1、期刊论文
[1] Xu Chen,Zhang Gecheng,Xia Caichu,Du Shigui. Mechanical behavior of a new segmented lining for underground rock caverns with high internal pressure [J]. Computers and Geotechnics,2024,167:106100.
[2] Xu Chen,Wang Sheng,Xia Caichu. Analytical prediction for time-dependent interaction of a circular tunnel excavated in strain-softening rock mass [J]. Rock Mechanics Bulletin,2024:100127.
[3] Xu Chen,Zheng Lingxiao,Xia Caichu. Mechanical behavior of a double-layer supported large-span tunnel excavated in squeezing rocks employing stress release technology[J]. International Journal of Applied Mechanics,2024,16(5):2450054.
[4] Qin Shikang,Xia Caichu,Xu Chen*,Zhou Shuwei,Xu Yingjun,Li Xichen. A variable pressure water-sealed compressed air energy storage (CAES) tunnel excavated in the seabed: Concept and airtightness evaluation[J]. Sustainable Energy Technologies and Assessments,2024,65:103782.
[5] Qin Shikang,Xia Caichu,Zhou Shuwei,Xu Yingjun,Xu Chen,Li Xichen. Airtightness of a flexible sealed compressed air storage energy (CAES) tunnel considering the permeation accumulation of high-pressure air,Journal of Energy Storage,2024,84:110835.
[6] 韩常领,徐晨*,夏才初,郑卜豪,应轶微. 高地应力软岩隧道预留变形量设计方法[J]. 隧道建设(中英文),2023,43(11):1916-1923.
[7] 富志鹏,李博融,徐晨,韩常领. 高地应力软岩隧道大变形控制方案现场试验[J]. 长安大学学报(自然科学版),2023,43(01):133-142.
[8] Xu Chen,Xia Caichu,Han Changling. Elastoplastic solutions for deep tunnel excavation in weak rocks with high geostress considering different stress release measures[J]. International Journal of Applied Mechanics,2022,14(9):2250077.
[9] Xu Chen,Xia Caichu. A new large strain approach for predicting tunnel deformation in strain-softening rock mass based on the Generalized Zhang-Zhu strength criterion [J]. International Journal of Rock Mechanics and Mining Sciences,2021,143:104786.
[10] Xu Chen,Xia Caichu,Du Shigui. Simplified solution for viscoelastic-plastic interaction between tunnel support and surrounding rock based on MC and GZZ strength criteria [J]. Computers and Geotechnics,2021,139:104393.
[11] Xu Chen,Xia Caichu,Han Changling. Modified ground response curve (GRC) in strain-softening rock mass based on the generalized Zhang-Zhu strength criterion considering over-excavation[J]. Underground Space,2021,6(5):585-602.
[12] 夏才初,徐晨*,杜时贵. 考虑应力路径的深埋隧道黏弹-塑性围岩与支护相互作用[J]. 岩石力学与工程学报,2021,40(9):1769-1802.
[13] 韩常领,张天,徐晨,夏才初. 大断面软岩隧道变形特征及多层初支控制研究[J]. 公路,2021,66(01):335-339.
[14] 刘炀镔,夏才初,徐晨,陈孝湘. 窄基坑围护墙插入深度优化解析及离心试验研究[J].岩石力学与工程学报,2020,39(3):593-607.
[15] 夏才初,金天垚,徐晨*,韩常领. 软岩隧道超前导洞应力释放力学机制及适用性[J]. 隧道建设(中英文),2020,40(S2):1-11.
[16] 韩常领,夏才初,徐晨*. 软岩隧道挤压性围岩大变形控制技术研究进展[J]. 地下空间与工程学报,2020,16(S1):492-505.
[17] 韩常领,夏才初,徐晨*,徐英俊. 软岩隧道的超前导洞施工位置优化数值分析[J]. 地下空间与工程学报,2020,16(S1):265-269.
