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1.第15章专题2: 承载力离心模型试验中的粒径效应,《土工离心模拟技术的原理和工程应用》编委会,长江出版社,武汉,2011年6月,487-499.
2.尚金瑞、杨俊杰、董猛荣、宋文峰:表层劣化对桩承载性状影响的室内模拟试验,岩土工程学报,2013年,第35卷,增刊2:857-861.(EI收录)
3.Y.Toyosawa, K.Itoh, N.Kikkawa, J.-J.Yang(通讯作者), and F.Liu. Influence of the depth on the particle size effect in bearing capacity centrifugal tests, soils and foundations, 2013, 53(2): 349-356.(SCI收录)
4.J.J. YANG, N, YAN, Y.C. ZHANG and T. SUN. Laboratory simulation test on deterioration of soil cement stabilized in marine soft clay site, New advances in geotechnical engineering, China Communications Press, Proceedings of the 5th China-Japan geotechnical symposium, Editors : Yangping YAO, Yoichi WATABE and Wei HU, pp.391-397, 2013.5.(ISTP收录)
5.郑天元、杨俊杰、李永霞、刘江娇:柴油污染土的工程性质试验研究,工程勘察,2013年,第41卷,第1期:1-4.
6.杨俊杰、孙涛、张玥宸、苗佳丽:腐蚀性场地形成的水泥土的劣化研究,岩土工程学报,2012年,第34卷,第1期:130-138.(EI收录)
7.孙涛、杨俊杰、赵宏、孙太亮:变截面劲性水泥土桩承载特性室内模型试验研究,中国海洋大学学报,2012年,第42卷,第5期:20-27.
8.杨俊杰、袁伟、许绍帅、王秀海:水泥土渗透性的室内试验研究,第二届全国复合地基理论及工程应用学术研讨会论文集,2012年:67-70.
9.杨俊杰、袁伟、许绍帅、王秀海:水泥土渗透性的室内试验研究,广东公路交通,2012年,第2期:13-16.
10.杨俊杰、孙涛、刘胜梅:变截面劲性旋喷搅拌桩的开发与实现,地基处理,2012年,第23卷,第1期:3-14.
11.杨俊杰、张玥宸、闫楠、王秀海:场地形成的水泥土的劣化室内模拟试验,全国吹填土地基处理学术研讨会论文集,2012年:42-46.
12.杨俊杰、张玥宸、闫楠、王秀海:场地形成的水泥土的劣化室内模拟试验,土木工程与管理学报,2012年,第3期:1-5.
13.Sanhe Lv, Mengrong Dong, Yang Junjie(通讯作者) and Jiali Miao. The Influence analysis of groundwater environment on the strength of cement-stabilized soil, Progress in Industrial and Civil Engineering, TRANS TECH PUBLICATIONS, Part1, 2012年:622-627. (EI收录)
14.孙涛、杨俊杰、安庆军、吴刚:土层抗浮锚杆承载力关键影响因素现场试验研究,中国海洋大学学报,2011年,第41卷,第11期:18-22.
15.柳飞、杨俊杰、侯瑜京、吴炼石:端承型桩承载力离心模型试验中的粒径效应研究,中国海洋大学学报,2011年,第41卷,第9期:59-66.
16.浅基础承载力离心模型试验中的粒径效应,全国土工离心模拟技术学术交流会论文集,2011年10月,(特邀报告),武汉
17.柳飞、杨俊杰、吴炼石、丰泽康男:基础埋深对承载力试验中基础尺寸效应的影响,中国海洋大学学报,2010年,第40卷,第9期:117-122.
18.苗佳丽、杨俊杰、孙涛、张昆、张玥宸:水泥加固海水湿排粉煤灰力学特性研究,地基处理理论与技术进展,第11届全国地基处理学术讨论会论文集,2010年:314-319.
19.吕三和、孙涛、杨俊杰、苗佳丽:水泥加固软土室内试验,建筑技术,2010年,第41卷增刊:210-212.
