 0328012.2,排名第10;
23.Application method of a quantitative determination device for the saturated surface dry condition of fine aggregates,2022/04499,排名第10;
24.高吸水性树脂轻质混凝土配合比设计计算软件V1.0,2019SR1168984,排名第1;
25.基于格构模型理论的混凝土轴压试验模拟系统V1.0,2020SR1906871,排名第4.