杨元意

职      称:

副教授

博导/硕导:

硕导

学科专业:

土木工程

研究方向:

土木工程材料

联系方式:

yangyuanyi@swpu.edu.cn;443745846@qq.com

个人简介

杨元意,四川自贡人,博士(后),副教授,硕导,中国硅酸盐学会会员,皇家永利力学学会会员,九三学社西南石油大学委员。硕士招生专业:土木工程、土木水利。主要从事先进建筑和土木工程材料、固废资源化利用、文物保护、复合材料等领域的研究工作;在高性能纤维增强水泥基复合材料、石窟寺和古建筑保护、材料断裂与损伤行为、轻质泡沫混凝土、多功能和机敏建筑材料及智能结构系统、油气田材料等方面积累了多年的研究经验;授权专利26项,发表论文40余篇,论文引用1132次,h指数=22(截止25年3月),并担任多个SCI期刊审稿人;主持了国家自然基金、中国博士后面上基金、皇家永利科技教育联合基金面上项目、皇家永利科技计划应用基础研究、钒钛资源综合利用国家重点实验室开发课题、绿色建筑材料国家重点实验室开放课题、德阳市社会发展领域院校合作重点计划等课题30余项;课题组已有多名硕士毕业生进入到央国企科研院所工作或继续攻读博士学位,欢迎具有土木工程、材料、环境、力学、化工、机械、计算科学等交叉专业知识背景的同学加入“先进土木工程材料”课题组。

教学及教学研究

讲授课程:

本科生:《土木工程材料(双语)》;研究生:《路面结构理论与材料》

教改项目:

《研究生全英文课程建设项目》,参与


代表性论文、著作和技术规程

代表性论文:

1. Hongjuan Wang, Yuanyi Yang*, et al. Effect of Li2CO3 on the preparation and performance of lightweight building ceramsite from oil-based drilling cutting pyrolysis residues. Ceramics International, 2025, 01, 168. (SCI: top, 2区)

2. Liangjun Yin, Yuanyi Yang*, et al. Preparation and performance of ultra-wideband high-temperature resistant calcium aluminate cement-based electromagnetic wave absorption cone structural composites. Ceramics International, 2024, 50, 21.(SCI: top, 2区)

3. Yuanyi Yang*, et al. Structural design and electromagnetic wave absorbing performance optimization of lightweight foam cement-based metamaterials. Construction and Building Materials, 2024, 438, 137191.(SCI: top, 1区)

4. Yuanyi Yang*, et al. Preparation and characterization of high?performance ceramic proppant from recycling utilization of oil?based drilling cuttings pyrolysis residues. Scientific Reports. 2024, 14, 2345. (SCI: 2区)

5. Yuanyi Yang*, et al. Impact of acid, salt, and wetting-drying cycles on weathering deterioration of the red sandstone used for Leshan Giant Buddha China. International Journal of Architectural Heritage. 2023, 2301353. (SCI: 3区)

6. Hongjuan Wang, Yuanyi Yang*, et al. Preparation and properties of lightweight and high-strength building ceramsites with oil-based drilling cuttings pyrolysis residues. Frontiers in Materials. 2023.1245121. (SCI: 3区)

7. Yuanyi Yang*, et al. Microwave-thermal-assisted curing method on geopolymer preparation from Panzhihua high-titanium slag by alkali activation. Construction and Building Materials, 2023, 400, 132614.(SCI: top, 1区)

8. Hongling Sun, Yuanyi Yang*, et al. Preparation and electromagnetic wave absorption characteristics of multifunctional light-weight high titanium slag-based foam geopolymer. Construction and Building Materials, 2023, 376, 130959.(SCI: top, 1区)

9. Caoyuan Bai, Yuanyi Yang*, et al. Effect of different curing methods on the preparation of carbonized high-titanium slag based geopolymers. Construction and Building Materials, 2022, 342, 128023. (SCI: top, 1区)

10. Lei Yue, Yuanyi Yang*, et al. Broadband electromagnetic wave absorbing performance by designing the foam structure and double-layer for cement-based composites containing MWCNTs. Cement and Concrete Composites, 2022, 131, 104595. (SCI: top, 1区)

