|
论文题目 |
作者 |
刊物名称 |
年/卷/页 |
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Stable carbon isotope as indicators for permafrost carbon vulnerability in upper reach of Heihe Riuver basic, Northwestern China |
C. Mu |
Quaternary International |
2014,32(2014):71-77 |
|
Characteristics of Dynamic Response of the Active Layer beneath Embankment in Permafrost Regions along the Qinghai-Tibet |
CHEN Tuo |
Cold Regions Science and Technology |
2014, 98,1-7 |
|
Morphological characteristics of thermokarst lakes along the Qinghai-Tibet Transportation Corridor |
Fujun Niu |
Arctic, Antarctic, and Alpine Research |
2014, 46(4): 965-976 |
|
Thaw-induced slope failures and susceptibility mapping in permafrost regions of the Qinghai-Tibet Engineering Corridor, China |
Fujun Niu |
Natural Hazards |
2014,74(3):1667-1682 |
|
Effects of enhanced UV-B radiation on the diversity and activity of soil microorganism of alpine meadow ecosystem in Qinghai– Tibet Plateau |
Fujun Niu |
Ecotoxicology |
2014,23(10):1833-1841 |
|
Variations in Permafrost Temperature and Stability of Alpine Meadows in the Source Area of the Datong River, Northeastern Qinghai-Tibet Plateau, China |
Jing Li |
Permafrost and periglacial processes |
2014, 25(4):307-319 |
|
Study on thermal regime of roadbed-culvert transition section along a high-speed railway in seasonally frozen regions |
LIU Hua |
Cold Regions Science and Technology |
2014, 106–107: 216-231 |
|
Wu QB. Spatiotemporal Characteristics of Freezing/Thawing Processes of Active Layer in the Source Areas of the Yellow River |
Luo DL |
Chinese Science Bulletin |
2014, 59(24):3034–3045 |
|
Effect of inclination angle on the heat transfer performance of a two-phase closed thermosyphon under low-temperature conditions |
Mingyi Zhang |
Journal of Cold Regions Engineering |
2014, 04014007-1-11 |
|
Bubble emissions from thermokarst lakes in the Qinghai-Xizang Plateau |
Qingbai Wu |
Quaternary International |
2014, 321:65-70 |
|
Thermal diffusivity of thermokarst lake ice in the Beiluhe basin of the Qinghai–Tibetan Plateau |
SHI Liqiong |
Annals of Glaciology |
2014, 55(66) |
|
The coupled moisture-heat process of permafrost around a thermokarst pond in Qinghai-Tibet Plateau under global warming |
Shuangyang Li |
Journal of Geophysical Research-Earth Surface |
2014,119:836-853. 10.1002/2013JF002930, 836–853 |
|
Multiple time scale characteristics of permafrost temperature variations along the QinghaieXizang Highway |
Siru Gao |
Quaternary International |
2014, 349(28):178-186 |
|
Thermal stability analysis of crushed-rock embankments on a slope in permafrost regions |
Wansheng Pei |
Cold Regions Science and Technology |
2014, 106-107: 175-182 |
|
Heat Effect Analysis of Buried Oil Pipeline in the Qinghai-Tibet Plateau |
Weibo Liu |
Applied Mechanics and Materials |
2014, 501-504:211-217 |
|
Diversity and community structure of fungi through a permafrost core profile from the Qinghai-Tibet Plateau of China |
Weigang Hu |
Journal of Basic microbiology |
2014, 54:1-11 |
|
The role of rainfall in the thermal-moisture dynamics of the active layer at Beiluhe of Qinghai-Tibetan plateau |
Wen Zhi |
Environmental Earth Science |
2014, 71(3): 1195-1204 |
|
