黄金科学技术 ›› 2021, Vol. 29 ›› Issue (2): 275-286.doi: 10.11872/j.issn.1005-2518.2021.02.125
• 采选技术与矿山管理 • 上一篇
Hongwei DENG1,2(),Guanglin TIAN1,2
摘要:
2013年以来,随着寒冷地区资源开发利用与工程建设规模不断扩大,国内外冻融岩石力学研究发展迅速。论文以2013~2020年Web of Science和CNKI数据库收录的冻融岩石力学领域相关论文为数据源,使用文献可视化软件CiteSpace构建了国内外冻融岩石力学研究的关键词共现网络、热点知识演进时区视图和发文高产机构知识图谱,并进行了图谱可视化分析。结合统计结果与知识图谱研究发现:①国内外冻岩力学研究处于快速发展阶段,参与国家和创新性研究成果逐年增加,研究状态火热;②论文在核心期刊与研究机构中的分布集中度较高,企业、科研院所课题研究参与度较低,难以发挥“产学研”综合优势;③热点研究可概括为冻融岩石多尺度力学损伤特性、裂隙岩体冻融损伤机制、岩石本构模型及数值模拟研究;④岩石多场耦合作用、成熟研究成果的工程转化运用将是后续研究的重点关注方向。
中图分类号:
Abdolghanizadeh K, Hosseini M, Saghafiyazdi M,2019. Effect of freezing temperature and number of freeze-thaw cycles on mode I and mode II fracture toughness of sandstone[J]. Theoretical and Applied Fracture Mechanics,10(4):967. | |
Chen Chaomei,2009.Citespace Ⅱ:Detecting and visualizing emerging trends and transient patterns in scientific literature[J].Chen Yue,Hou Jianhua,Liang Yongxia,Transl.Journal of Information,28(3):401-421. | |
Chen Rensheng,Kang Ersi,Wu Lizong,al et,2005.Cold regions in China[J].Journal of Glaciology and Geocryology,27(4):469-475. | |
Chen Song,Qiao Chunsheng,Ye Qing,al et,2019. Compositedamage model of jointed rock mass under freezing and thawing load[J]. Journal of Harbin Institute of Technology,51(2):100-108. | |
Chen Youliang,Dai Mingxing,Liu Mingliang,al et,2013.Experimental investigation on freezing damage characteristics of granite with initial damage[J].Chinese Quarterly of Mechanics,34(1):74-80. | |
Chen Yue,Chen Chaomei,Liu Zeyuan,al et,2015.The methodology function of CiteSpace mapping knowledge domains[J].Studies in Science of Science,33(2):242-253. | |
Deng Hongwei,Tian Weigang,Zhou Keping,al et,2013.Progress in freezing-thawing rock mechanics during the period of 2001 to 2012[J]. Science & Technology Review ,31(24):74-79. | |
Du Debin,Ma Yahua,2015.One Belt and One Road:The grand geo-strategy of China’s rise[J].Geographical Research,34(6):1005-1014. | |
Fogue-Djombou Y I , Corn S , Clerc L,2019. Freeze-thaw resistance of limestone roofing tiles assessed through impulse vibration monitoring and finite element modeling in relation to their microstructure[J]. Construction & Building Materials, 205:656-667. | |
Gambino G F,Harrison J P,2017.Rock engineering design in frozen and thawing rock:Current approaches and future directions[J]. Procedia Engineering,191:656-665. | |
Ghobadi M H,Torabi-Kaveh M,2014.Assessing the potential for deterioration of limestones forming Taq-e Bostan monuments under freeze-thaw weathering and karst development[J].Environmental Earth Sciences,72(12):5035-5047. | |
Huang Shibing,Liu Quansheng,Cheng Aiping,al et,2018.Preliminary experimental study of frost heaving pressure in crack and frost heaving propagation in rock mass under low temperature[J].Rock and Soil Mechanics,39(1):78-84. | |
Jia Hailiang,Liu Qingbing,Xiang Wei,al et,2013. Damage evolution model of saturated sandstone under freeze-thaw cycles[J].Chinese Journal of Rock Mechanics and Engineering,32(Supp.2):3049-3055. | |
Jiang H B,2018.The relationship between mechanical properties and gradual deterioration of microstructures of rock mass subject to freeze-thaw cycles[J].Earth Sciences Research Journal,22(1):53-57. | |