11. Gan Deng, Yuanyi Yang*, et al. Lightweight and broadband electromagnetic wave absorbing foamed cement-based composites incorporated with hybrid dielectric fibers. Construction and Building Materials, 2022, 327, 126931.(SCI: top, 1区)

12. Yuanyi Yang, et al. Rheology and porosity of ultralow density foamed cement pastes derived from ordinary Portland cement and hydrogen peroxide. Journal of Materials in Civil Engineering. 2022, 34(4):04022034. (SCI: 3区)

13. Yuanyi Yang, et al. Reinforcement effects of multi-scale hybrid fiber on flexural and fracture behaviors of ultra-low-weight foamed cement-based composites. Cement and Concrete Composites, 2020, 108, 103509. (SCI: top, 1区)

14. Yuanyi Yang, et al. The reinforcement attributes of multi-scale hybrid fiber throughout the uniaxial compression of ultra-low-weight foamed cement-based composites. Construction and Building Materials, 2020, 242, 118184. (SCI: top, 1区)

15. Yuanyi Yang, et al. Compressive behaviors of ultra-low-weight foamed cement-Based composite reinforced by polypropylene short fibers. International Journal of Damage Mechanical, 2020, 3, 1-20. (SCI: 2区)

16. Yuanyi Yang, et al. Uniaxial compression mechanical property and fracture behavior of hybrid inorganic short mineral fibers reinforced cement-based material. Cement and Concrete Composites, 2019, 104, 103338. (SCI: top, 1区)

17. Yuanyi Yang, et al. Uniaxial compression mechanical properties and fracture characteristics of brucite fiber reinforced cement-based composites. Composite Structures, 2019, 212, 148-158. (SCI: top, 1区)

18. Yuanyi Yang, et al. Mechanical properties of hybrid short fibers reinforced oil well cement by polyester fiber and calcium carbonate whisker. Construction and Building Materials, 2018, 182, 258-272. (SCI: top, 1区)

19. Yuanyi Yang, et al. Mechanical attributes of uniaxial compression for calcium carbonate whisker reinforced oil well cement pastes. Advances in Materials Science and Engineering, 2017, 1-13. (SCI: 4区)

20. Yi Deng, Yuanyi Yang, et al. Preparation of magnetic Ni-P amorphous alloy microspheres and their catalytic performance towards thermal decomposition of ammonium perchlorate. Applied Surface Science, 2017, 425, 261-271. (SCI: top, 2区)

21. Wei Liu, Yuanyi Yang, et al. Constructing a double-percolated conductive network in a carbon nanotube/polymer-based flexible semiconducting. Composites Science and Technology, 2018, 154, 45-52. (SCI: top, 1区)

22. Zhen Xie, Yi Deng, Yuanyi Yang, et al. Preparation of nano-sized titanium carbide particles via a vacuum carbothermal reduction approach coupled with purification under hydrogen/argon mixed gas. RSC Advance. 2017, 7(15):9037-9044. (SCI: 3区)

23. Zhiqiang Xu, Wei Liu, Yuanyi Yang, et al. Environmental-friendly and facile synthesis of Co3O4 nanowires and their promising application with graphene in lithium-ion batteries. Nanoscale Research Letters, 2017, 12(1):615. (SCI: 3区)

24. Bin Gong, Deng Yi, Yuanyi Yang, et al. Effects of microwave-assisted thermal treatment on the fate of heavy metals in MSWI fly ash. Energy & Fuels, 2017, 31, 11, 12446-12454. (SCI: 3区)

25. Yi Deng, Kewei Zhang, Yuanyi Yang, et al. Ce/Mn dual-doped LaAlO3 ceramics with enhanced far-infrared emission capability synthesized via a facile microwave sintering method. Journal of Alloys and Compounds, 2019, 774:434-442. (SCI: top, 2区)

26. Kewei Zhang, Yi Deng, Yuanyi Yang, et al. Effect of lanthanum doping on the far-infrared emission property of vanadium–titanium slag ceramic. RSC Advances, 2017, 7(22):13509-13516. (SCI: 3区)

27. Ming Li, Meng Liu, Yuanyi Yang, et al. Mechanical properties of oil well cement stone reinforced with hybrid fiber of calcium carbonate whisker and carbon fiber. Petroleum Exploration and Development, 2015, 42, 104-111. (SCI: top, 1区)

28. 杨元意,石显芸,丁仕豪,陈博雨,邹蕊麒,李才英,杨婷婷. EPS-石墨烯-水泥基复合吸波材料的制备与性能,复合材料学报,2024,830,003.

