一、個人簡介
張小燕��,副教授,博士生導(dǎo)師���,現(xiàn)任力土學(xué)院工程實驗室中心主任�,現(xiàn)任深地科學(xué)(英文)青年編委�,主持國家自然科學(xué)基金3項,主編教材《巖土工程實驗簡明教程》����。在Engineering Geology, soils and foundations, Construction and Building Materials, Journal of Building Engineering和巖土力學(xué)等期刊第一作者/通訊作者發(fā)表SCI論文20余篇,獲授權(quán)發(fā)明專利10余項���。2016年獲2015屆香港巖土工程學(xué)會最優(yōu)博士論文Ringo Yu獎���。
電子郵件:zhangxiaoyan@cumtb.edu.cn
二�、教育背景(含訪問學(xué)者經(jīng)歷等)
2021.08-2023.10�,聯(lián)合培養(yǎng)博士后在站,北京城建集團有限責(zé)任公司(導(dǎo)師:張晉勛教授級高工),星空綜合官網(wǎng)(北京)(導(dǎo)師:江玉生教授)
2011.09-2015.12�����,香港大學(xué)土木工程系�����,巖土工程��,博士
2009.09-2010.12���,英國諾丁漢大學(xué),巖土工程����,碩士
2005.9-2009.6,星空綜合官網(wǎng)�����,星空綜合官網(wǎng),學(xué)士
三�、研究領(lǐng)域
主要從珊瑚砂、天然氣水合物和深海沉積物等海洋巖土工程方面的研究�;
四、代表性科研/教學(xué)成果
1. 近五年主持或參加的國家自然科學(xué)基金項目/課題:
(1) 國家自然科學(xué)基金委員會, 國際(地區(qū))合作與交流項目, 52211530088, 纖維固化鈣質(zhì)砂的力學(xué)特性試驗研究, 2022-06-01 至 2024-05-31, 9.6萬元, 在研, 主持
(2) 國家自然科學(xué)基金委員會, 面上項目, 52178375, 吹填島礁的鈣質(zhì)砂顆粒滲透運移規(guī)律與宏細觀變形機理研究, 2022-01-01 至 2025-12-31, 59萬元, 在研, 主持
(3) 國家自然科學(xué)基金委員會, 青年科學(xué)基金項目, 51809264, 基于實時加載CT掃描的鈣質(zhì)砂宏細觀力學(xué)機制與本構(gòu)模型研究, 2019-01-01 至 2021-12-31, 25萬元, 結(jié)題, 主持
2. 論著
[1] Zhang Xiaoyan, Meng Lingfeng , Li Dongyang, Ye Yonghua , Wei Kaiyuan Investigating correlations between microstructural characteristics andmechanical properties of coral sand mortar with different silicafume contents[J]. Construction and Building Materials 2024: (IF=8)(JCR Q1)
[2] Zhang Xiaoyan, Hu Mengyu, Zuo Jianping, Wang Zhenbo, Baudet Beatrice Anna, Coop Matthew Richard. Effect of grain size on ductility and failure mechanism of fiber-reinforced coral sand cement-based composites[J]. Journal of Building Engineering, 2024: (IF=6.8)(JCR Q1)
[3] Jiang Hua, Zhang Handong, Zhang Xiaoyan, Zhang Jinxun, Jiang Yusheng. Experimental study on the influence of content and fineness of fly ash on the mechanical properties of grouting slurries[J]. Deep Underground Science and Engineering, 2024,
[4] Zhang Xiaoyan, Li Hongsen, Tan Xue, Li Guoliang, Jiang Hua. Coupling effects of temperature, confining pressure, and pore pressure on permeability and average pore size of longmaxi shale[J]. Deep Underground Science and Engineering, 2023, 2(4): 359-370
[5] Jiang Hua, Zhao Huiyan, Zhang xiaoyan*, Jiang Yusheng, Zheng Yoafu. Comparative study of the rock-breaking mechanism of a disc cutter and wedge tooth cutter by discrete element modelling[J]. Chinese Journal of Mechanical Engineering, 2023, 36(1): (IF=4.2)(JCR Q1)
[6] Zhang Xiaoyan, Wei Kaiyuan, Li Dongyang, Zhou Yike, Liang Wei. Characterization of mechanical properties and microstructure of silica mortar and coral mortar based on nuclear magnetic resonance technology[J]. Materials Today Communications, 2022, 33: (IF=3.8)(JCR Q2)
[7] Zhang Xiaoyan, Wei Kaiyuan, Zuo Jianping, Zhou Yike, Hu Yajun. Effects of admixtures on the mechanical characteristics and microstructure of coral aggregate mortar[J]. Journal of Building Engineering, 2022, 60: (IF=6.8)(JCR Q1)
[8] Jiang Hua, Zhu Jiachen, Zhang Xiaoyan*, Zhang Jinxun, Li Hongliang, Meng Lingfeng. Wear mechanism and life prediction of the ripper in a 9-m-diameter shield machine tunneling project of the beijing new airport line in a sand-pebble stratum[J]. Deep Underground Science and Engineering, 2022, 1(1): 65-76
[9] Yang Xing, Yang Zhiyong, Zhang Xiaoyan, Jiang Yusheng, Hou Gongyu, Shao Xiaokang, Qi Weiqiang. Experimental study on the influences of water content, consolidation time, and soil conditioning on the adhesion of clay in EPB shields[J]. Bulletin of Engineering Geology and the Environment, 2022, 81(10): (IF=4.2)(JCR Q1)