Li J L, Kaunda R B,Zhou K P, al et,2018.Experimental investigations on the effects of ambient freeze-thaw cycling on dynamic properties and rock pore structure deterioration of sandstone[J].Cold Regions Science and Technology,154:133-141. | |
Kock T D,Boone M A,Schryver T D,al et,2015.A pore-scale study of fracture dynamics in rock using X-ray Micro-CT under ambient freeze-thaw cycling[J].Environmental Science & Technology,49(5):2867-2874. | |
Li Changhong,Xiao Yonggang,Wang Yu,al et,2019.Review and prospects for understanding deformation and failure of rock slopes in cold regions with high altitude[J].Chinese Journal of Engineering,41(11):1374-1386. | |
Li Jie,Chen Chaomei,2016.CiteSpace:Scientific Text Mining and Visualization[M].Beijing:Capital University of Economics and Business Press:89-90,150. | |
Li Jielin,Zhou Keping,Ke Bo,2015.Association analysis of pore development characteristics and uniaxial compressive strength property of granite under freezing-thawing cycles[J].Journal of China Coal Society,40(8):1783-1789. | |
Li Jielin,Zhou Keping,Zhang Yamin,al et,2014.Experiment study on physical characteristics in weathered granite under freezing-thawing cycles[J].Journal of Central South University(Science and Technology),45(3):798-802. | |
Li Xinping,Lu Yani,Wang Yangjun,al et,2013.Research on damage model of single jointed rock masses under coupling action of freeze-thaw and loading[J].Chinese Journal of Rock Mechanics and Engineering,32(11):2307-2315. | |
Liu Quansheng,Huang Shibin,Kang Yongshui,al et,2015a. Advance and review on freezing-thawing damage of fractured rock[J].Chinese Journal of Rock Mechanics and Engineering,34(3):452-471. | |
Liu Quansheng,Huang Shibing,Kang Yongshui,al et,2015b.Numerical and theoretical studies on frost heaving pressure in a single fracture of frozen rock mass under low temperature[J].Chinese Journal of Geotechnical Engineering,37(9):1572-1580. | |
Lu Yani,Li Xinping,Wu Xinghong,2014.Fracture coalescence mechanism of single flaw rock specimen due to freeze-thaw under triaxial compression[J].Rock and Soil Mechanics,35(6):1579-1584. | |
Maji V , Murton J B,2019. Micro-computed tomography imaging and probabilistic modelling of rock fracture by freeze-thaw[J]. Earth Surface Processes and Landforms,45(3):666-680. | |
Martins L,Vasconcelos G,Lourenco P B,al et,2016.Influence of the freeze-thaw cycles on the physical and mechanical properties of granites[J].Journal of Materials in Civil Engineering,28(5):04015201. | |
Meng Xiangzhen,Zhang Huimei,Kang Xiaoge,2019.Damage constitutive model of porous rock under freeze-thaw[J].Journal of Xi’an University of Science and Technology,39(4):688-692. | |
Murton J B,Kuras O,Krautblatter M,al et,2016.Monitoring rock freezing and thawing by novel geoelectrical and acoustic techniques[J].Journal of Geophysical Research:Earth Surface,121(12):2309-2332. | |
Rusin Z,Świercz P,Owsiak Z,2015.Effect of microstructure on frost durability of rock in the context of diagnostic needs[J]. Procedia Engineering,108:177-184. | |