[18] 刘宇鹏,夏才初,吴福宝,徐晨,邓云纲. 高地应力软岩隧道长、短锚杆联合支护技术研究[J]. 岩石力学与工程学报,2020,39(1):105-114.
[19] 夏才初,刘宇鹏,吴福宝,徐晨,邓云纲. 基于西原模型的圆形隧道黏弹-黏塑性解析解[J]. 岩土力学,2019,40(5):1638-1648.
[20] 夏才初,徐晨*,刘宇鹏,韩常领. 基于GZZ强度准则考虑应变软化特性的深埋隧道弹塑性解[J]. 岩石力学与工程学报,2018,37(11):2468–2477.
[21] Zhang Zhiguo,Huang Maosong,Xu Chen,Jiang Yunjuan,Wang Weidong. Simplified solution for tunnel-soil-pile interaction in Pasternak's foundation model[J]. Tunnelling and Underground Space Technology,2018,78:146-158.
[22] Zhang Zhiguo,Zhao Qihua,Xu Chen,Xu Xiaoyang. Interaction analyses between tunnel and landslide in mountain area[J]. Journal of Mountain Science,2017,(6):1124-1139.
[23] 张治国,徐晨,宫剑飞. 隧道开挖对邻近桩基变形及承载能力影响的弹塑性解答[J]. 岩石力学与工程学报,2017,36(1):208-222.
[24] 张治国,徐晨,宫剑飞. 考虑桩侧土体三维效应和地基剪切变形的隧道开挖对邻近桩基影响分析[J]. 岩土工程学报,2016,38(5):846-856.
[25] 张治国,徐晨. 紧邻运营地铁进行基坑施工的影响因素研究[J]. 上海理工大学学报,2016,38(1):69-75.
[26] 张治国,沈安鑫,徐晨,马少坤,PAN Y T,蒋康明. 黏性场地列车荷载影响下衬砌半渗透边界盾构隧道诱发地表固结沉降解[J]. 中国公路学报,2022,35(5):116-127.
[27] 张治国,赵其华,徐晨,胡力绳. 基于影像源法的基坑开挖对邻近单桩影响简化分析[J]. 岩土力学,2016,37(7):2011-2020.
[28] 张治国,鲁明浩,徐晨,宫剑飞,赵其华. 基于Kerr地基模型的隧道开挖诱发桩基变形简化方法[J]. 现代隧道技术,2016,53(6):55-66.
[29] 张治国,徐晨,刘明,王卫东. 考虑基坑降水开挖影响的运营隧道变形分析[J]. 中国矿业大学学报,2015,44(2):241-248.
2、会议论文
[1] Xu Chen,Zheng Lingxiao,Zhang Gecheng,Yao Qing,Qin Shikang. Applicability of stress release method in soft rock tunnel with high geostress [C]// Proceedings of the 15th International Congress on Rock Mechanics and Rock Engineering,ISRM 2023:475-480.
[2] Qin Shikang,Xu Chen*,Li Xichen,Huang Yabin,Yao Qing. Collapse mechanism and treatment technology of large-span soft rock highway tunnel [C]// Proceedings of the 15th International Congress on Rock Mechanics and Rock Engineering,ISRM 2023:147-152.