The effect of permafrost thaw beneath embankment on the Qinghai-Xizang Railway |
Wu Qingbai |
Environmental Earth Sciences |
2014, 71(8): 3321-3328 |
|
Mapping Permafrost Features that Influence the Hydrological Processes of a Thermokarst Lake on the Qinghai-Tibet Plateau, China[J] |
Pan X |
Permafrost and Periglacial Processes |
2014, 25(1):60-68 |
|
Assessing soil erosion and control factors by radiometric technique in the source region of the Yellow River |
Yibo WANG |
Tibetan Plateau. Quaternary Research |
2014, 81:538-544 |
|
Study on theory model of hydro-thermal-mechanical interaction process in saturated freezing silty soil |
Yuanming Lai |
International Journal of Heat and Mass Transfer,Nov |
2014, 78: 805-819 |
|
An experimental investigation of the mechanical behavior and a hyperplastic constitutive model of frozen loess |
Lai Yuanming |
International Journal of Engineering Science |
2014, 84:29-53 |
|
Calculation theories and analysis methods of thermodynamic stability of embankment engineering in cold regions |
LAI Yuanming |
Chinese Science Bulletin |
2014, 59(3): 261-272 |
|
Investigation of the pore water pressure of coarse-grained sandy soil during open-system step-freezing and thawing tests |
Zhang, L. |
Engineering Geology |
2014, 181:233-248 |
|
214 国道沿线的多年冻土及其工程地质条件评价 |
陈继 |
冰川冻土 |
2014,36( 4) : 790-801. |
|
季节冻土区埋地管道水温的变化规律及其影响因素分析 |
陈继 |
冰川冻土 |
2014,36( 4) : 836-844. |
|
初始含冰量对冻结粉质砂土变形与强度的影响 |
杜海民 |
岩土力学 |
2014, 35(10): 2855-2860, (EI) |
|
(水)量冻土的单轴抗压强度变化特性研究 |
杜海民 |
冰川冻土 |
2014,36(05):1213-1219 |
|
青海省共和-玉树高速公路新建块石路基下的温度状况分析 |
冯子亮 |
冰川冻土 |
2014(36),4:979-975 |
|
青海省共和-玉树高速公路新建块石路基下的温度状况分析 |
冯子亮 |
冰川冻土 |
2014,36(4):979-975 |
|
季节冻土区压实黄土湿陷特性研究进展与展望 |
李国玉 |
冰川冻土 |
2014,36(4):934–943 |
|
祁连山大通河源多年冻土区浅层土壤水热时空变化特征 |
李静 |
冰川冻土 |
2014(36),4:994-1001 |
|
青藏工程走廊热融湖水理化特性分析 |
林战举 |
水科学进展 |
2014,25(2): 217-224, (EI) |
|
黄河源区多年冻土活动层和季节冻土冻融过程时空特征 |
罗栋梁 |
科学通报 |
2014, 59(14): 1327–1336 |
|
分级循环荷载作用下冻土动应变幅的试验研究 |
罗飞 |
岩土力学 |
2014,35(1):123-129, (EI) |
|
青藏工程走廊典型热融灾害现象及其热影响 |
罗京 |
工程地质学报 |
2014, 22(2): 326-333 |
|
非饱和正冻土一维水热耦合模型与试验 |
明锋 |
中南大学学报(自然科学版) |
2014,45(3):,889-894, (EI) |
|
热管及保温材料在青藏直流联网工程中的应用研究[J] |
穆彦虎 |
岩土工程学报 |
2014, 36(10):1896-1907,(EI) |
|
热管措施下锥柱式桩基础传热过程及降温效果预测研究 |
穆彦虎 |
冰川冻土 |
2014,36(1):106-117 |
|
青藏铁路多年冻土区普通路基热状况监测分析 |
穆彦虎 |
冰川冻土 |
2014, 36(4):953-961 |
|
多年冻土道路工程病害类型及特征研究 |
穆彦虎 |
防灾减灾工程学报 |
2014, 34(3):259-266 |
|
高速铁路路涵过渡段路基冻结特征试验研究 |
牛富俊 |
岩石力学与工程学报 |
2014, 33(3): 639-646,(EI) |
|
气候变化情境下青藏工程走廊融沉灾害风险性区划研究 |
阮国锋 |
冰川冻土 |
2014, 36(4): 811-817 |
|
青藏高原高温高含冰量冻土压缩试验研究 |
阮国锋 |
水文地质工程地质 |
2014, 41(2): 50-56 |
|
基于熵权物元可拓模型的冻土路基热稳定性评价 |
阮国锋 |
冰川冻土 |
2014, 36(1): 123-129 |
|
多年冻土南界附近青藏铁路路基下的冻土退化 |
孙志忠 |
冰川冻土 |
2014,36(4):767-771 |
|
温度梯度对非饱和粗砂中甲烷水合物形成过程的影响 |
王英梅 |
中南大学学报(自然科学版) |
2014,45(2): 507-514,(EI) |
|
基于pF meter基质势传感器的冻土水分迁移研究 |
温智 |
土壤通报 |
2014, 45(2): 370-375 |
|
青藏铁路沿线多年冻土分布特征及其对环境变化的响应 |
尹国安 |
冰川冻土 |
2014, 36(4): 772-781 |
|
我国多年冻土区高速公路修筑关键问题研究 |
俞祁浩 |
中国科学:技术科学 |
2014,44(4): 425-432 |
|
青藏高等级公路斜插式热棒路基降温效果数值分析 |
张坤 |
防灾减灾工程学报 |
2014, 34(4): 401-414 |
|
多年冻土区高等级公路特殊路基长期降温效果研究 |
张坤 |
冰川冻土 |
2014, 36( 4) : 976 -986 |
|
CO2置换开采冻土区天然气水合物中CH4的可行性研究 |
张学民 |
化工进展 |
2014, 83(s1): 133-140 |
|
不同含水量亚黏土的崩解特性实验研究 |
张泽 |
水文地质工程地质 |
2014,41(4):104–107,124 |
|
天然与风干状态下冷生亚黏土的崩解形态特征 |