Sarici D E , Ozdemir E,2018. Determining point load strength loss from porosity, Schmidt hardness, and weight of some sedimentary rocks under freeze-thaw conditions[J]. Environmental Earth Sciences,77(3):62.1-62.9. | |
Shen Yanjun,Yang Gengshe,Rong Tenglong,al et,2016.Proposed scheme for freeze-thaw cycle tests on rock[J].Chinese Journal of Geotechnical Engineering,38(10):1775-1782. | |
Wang P,Xu J,Fang X,al et,2017.Ultrasonic time-frequency method to evaluate the deterioration properties of rock suffered from freeze-thaw weathering[J].Cold Regions Science and Technology,143:13-22. | |
Wang Zhen,Zhu Zhende,Chen Huiguan,al et,2011. A thermo-hydro-mechanical coupled constitutive model for rocks under freeze-thaw cycles[J]. Rock and Soil Mechanics,40(7):2608-2616. | |
Wen Lei,Li Xibing,Tang Haiyan,al et,2017.Study of physico-mechanical characteristics of rock under different frozen-thawed circle tempura range and its engineering application[J].Engineering Mechanics,34(5):247-256. | |
Yan Xidong,Liu Hongyan,Xing Chuangfeng,al et,2015.Constitutive model research on freezing-thawing damage of rock based on deformation and propagation of microcracks[J].Rock and Soil Mechanics,36(12):3489-3499. | |
Yang Gengshe,Shen Yanjun,Jia Hailiang,al et,2018.Research progress and tendency in characteristics of multi-scale damage mechanics of rock under freezing-thawing[J].Chinese Journal of Rock Mechanics and Engineering,37(3):545-563. | |
Ye Longsheng,Wan Guangcai,2017.Research on the evaluation of infrastructure construction in 18 provinces and cites along “The Belt and Road” [J].Journal of Jiangnan University(Humanities & Social Sciences),16(4):82-89. | |
Yin Yucheng,Chen Youliang,Meng Xiangrui,2019. Comparison of mechanical properties and fracture toughness changes of sandstone and granite under freeze-thaw cycle and chemical corrosion[J].Journal of Water Resources and Water Engineering,30(4):217-224. | |
Yuan Chao,Zhang Huimei,Meng Xiangzhen,al et,2019.Influence of internal friction angle on damage constitutive model of freeze-thaw rock[J].Coal Geology & Exploration,47(4):138-143. | |
Zhang Huimei,Meng Xiangzhen,Peng Chuan,al et,2018.Freeze-thaw damage model and parameters of rock deformation in whole process[J].Journal of Xi’an University of Science and Technology,38(2):260-265. | |
Zhang Huimei,Meng Xiangzhen,Peng Chuan,al et,2019.Rock damage constitutive model based on residual intensity characteristics under freeze-thaw and load[J].Journal of China Coal Society,44(11):3404-3411. | |
Zhang Huimei,Xia Haojun,Yang Gengshe,al et,2018.Experimental research of influences of freeze-thaw cycles and confining pressure onphysical-mechanical characteristics of rocks[J].Journal of China Coal Society,43(2):441-448. | |
Zhang Huimei,Yang Gengshe,2013a.Damage constitutive model of loaded rock under freeze-thaw condition[J].Journal of Wuhan University of Technology,35(7):79-82. | |
Zhang Huimei,Yang Gengshe,2013b.Mechanical property experiment and damage analysis of red sandstone under freeze-thaw environment[J].Mechanics in Engineering,35(3):57-61. | |