29. 吴冠仲,乔榛,宋力,张君,李文彬,杨婷婷,杨元意. 新型复合水泥基弱胶结土体注浆材料的制备及性能研究,新型建筑材料,2025,52,01.

30. 杨婷婷,李辉,雷证寰,刘洪武,陈坷铭,刘汉军,孙玉,杨元意. 油基岩屑残渣自悬浮支撑剂的制备及性能评价. 石油与天然气化工,2024,1,53.

31. 张珂玮,邓怡,杨元意,龚兵,廖咏康,杨为中,掺杂稀土铈对高炉渣陶瓷远红外性能及物理性能的影响,硅酸盐学报,2017,45,9.

32. 李明,刘萌,杨元意,李早元,郭小阳. 碳酸钙晶须与碳纤维混杂增强油井水泥石力学性能. 石油勘探与开发,2015,94-100.

33. 李早元,杨元意,程小伟,张松,郭小阳,丁苯胶乳水泥浆体系消泡剂的研究. 油田化学, 2013,3,1000-4092.

34. 杨元意,程小伟,付强,李明,郭小阳. 可再分散乳胶粉改性水泥石孔隙结构与氯离子渗透性研究. 钻井液与完井液,2013,5,30.

获得专利:

1)一种混杂纤维水泥基泡沫复合吸波材料及其制备方法,专利号:202110290315.4.

2)一种宽频高效多层型泡沫水泥基吸波板,专利号:202111375618.2.

3)一种高钛矿渣基泡沫地聚物电磁吸收材料及其制备方法,专利号ZL202211463109.X;

4)一种基于油基岩屑的中空超轻陶粒及其制备方法,专利号:ZL202311825688.2;

5)一种全介质周期阵列结构水泥基泡沫吸波板及其制备方法,专利号:ZL202310349097.6;

6)一种油基岩屑-高钛矿渣-赤泥基轻质高强免烧陶粒及其制备方法,专利号ZL202311825594.5;

7)一种微波烧结油基岩屑残渣陶粒支撑剂的制备方法,专利号:ZL20231 1207453.7.

8)一种水泥浆增韧剂及在制备固井用柔性水泥浆中的应用,专利号:201310228597.0;

9)基磷灰石包覆银纳米颗粒的核壳结构纳米复合材料及其制备方法,专利号:201710128429.2;

10)一种混凝土发泡稳定性测定仪器,专利号:2017203307665;

11)一种负压筛分仪及试验筛,专利号:2017203495109;

12)一种针片状集料自动检测装置,专利号:201720349212X;

13)一种混凝土塑料模具清洗机,专利号:2017203495113;

14)一种多功能粗集料清洗机,专利号:2017203495128;

15)一种多功能搅拌锅,专利号:2017203492079;

16)一种混凝土脱模装置,专利号:201720330527X;

17)一种用于干燥建筑材料的恒温鼓风干燥箱,专利号:2017201549104;

18)一种涂油盒,专利号:2017201850708;

19)一种用于干燥建筑材料的恒温鼓风干燥箱,专利号:2017201549104;

20)一种防外溅的水泥胶砂振实台,专利号:2017201549369;

21)一种天然砂含泥量清洗机,专利号:2017201850820;

22)一种用于建筑工程检测的低应变式自动桩基检测装置,专利号:ZL201720855953.5;

23)一种泡沫混凝土养护模具,专利号:ZL201720349208.3;

24)一种抽屉式砂石摇筛机,专利号:ZL201720349509.6;

25)一种超声波无损检测模拟教具,专利号:ZL201720713081.9;

26)一种建筑墙体低压空气喷涂泡沫机,专利号:ZL201721884342.X;