20.柳飞、郑西来、杨俊杰(通讯)、Toyosawa, Y., Horii, N. 基础埋深对承载力离心模型试验中粒径效应的影响,岩土工程学报,2010年,第32卷、第10期:1621-1627.(EI收录)
21.郑天元、杨俊杰、刘江娇、童玲:石油污染土的击实特性,水文地质工程地质,2010年,第37卷,总233期:102-106.
22.T. Sun, J-J. Yang, S-H. Lv, and S-M. Liu. Development and Realization of a New Construction Method of Reinforced Cement-soil Piles, Recent developments of geotechnical engineering, Proceedings of the Fourth Japan-China Geotechnical Symposium, Editors : Kazuhito Komiya and Yang-Ping Yao, pp.411-416, 2010.4.(ISTP收录)
23.苗佳丽、杨俊杰、张昆、孙涛、时伟:海水环境对水泥固化粉煤灰强度影响,建筑技术,2009年,第40卷增刊:116-119.
24.杨俊杰、孙涛、刘红军:日本加筋土结构设计思路,土工合成材料加筋—机遇与挑战、第二届全国土工合成材料加筋土学术研讨会论文集,中国铁道出版社,2009年:64-72.
25.李秀娟、杨俊杰、丁原东、王延凤:上限法在加筋土结构物稳定性分析中的应用,岩土力学,2009年,第30卷,第8期:2409-2417.(EI收录)
26.王艳巧、刘斯宏、杨俊杰、刘强:土工袋加固砂性土质边坡模型试验与上限解,岩石力学与工程学报,2009年,第28卷、增刊2:4006-4013.(EI收录)
27.刘强、杨俊杰、刘红军、孙涛:有限长生态边坡客土稳定性分析,岩石力学与工程学报,2009年,第28卷增刊1:3264-3269.(EI收录)
28.杨俊杰、刘强、柳飞、Toyosawa, Y., Horii, N. , Itoh, K. 离心模型试验中离心加速度取值误差探讨,岩土工程学报,2009年,第31卷,第2期:241-246.(EI收录)
29.李秀娟、杨俊杰、原晓军、王延凤:加筋土准粘聚力原理在极限分析上限法中的应用,湖南大学学报,2008年,第35卷,第11期(增刊):282-286.
30.张昆、杨俊杰、孙涛、苗佳丽:水泥固化海水湿排粉煤灰的试验研究,湖南大学学报,2008年,第35卷,第11期(增刊):63-69.
31.乔宝刚、杨俊杰、孙涛:青岛民航综合楼基坑支护工程实录,建筑技术,2008年,第39卷增刊:274-277.
32.王亮、杨俊杰、刘强、贾永刚、单红仙:表面渗流对生态边坡中客土稳定性影响研究,岩土力学,2008年,第29卷,第6期:1440-1445.(EI收录)
33.房明、杨俊杰、许国辉、Toyosawa, Y., Horii, N. and Itoh, K. 建筑机械偏心荷载对开挖过程中沟槽稳定性的影响研究,岩土工程学报,2008年,第30卷,第5期:705-711.(EI收录)
34.刘强、杨俊杰、刘红军、Toyosawa, Y., Itoh, K. 天然边坡削坡工程中的稳定性研究,岩土工程学报,2008年,第30卷,第4期:566-573.(EI收录)
35.Toyosawa Yasuo, Itoh Kazuya and Yang Junjie Stability of Trench Excavation Under Construction Machinery Load, Specific research reports of National institute of occupational safety and health, JNIOSH-SRR-No.35 (2007), 19-31.
36.Liu qiang, Yang Junjie, Ding Yuandong, Toyosawa, Y., Itoh, K. and Horii, N. Study on stability of natural slope cutting work, New frontiers in Chinese and Japanese geotechniques, Editors : Yangping Yao, Hirokazu Akagi and Ga Zhang, pp.375-382, 2007.11.(ISTP收录)
37.柳飞、杨俊杰、丁原东、Toyosawa, Y., Horii, N., Itoh, K. 基础形状及埋深对承载力特性的影响研究,建筑技术、2007.10、第38卷增刊:327-331.