[3] Xu Chen,Xia Caichu,Liu Yupeng,Han Changling. Visco-elastic-plastic solutions for tunneling and corresponding support measures in squeezing rock with different rheological Mechanics and Rock Engineering,ISRM 2019. (EI)
3、授权专利 / 软著
[1] 韩常领,李宗平,姚铁峰,康宏伟,夏才初,王万平,徐晨,王兴刚,董长松. 高地应力软岩大变形初期支护体系. ZL 201711054659.5,2024-03-01.(发明,排名7/9)
[2] 夏才初,杜时贵,周舒威,徐晨,秦世康,徐英俊. 一种压气储能与含热水地层地热开采耦合系统. ZL 202111141764.9,2023-07-21.(发明,排名4/6)
[3] 夏才初,徐英俊,杜时贵,周舒威,徐晨,秦世康. 一种压气储能与增强型地热开采耦合系统. ZL 202111141308.4,2023-06-27.(发明,排名5/6)
[4] 夏才初,徐英俊,杜时贵,周舒威,徐晨,秦世康. 一种常压式压气储能与采盐采热耦合系统. ZL202111141746.0,2023-5-23. (发明,排名5/6)
[5] 夏才初,秦世康,杜时贵,徐晨,徐英俊,王辰霖. 整体式橡胶囊密封的压气储能内衬洞室. ZL202110665113.3,2022-10-20.(发明,排名4/6)
[6] 夏才初,林梓梁,杜时贵,徐晨,曹善鹏,张瑶. 寒区隧道离壁式保温结构的正积温通风调控装置及方法. ZL202110665276.1,2022-09-20.(发明,排名4/6)
[7] 夏才初,林梓梁,杜时贵,徐晨,张瑶,曹善鹏. 寒区隧道排水系统的正积温通风调控装置及方法. ZL202110665114.8,2022-09-20.(发明,排名4/6)
[8] 韩常领,李宗平,徐晨,刘长风,唐启,董长松. 一种极高地应力软岩大变形隧道多级让抗支护结构. ZL201922184822.0,2020-09-08.(实用新型,排名3/6)
[9] 韩常领,徐晨,李博融,董长松. 一种循环使用的装配式超前应力释放导洞支护结构. ZL201921136936.1,2020-05-19.(实用新型,排名2/4)
[10] 韩常领,徐晨,董长松. 一种适用于大变形隧道的多级增阻可延伸式长锚杆结构. ZL201820736758.5,2019-01-01.(实用新型,排名2/3)
[11] 韩常领,李宗平,夏才初,徐晨,董长松,张钊,王兴刚,姚铁峰. 一种可重复使用的伸缩式临时钢架仰拱结构. ZL201721734834.0,2018-07-24.(实用新型,排名4/8)
[12] 韩常领,李宗平,姚铁峰,康宏伟,夏才初,王万平,徐晨,王兴刚,董长松. 一种高地应力软岩大变形初期支护体系. ZL201721431756.7,2018-06-05.(实用新型,排名7/9)
[13] 夏才初,徐晨,黄建东,金天垚,陈忠清,薛飞. 智能激光收敛仪手机测控软件 [简称:激光收敛仪软件] V1.0,2021SR1426044,原始取得,全部权利,2020-10-20. (软件著作权,排名2/6)
4、学术报告
[1] 2024年“陈宗基讲座”暨矿山采动应力与围岩控制理论及技术高端论坛,海口,2024年3月22日-24日,报告题目“压缩空气储能地下洞室围岩的应力路径及力学特性”。
[2] 2023(第十三届)中国矿业科技大会,呼和浩特,2023年8月9日~12日,报告题目“隧道流变性围岩的大变形控制理论”。
[3] 第十六届全国青年岩石力学与工程学术大会,南京,2023年5月26日~28日,报告题目“高地应力软岩隧道大变形预测及预留变形量设计”。担任第六分会场“地下空间能源存储与安全防护新进展”专题召集人。
[4] 2022年“陈宗基讲座”暨深部能源开发与储备中的岩石力学问题高端论坛,武汉,2023年3月24日-26日,报告题目“考虑应力路径的流变性软岩隧道黏弹塑性计算理论”。
[5] 第14届国际岩石力学与工程大会(ISRM 2019)the 14th International Congress on rock mechanics and rock engineering,ISRM 2019,巴西伊瓜苏,2019年9月13日~18日,报告题目“Visco-elastic-plastic solutions for tunneling and corresponding support measures in squeezing rock with different rheological constitutive models”。
5、其他
[1] 中国岩石力学与工程学会团体标准,《隧道地热能利用技术规程》(T/CSRME 008-2021),参编.
[2] 中华人民共和国交通运输部行业标准,《公路隧道改扩建技术规范》(征求意见稿),参编.