科研项目

[1] 国家自然科学基金(青年):水泥基泡沫谐振群吸波体的可控构筑及力敏特性研究,负责人;

[2] 中国博士后面上基金:功能导向水泥基泡沫电磁吸波材料的构建与结构设计研究,负责人;

[3] 绿色建筑材料国家重点实验室开放基金:水泥基泡沫介质电磁吸波超材料的构建与性能研究,负责人;

[4] 皇家永利科技教育联合基金面上项目:泡沫地聚物雷达/红外兼容隐身材料设计及其电磁-热调控机理研究,负责人;

[5] 西部绿色建筑国家重点实验室开放基金:水泥基泡沫电磁吸波超材料的制备、组成、结构及作用机理研究,负责人;

[6] 皇家永利科技计划应用基础项目:吸波泡沫水泥基功能材料的研发及其力学“隐身”特性研究,负责人;

[7] 钒钛资源综合利用国家重点实验室开放基金:高钛矿渣基发泡聚合物吸波材料的构筑与应用基础研究,负责人;

[8] 德阳市社会发展领域院校重点研发项目:2D负载型纳米材料增强水泥基泡沫的构筑及吸波特性研究,负责人;

[9] 德阳市应用技术研究与开发资金项目计划:新型改性通用水泥发泡复合保温板研发及关键技术研究,负责人;

[10] 四川建筑职业技术学院科研计划:通用水泥发泡控制和增强研究,负责人;

[11] 皇家永利自然科学基金面上项目:钢管套箍与冻融耦合下高海拔大温差地区钢管混凝土微结构形成与演变及性能退化抑制机理,主研;

[12] 皇家永利自然科学青年基金:页岩气油基钻屑高性能压裂支撑剂的构筑及其自悬浮功能化改性研究,主研;

[13] 国家文物局文物科学技术研究项目:四川境内砂岩石窟浅层开裂剥落病害微创注浆修复加固技术研究,主研;

[14] 企业委托课题:页岩气钻井废弃物无害化处置与资源化利用制备支撑剂技术,负责人。

[15] 企业委托课题:利用油基岩屑残渣制备建筑陶粒技术及其性能研究,负责人;

[16] 企业委托课题:含油岩屑残渣用于铺路原料室内改良及现场试验方案,主研;

[17] 企业委托课题:含油废物界面特性与油相剥离机理试验及分析,负责人;

[18] 企业委托课题:工业遗产建筑稳定性评估与防火耐腐蚀复合涂层材料研究,负责人;

[19] 企业委托课题:深水环境下弱胶结土体新型注浆加固材料研发,负责人;

[18] 企业委托课题:乐山大佛岩体劣化评估与修复关键技术,主研;

[19] 企业委托课题:白帝城大遗址保护工程,主研;

[20] 企业委托课题:高性能减水剂复配技术研究与应用,负责人;

[21] 企业委托课题:基桩混凝土质量事故评价与分析,负责人;

[22] 企业委托课题:高海拔严寒地区隧道混凝土抗冻融性能提升关键技术,主研;

[23] 九三学社调研课题,发展绿色-智能建筑工程体系,构建低碳-智慧城市新模式,负责人


研究领域及团队

科研团队:先进土木工程材料团队

研究领域:

(1)先进建筑和土木工程材料方向:智能绿色建材与结构健康监测、纤维增强水泥基复合材料力学行为、3D打印混凝土、特殊功能性材料等;

(2)文物保护方向:石质文物风化劣化行为、文物加固与修复等;

(3)固废资源化利用方向:工业固体废弃物回收与利用、“碳中和”绿色工程材料的研发与应用等。


荣誉奖励

2023,第三届全国生态混凝土创新设计应用大赛二等奖,中国混凝土与水泥制品协会,排名1;

2023,第一届全国高校土建类学科优秀学位论文和优秀毕业设计三等奖,中国建筑金属结构协会,指导老师;

2023,西南石油大学优秀硕士毕业论文,指导教师;

2022,西南石油大学优秀硕士毕业论文,指导教师;

2021,九三学社成都市优秀社员;

2021,西南石油大学优秀本科毕业论文,指导教师。