Zhang Huimei,Yang Gengshe,2013c.Experimental study of damage deterioration and mechanical properties for freezing-thawing rock[J].Journal of China Coal Society,38(10):1756-1762. | |
Zhang Huimei,Zhang Mengjun,Xie Xiangmiao,al et,2015.The experimental study on the physical and mechanical properties of red sandstone under the action of freeze-thaw cycle[J].Journal of Taiyuan University of Technology,46(1):69-74. | |
Zhou Keping,Zhang Yamin,Li Jielin,al et,2013.Degradation mechanism and evolutionary pattern of granites with coarse and grains in freezing-thawing condition[J].Journal of Uni-versity of Science and Technology Beijing,35(10):1249-1255. | |
陈超美,2009.CiteSpace Ⅱ:科学文献中新趋势与新动态的识别与可视化[J].陈悦,侯剑华,梁永霞,译.情报学报, 28(3):401-421. | |
陈仁升,康尔泗,吴立宗,等,2005.中国寒区分布探讨[J].冰川冻土,27(4):469-475. | |
陈松,乔春生,叶青,等,2019.冻融荷载下节理岩体的复合损伤模型[J].哈尔滨工业大学学报,51(2):100-108. | |
陈有亮,代明星,刘明亮,等,2013.含初始损伤岩石的冻融损伤试验研究[J].力学季刊,34(1):74-80. | |
陈悦,陈超美,刘则渊,等,2015.CiteSpace知识图谱的方法论功能[J].科学学研究,33(2):242-253. | |
邓红卫,田维刚,周科平,等,2013.2001-2012年岩石冻融力学研究进展[J].科技导报,31(24):74-79. | |
杜德斌,马亚华,2015.“一带一路”:中华民族复兴的地缘大战略[J].地理研究,34(6):1005-1014. | |
黄诗冰,刘泉声,程爱平,等,2018.低温岩体裂隙冻胀力与冻胀扩展试验初探[J].岩石力学与工程学报,39(1):78-84. | |
贾海梁,刘清秉,项伟,等,2013.冻融循环作用下饱和砂岩损伤扩展模型研究[J].岩石力学与工程学报,32(增2):3049-3055. | |
李长洪,肖永刚,王宇,等,2019.高海拔寒区岩质边坡变形破坏机制研究现状及趋势[J].工程科学学报,41(11):1374-1386. | |
李杰,陈超美,2016.CiteSpace:科技文本挖掘及可视化[M].北京:首都经济贸易大学出版社:89-90,150. | |
李杰林,周科平,柯波,2015.冻融后花岗岩孔隙发育特征与单轴抗压强度的关联分析[J].煤炭学报,40(8):1783-1789. | |
李杰林,周科平,张亚民,等,2014.冻融循环条件下风化花岗岩物理特性的实验研究[J].中南大学学报(自然科学版),45(3):798-802. | |
李新平,路亚妮,王仰君,2013.冻融荷载耦合作用下单裂隙岩体损伤模型研究[J].岩石力学与工程学报,32(11):2307-2315. | |
刘泉声,黄诗冰,康永水,等,2015a.低温冻结岩体单裂隙冻胀力与数值计算研究[J].岩土工程学报,37(9):1572-1580. | |
刘泉声,黄诗冰,康永水,等,2015b.裂隙岩体冻融损伤研究进展与思考[J].岩石力学与工程学报,34(3):452-471. | |
路亚妮,李新平,吴兴宏,2014.三轴压缩条件下冻融单裂隙岩样裂缝贯通机制[J].岩土力学,35(6):1579-1584. | |
孟祥振,张慧梅,康晓革,2019.含孔隙冻融岩石的损伤本构模型[J].西安科技大学学报,39(4):688-692. | |
申艳军,杨更社,荣腾龙,等,2016.岩石冻融循环试验建议性方案探讨[J].岩土工程学报,38(10):1775-1782. | |
王震,朱珍德,陈会官,等,2019.冻融作用下岩石力—热—水耦合本构模型研究[J].岩土力学,40(7):2608-2616. | |
闻磊,李夕兵,唐海燕,等,2017.变温度区间冻融作用下岩石物理力学性质研究及工程应用[J].工程力学,34(5):247-256. | |
阎锡东,刘红岩,刑闯峰,等,2015.基于微裂隙变形与扩展的岩石冻融损伤本构模型研究[J].岩土力学,36(12):3489-3499. | |
杨更社,申艳军,贾海梁,等,2018.冻融环境下岩体损伤力学特性多尺度研究及进展[J].岩石力学与工程学报,37(3):545-563. | |
叶龙生,万光彩,2017.“一带一路”沿途18省市基础建设评价研究[J].江南大学学报(人文社会科学版),16(4):82-89. | |
印宇澄,陈有亮,孟祥瑞,2019.砂岩与花岗岩在冻融循环和化学腐蚀下力学性能及断裂韧度变化的对比[J].水资源与水工程学报,30(4):217-224. | |
袁超,张慧梅,孟祥振,等,2019.内摩擦角对冻融岩石损伤本构模型的影响探讨[J].煤田地质与勘探,47(4):138-143. | |
张慧梅,孟祥振,彭川,等,2018a.岩石变形全过程冻融损伤模型及其参数[J].西安科技大学学报,38(2):260-265. | |
张慧梅,孟祥振,彭川,等,2019.冻融—荷载作用下基于残余强度特征的岩石损伤模型[J].煤炭学报,44(11):3404-3411. | |
张慧梅,夏浩峻,杨更社,等,2018b.冻融循环和围压对岩石物理力学性质影响的试验研究[J].煤炭学报,43(2):441-448. | |
张慧梅,杨更社,2013a.冻融循环条件下受荷岩石的损伤本构模型[J].武汉理工大学学报,35(7):79-82. | |
张慧梅,杨更社,2013b.冻融环境下红砂岩力学特性试验及损伤分析[J].力学与实践:35(3):57-61. | |
张慧梅,杨更社,2013c.冻融岩石损伤劣化及力学特性试验研究[J].煤炭学报,38(10):1756-1762. | |
张慧梅,张蒙军,谢祥妙,等,2015.冻融循环条件下红砂岩物理力学特性试验研究[J].太原理工大学学报,46(1):69-74. | |
周科平,张亚民,李杰林,等,2013.粗、细粒径花岗岩冻融损伤机理及其演化规律[J].北京科技大学学报,35(10):1249-1255. |
[1] | 郭晓剑,胡欢,刘亦晴,梁雁茹. 基于CiteSpace的我国绿色矿山研究可视化分析[J]. 黄金科学技术, 2020, 28(2): 203-212. |
[2] | 秦世康,陈庆发,尹庭昌. 岩石与岩体冻融损伤内涵区别及研究进展[J]. 黄金科学技术, 2019, 27(3): 385-397. |
|