38.房明、杨俊杰、许国辉、Toyosawa, Y., Horii, N. 建筑机械开挖沟槽的稳定性研究,岩土工程学报、2007年、第29卷、第10期:1506-1516.(EI收录)
39.柳飞、杨俊杰、刘红军、Toyosawa, Y., Horii, N., Itoh, K. 离心模型试验模拟平板载荷试验研究,岩土工程学报、2007年、第29卷、第6期:880-886.(EI收录)
40.杨俊杰、柳飞、Toyosawa, Y., Horii, N., Itoh, K. 砂土地基承载力离心模型试验中的粒径效应研究,岩土工程学报、2007年、第29卷、第4期:477-483.(EI收录)
41.陈照亮、杨俊杰、金春姬:我国石棉的安全性分析及对策研究、中国安全生产科学技术、2007年、第3卷、第2期:36-42.
42.Liu Fei, Yang Junjie, Liu Hongjun, Toyosawa, Y., Horii, N., Itoh, K. Influence of the density of sandy ground on the scale effect of footings, Recent development of geotechnical and geo-environmental engineering in Asia, pp.145-150, 2006.11.
43.Toyosawa, Y., Yang Junjie, Timpong Sahaphol, Itoh, K. and Tamrakar S. B. Stability of trench excavation under construction machinery load, 59th Canadian Geotechnical Conference, pp.376-381, 2006.10.
44.杨俊杰、王亮、郑建国、许国辉、吴彦霖、王新强:生态边坡客土稳定性研究、岩石力学与工程学报、2006年、第25卷、第2期:414-422.(EI收录)
45.邢恩桥、许国辉、杨俊杰:用静力触探参数确定地基土水平地基抗力系数的比例系数m值-以天津地区为例,中国海洋大学学报、2005年、第35卷、第4期:683-686.
46.Toyosawa Yasuo, Mitachi Toshiyuki, Yang Junjie, Itoh Kazuya and Tamrakar S.B. Stability of Trench Excavation Under Construction Machinery Load, Journal of Geotechnical Engineering, Japan Society of Civil Engineers, 2005, 806/III-73:79-91.
47.Toyosawa Yasuo, Yang Junjie, Miura Seiichi and Suemasa Naoaki. Bearing Capacity of Reinforced Ground Using Centrifuge Tests, Journal of Geotechnical Engineering, Japan Society of Civil Engineers, 2004, 757/III-66:247-257.
48.Yang Junjie and Toyosawa Ysuo. Bearing Capacity of Reinforced Sandy Ground Using Centrifuge Tests, Journal of TSUCHI-TO-KISO, Japanese Geotechnical Society, 2003, 51(11):47-49.
49.J. Yang and S. Miura: Comparative Study on Mechanical Properties of Loess and Volcanic Cohesive Soils, Journal of Geotechnical Engineering, Hokkaido Branch of JGS, No.42, pp.87-94, 2002.1.
50.T. Nakata, S. Miura, J. Yang et al.: Physical and Mechanical Properties of Volcanic Ash Soils in Hokkaido, Journal of Geotechnical Engineering, Hokkaido Branch of JGS, No.42, pp.59-66, 2002.1.
51.J. Yang and S. Miura: Dependency of Deformation and Strength Characteristic of Fine-Grained Volcanic Soils on Cementation, Journal of Geotechnical Engineering, Hokkaido Branch of JGS, No.40, pp.119-128, 2000.2.
52.J. Yang and N. Moroto: Shear Strength of Undisturbed Volcanic Cohesive Soils Undergoing Cementation, Journal of Geotechnical Engineering, JSCE, No.617/III-46, pp.175-189, 1999.3.