[10] Zhang Xiaoyan, Zuo Jianping, Wang Zhenbo, Cai Yanyan, Zhou Yike. The evolution of the microstructure and mechanical properties of coral aggregate mortar under uniaxial compression using ultrasonic analysis[J]. Construction and Building Materials, 2021, 300: (IF=8)(JCR Q1)
[11] Jiang Hua, Mu Jianhua, Zhang Jinxun, Jiang Yusheng, Liu Chongyang, Zhang Xiaoyan. Dynamic evolution in mechanical characteristics of complex supporting structures during large section tunnel construction[J]. Deep Underground Science and Engineering, 2022, 1(2): 183-201
[12] Zhang Xiaoyan, Hu Wei, Zheng Yangshuai, Gou Huaixiao, Gao Xin. Effects of relative density in progressive sliding of tailings deposits: Insights from flume tests[J]. Engineering Geology, 2020, 279: 105908 (IF=7.6)(JCR Q1)
[13] Zhang XiaoYan, Baudet Béatrice Anne, Yao Ting. The influence of particle shape and mineralogy on the particle strength, breakage and compressibility[J]. International Journal of Geo-Engineering, 2020, 11(1): 1
[14] Zhang Xiaoyan, Hu Wei, Scaringi G. , Baudet Béatrice Anne, Han Wei. Particle shape factors and fractal dimension after large shear strains in carbonate sand[J]. Géotechnique Letters, 2018, 8(1): 73-79
[15] Zuo Jianping, Li Yulin, Zhang Xiaoyan*, Zhao Zhihong, Wang Tingzheng. The effects of thermal treatments on the subcritical crack growth of pingdingshan sandstone at elevated high temperatures[J]. Rock Mechanics and Rock Engineering, 2018, 51(11): 3439-3454 (IF=6.6)(JCR Q1)
[16] Zhang Xiaoyan, Hu Wei, Scaringi G. , Baudet Béatrice Anne, Han Wei. Particle shape factors and fractal dimension after large shear strains in carbonate sand[J]. Géotechnique Letters, 2018, 8(1): 73-79
[17] Zhang Xiao Yan, Baudet Béatrice Anne, Hu Wei, Xu Qiang. Characterisation of the ultimate particle size distribution of uniform and gap-graded soils [J]. Soils and Foundations, 2017, 57(4): 603-618 (IF=4.1)(JCR Q2)
[18] Zhang Xiaoyan, Baudet Béatrice Anne. The multi-fractal nature of soil particle size distribution[C]. International Symposium on Geomechanics from Micro to Macro, IS-Cambridge 2014, September 1, 2014 - September 3, 2014, 2014: 1183-1188.
[19] Zhang Xiaoyan, Baudet Béatrice Anne. Particle breakage in gap-graded soil[J]. Géotechnique Letters, 2013, 3(2): 72-77
[20] 張小燕, 張益, 張晉勛, 魏凱園, 王寧. 含橡膠纖維鈣質(zhì)砂的滲透和固結(jié)特性試驗研究[J]. 巖土力學(xué), 2022, 43(8): 2115-2122
[21] 張小燕, 蔡燕燕, 周浩燃, 楊洋, 李玉龍. 珊瑚砂大剪切應(yīng)變下的剪切特性和分形維數(shù)[J]. 巖土力學(xué), 2019, 40(02): 610-615
[22] 張小燕, 蔡燕燕, 王振波, 江蕓倩. 珊瑚砂高壓力下一維蠕變分形破碎及顆粒形狀分析[J]. 巖土力學(xué), 2018, 39(5): 1573-1580
[23] 張小燕���,江玉生. 巖土工程實驗簡明教程. 北京:人民交通出版社股份有限公司�����,2021年12月�����,教材
3. 獲獎
(1)“青創(chuàng)北京”2024年“挑戰(zhàn)杯”首都大學(xué)生創(chuàng)業(yè)計劃競賽�����,主賽道金獎���,2024年6月…
4. 專利
(1)張小燕; 蔡燕燕; 卓慧慧; 俞縉; 王振波 ; 一種可飽和的滑動高壓固結(jié)儀器, 2021-2-26, 中國,ZL.201810315861.7. (發(fā)明專利)
(2)張小燕; 蔡燕燕; 卓慧慧 ; 一種滑動飽和預(yù)壓固結(jié)試樣制備裝置, 2020-9-3, 中國,ZL202021893577.7 (發(fā)明專利)
(3)張晉勛; 張小燕; 江華; 周劉剛; 武福美; 江玉生; 黃陸川 ;一種基于卵漂石地層盾構(gòu)工程特性分類的渣土改良方法, 2022-2-8, 中國, CN202111324455.5 (發(fā)明專利)
(4)張小燕; 張晉勛; 江華; 江玉生; 殷明倫;盾構(gòu)換刀距離測算方法, 2022-09-06, 中國,CN202210705612.5 (發(fā)明專利)
(5)張小燕; 盧尚威; 韓寶江; 等; 一種管廊滲漏病害的實時監(jiān)測和動態(tài)反饋方法, 2022-06-21, 中國,CN202210395216.7 (發(fā)明專利)
(6)張小燕;張晉勛�����;江玉生;等�,盾構(gòu)構(gòu)開挖間隙超前注漿材料、全間隙時空同步的注漿系統(tǒng)���、方法���,2024-4-12,中國�����,CN 117720311B(發(fā)明專利)