张泽 |
冰川冻土 |
2014,36(1):118-122 |
|
寒区高铁路基工程稳定性长期智能监测系统设计与实现 |
赵世运 |
冰川冻土 |
2014, 36(4): 944-952 |
|
与CT机配套的便携式控温压力舱的研制与应用 |
郑剑锋 |
冰川冻土 |
2014,36(4):928–933 |
|
Dynamic response of wind turbine towers in warm permafrost |
B Still |
Sciences in Cold and Arid Regions |
2014, 6(5): 423-427 |
|
Status and prospects of frozen soil studies using CT technology |
Chen SJ |
Sciences in Cold and Arid Regions |
2014,6(2):0107-0115 |
|
Advances in thermokarst lake research in permafrost regions |
FuJun Niu |
Sciences in Cold and Arid Regions |
2014, 6(4): 388-397 |
|
Cooling effect of convection-intensifying composite embankment with air doors on permafrost |
Hong Sun |
Sciences in Cold and Arid Regions |
2014, 6(4): 372-377 |
|
In-situ testing study on convection and temperature characteristics of a new crushed-rock sloped embankment in permafrost regions |
Minghao Liu |
Sciences in Cold and Arid Regions |
2014, 6(4): 378-387 |
|
Methane hydrate formation comparisons in media with and without a water source supply |
Peng Zhang |
Sciences in Cold and Arid Regions |
2014,6(4):0293–0301 |
|
Analysis and discussion of different methods of artificial ice-high specimen preparation |
ShuJuan Zhang |
Sciences in Cold and Arid Regions |
2014, 6(5): 0440-0446 |
|
Cooling effect of convection-intensifying composite embankment with air doors on permafrost |
Sun H |
Sciences in Cold and Arid Regions |
2014, 6(4): 372-377 |
|
Advances in studies on concrete durability and countermeasures against freezing-thawing effects |
WuJian Yan |
Sciences in Cold and Arid Regions |
2014, 6(4): 398-408 |
|
Dating of two specific thermokarst lakes in Beiluhe Basin, Qinghai-Tibetan Plateau |
ZhanJu Lin |
Sciences in Cold and Arid Region |
2014,6(5) 0504–05104 |
|
Heat Effect Analysis of Buried Oil Pipeline in the Qinghai-Tibet Plateau |
Weibo Liu |
Applied Mechanics and Materials |
2014,(501-504):211-217, (EI) |
|
Numerical Simulation of Pile Foundations of Qinghai-Tibet Power Transmission Line: Influence of Temperature Region |
Lin Chen |
Applied Mechanics and Materials |
2014,(501-504):218-223, (EI) |
|
Advances in thermokarst lake research in permafrost regions |
FuJun Niu |
Sciences in Cold and Arid Regions |
2014, 6(4): 388-397 |
|
In-situ testing study on convection and temperature characteristics of a new crushed-rock sloped embankment in permafrost regions |
Minghao Liu |
Sciences in Cold and Arid Regions |
2014, 6(4): 378-387 |
|
Advances in studies on concrete durability and countermeasures against freezing-thawing effects |
WuJian Yan |
Sciences in Cold and Arid Regions |
2014, 6(4): 398-408 |
|
Dynamic response of wind turbine towers in warm permafrost |
B Still |
Sciences in Cold and Arid Regions |
2014, 6(5): 423-427 |
|
Analysis and discussion of different methods of artificial ice-high specimen preparation |
ShuJuan Zhang |
Sciences in Cold and Arid Regions |
2014, 6(5): 0440-0446 |
|
Methane hydrate formation comparisons in media with and without a water source supply |
Peng Zhang |
Sciences in Cold and Arid Regions |
2014,6(4):0293–0301 |
|
Dating of two specific thermokarst lakes in Beiluhe Basin, Qinghai-Tibetan Plateau |
ZhanJu Lin |
Sciences in Cold and Arid Regions |
2014,6(5) 0504–05104 |