53.J. Yang, N. Moroto and A. Hasegawa: Shear Strength of Undisturbed Takadate Loam Soil due to Cementation, Proc. of International Symposium on Problematic Soils, Vol.1, pp.203-206, 1998.10. (ISTP 1999.3, P82865-203)
54.N. Moroto, A. Hasegawa, J. Yang and T. Nagui: A New Engineering Classification of Volcanic Cohesive Soils for Earthworks, Proc. of International Symposium on Problematic Soils, Vol.1, pp.211-215, 1998.10. (ISTP 1999.3, P82865-211)
55.J. Yang and N. Moroto: Shear Strength of Undisturbed Volcanic Cohesive Soils, Journal of Hachinohe Institute of Technology (HIT), No.17, pp.107-113, 1998.2.
56.J. Yang and N. Moroto: Shear Strength of Volcanic Cohesive Soils, Specific Research Reports of HIT, pp.73-79, 1997.12.
57.J. Yang and N. Moroto: Constant Volume Direct Shear Test of Volcanic Cohesive Soils, Journal of HIT, No.16, pp.77-86, 1997.2.
58.J. Yang and N. Moroto: Damaged during the SanrikuHaruka Earthquake and Ground Condition, Specific Research Reports of HIT, pp.115-119, 1996.11.
59.J. Yang and N. Moroto: Shear Strength of Hachinohe Loam by Using the Constant Volume Direct Shear Test, Specific Research Reports of HIT, pp.171-174, 1996.11.
60.J. Yang, N. Moroto, H. Ochiai and A. Suzuki: Application of the Velocity Field Method to Stability Analysis of Earth Reinforcement, Proc. of International Symposium on Earth Reinforcement, Vol.1, pp.285-288, 1996.11. (ISTP 1997.5, P74219-285)
61.J. Yang and N. Moroto: A Review of Collapsible Loess in China, Journal of TSUCHI-TO-KISO, JGS, Vol.44, No.9, pp.37-40, 1996.9.
62.J. Yang, H. Ochiai et al.: Stability Analysis on Earth Reinforcement by Using the Velocity Field Method, Journal of the Society of Materials Science, Japan, Vol.44, No.503, pp.990-993, 1995.8. (EI, No.0157186, 1995)
63.J. Yang, H. Ochiai et al.: Bearing Capacity of Geogrid Reinforced Foundation Ground, Journal of Lowland Technology, No.4, pp.6-22, 1995.3.
64.J. Yang, H. Ochiai and S. Hayashi: Evaluation of Bearing Capacity of Geogrid Reinforced Foundation, Journal of Geotechnical Engineering, JSCE, No.505/III-29, pp.123-132, 1994.12. (EI, No.0072268, 1995)
65.J. Yang, H. Ochiai and S. Hayashi: Experimental Study on Bearing Capacity of Geogrid Reinforced Foundation Ground, Journal of Geotechnical Engineering, JSCE, No.499/III-28, pp.117-126, 1994.9. (EI, No.0174566, 1995)
66.J. Yang, H. Ochiai, A. Suzuki and Y. Kitazono: Evaluation of the Bearing Capacity of Geogrid Reinforced Foundation Ground Using the Velocity Field Method, Journal of the Faculty of Engineering, Kumamoto University, Vol.43, No.2, pp.129-148, 1994.9.
67.A. Suzuki, J. Yang, et al.: On the Influence of Ca2+ Leached out of Light Weight Stabilized Soils, Proc. of First International Congress on Environmental Geotechnics, pp.65-70, 1994.7.
68.J. Yang, H. Ochiai, A. Suzuki and S. Hayashi: Bearing Capacity of Reinforced Dense Sandy Ground with Geogrid, Journal of the Faculty of Engineering, Kumamoto University, Vol.43, No.1, pp.1-9, 1994.3.
69.J. Yang, H. Ochiai et al.: Influence of Ground Density on the Bearing Capacity of Geogrid Reinforced Foundation Ground, Journal of the Faculty of Engineering, Kumamoto University, Vol.43, No.1, pp.11-20, 1994.3.
70.J. Yang, H. Ochiai, and A. Suzuki: Influence of Width and Depth of Footing on the Bearing Capacity of Geogrid Reinforced Foundation Ground, Journal of the Faculty of Engineering, Kumamoto University, Vol.43, No.1, pp.21-26, 1994.3.
71.H. Ochiai, J. Yang, S. Hayashi and J. Otani: Reinforcing Effects of Foundation Ground with Geogrids, Proc. of International Symposium on Soil Improvement and Pile Foundation, Vol.1, pp.310-315, 1992.3.
72.J. Yang and H. Ochiai: Factors Controlling the Bearing Capacity of Geogrid Reinforced Foundation Ground, Journal of the Faculty of Engineering, Kyushu University, Vol.64, No.5, pp.445-451, 1991.10.
73.H. Ochiai, J. Yang, et al.: Bearing Capacity of Geogrid Reinforced Foundation Soils, Proc. of the 10th Southeast Asian Geotechnical Conference, Vol.1, pp.107-110, 1990.4.
74.J. Yang, Y. Toyosawa and H. Ochiai: Influence of Ground on the Trafficability of Construction Machinery in Earthworks, Proc. of the 32nd Symposium on Safety Engineering, Safety Engineering Committee of the Japan Society for the Promotion of Science (JSPS), pp.368-371, 2002.7.
75.J. Yang and S. Miura: Overconsolidation Effects on Strength and Deformation Characteristic of Volcanic Cohesive Soil, Proc. of Symposium on Overconsolidated Soils and Ground, JGS, pp.47-52, 2000.12.
76.J. Yang and N. Moroto: Constant Volume Direct Shear Test of Volcanic Cohesive Soils, Proc. of 41st JGS Symposium, pp.105-110, 1997.1.
77.J. Yang and S. Miura: Comparative Study on Geotechnical Characteristics of Chinese Loess and Japanese Volcanic Cohesive Soils, Proc. of Symposium on Evaluation Method for Engineering Properties of Volcanic Ash Ground, Hokkaido Branch of JGS, pp.173-178, 2002.9.
78.J. Yang, N. Moroto, H. Abe and M. Kuryu: A Study on Compaction Properties of Sandy Soils in Sanbachi Region of Aomori Prefecture, Proc. of Symposium’98, Tohoku Branch of JGS, pp.74-79, 1998.11.
79.J. Yang and N. Moroto: Shear Strength of Undisturbed Takadate Loam due to Cementation, Proc. of Symposium’97, Tohoku Branch of JGS, pp.53-59, 1997.10.
80.J. Yang, H. Ochiai and S. Hayashi: Evaluation of Bearing Capacity of Geogrid Reinforced Foundation, Proc. of 8th Symposium on Geotextile, International Society for Soil Mechanics and Geotechnical Engineering (ISSMGE) Japan Chapter Symposium, pp.8-17, 1993.12.
81.J. Yang and H. Ochiai: Bearing Capacity Formulated of Geogrid Reinforced Foundation, Proc. of 6th Symposium on Geotextile, ISSMGE Japan Chapter Symposium, pp.15-23, 1991.12.
82.J. Yang and N. Moroto: Chemical Stabilization of Volcanic Cohesive Soils, Proc. of the 2nd Symposium on Soil Improvement, The Society of Materials Science, Japan, pp.37-42, 1997.1.
83.J. Yang, H. Ochiai et al.: Stability Analysis on Reinforced Steep Embankment Using the Velocity Field Method, Proc. of the 1st Symposium on Soil Improvement, The Society of Materials Science, Japan, pp.135-140, 1994.6.
84.A. Hasegawa, J. Yang et al.: Change of the Groundwater Level and Ground in Hachinohe District during the Earthquake, Proc. of the Symposium on the SanrikuHaruka Earthquake, pp.75-80, 1998.1