学术论文: [1] Shi Changshuai, Wang Ao, Zhu Xiaohua, Cheng, Feilong. Research on cohesive failure behavior and parameter sensitivity of rubber – SET under cohesive zone model[J]. Engineering Failure Analysis, 140 (2022), 106492. [2] Changshuai Shi, Xiaofeng Wan, Juan Deng, Xiaohua Zhu.Research on Fatigue Lifetime Prediction of Stator Rubber Bushing Based on Rubber Aged Experiment[J].Journal of Testing and Evaluation,(2022)50(4):2209–2226. [3] Shi Changshuai, Luo Dongjing, Zhu Xiaohua. Working characteristics of coiled tubing mechanical friction reducing tool based on Coanda effect[J]. Journal of Petroleum Science and Engineering, 212 (2022), 110223. [4] Shi Changshuai, Wang Ao, Li Jinping. Study on pulsating hydroforming of equal wall thickness spiral tube for shale gas exploitation[J]. The International Journal of Advanced Manufacturing Technology, (2022)120(5-6):4217–4231. [5] Shi Changshuai, Tan Ling, Zhu Xiaohua, Chen Kailin, Cheng, Feilong.Fracture failure analysis and research on solid expandable tubular with joint thread[J].Engineering Failure Analysis, 129 (2021), 105658. [6] Changshuai Shi, Jinping Li, Juan Deng. Research on the hydroformed metal stator bushing based on full restraint at both ends[J]. Engineering Failure Analysis, 128 (2021), 105591. [7] SHI Changshuai, CHEN Kailin,ZHU Xiaohua, et al. Prevention study on defective solid expandable tubular fracture[J]. Engineering Failure Analysis, 121 (2021), 105121. [8] SHI Changshuai, CHEN Kailin,ZHU Xiaohua, et al. Study on corrosion failure prevention of expanded solid expandable tubular[J]. Engineering Failure Analysis, 121 (2021) , 105180. [9] SHI Changshuai, CHEN Kailin, ZHU Xiaohua. Effect of Expansion Ratio &Wall Thickness on Large-diameter Solid Expandable Tubular after Expansion[J]. Journal of pressure vessel technology-transactions of the asme,(2021)143(5), 051305. [10] Changshuai Shi, Jinping Li, Juan Deng, Xiaohua Zhu.External high-pressure forming of metal spiral tube of equal wall thickness[J]. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process mechanical engineering, (2021)235(2):536–547. [11] Changshuai Shi, Jinping Li, Xiaohua Zhu.Liquid filling & external extrusion composite forming tiny size spiral tube with equal wall thickness[J]. The International Journal of Advanced Manufacturing Technology,(2021)115(9-10):3177–3195. [12] Changshuai Shi, Jinping Li, Juan Deng, Xiaohua Zhu, Yanjie Jia. Study on multi-roller rotary feed forming mechanism of spiral tube with uniform wall thickness[J]. The International Journal of Advanced Manufacturing Technology, (2020)106(9):4593–4610. [13] Changshuai Shi, Kailin Chen, Xiaohua Zhu, Liping Tang. Thermal failure of 2/3 PCP in high temperature environment and optimization analysis of stator and rotor meshing parameters[J]. Journal of Loss Prevention in the Process Industries, 61(2019): 174-182. [14] Changshuai Shi, Yike Chen, Xiaohua Zhu. Applicability evaluation and hysteresis heat effect of rubber constitutive model of PDM stator bushing at high temperature in deep well[J].Arabian Journal for Science and Engineering, (2019)44:6057-6066. [15] Changshuai Shi, Xiaohua Zhu, Yike Chen, Liping Tang. Failure analysis of general stator and uniform wall thickness stator[J]. Engineering Failure Analysis, 94(2018):239-248. [16] SHI Changshuai, ZHU Xiaohua, DENG Juan, TANG Liping. Analysis of mechanical behavior and hysteresis heat generating mechanism of PDM motor[J].Journal of Mechanical Science and Technology, 31(3)(2017): 1143-1149. [17] Changshuai Shi, Xiaohua Zhu, Luo Heng. Study of DTH Bit-Rock Interaction Numerical Simulation Method and DTH Bit Properties Evaluation[J].Arabian Journal for Science and Engineering, (2017)42: 2179-2190. [18] Changshuai Shi, Xiaofeng Wan, Xiaohua Zhu, Kailin Chen. A study on mechanical properties of equal wall thickness rubber bushing of positive displacement motor based on hydrogenated nitrile butadiene rubber aging test[J]. Petroleum, 2021(1). [19] 石昌帅,王澳,祝效华,等. 碳钢-橡胶硫化粘接拉伸力学行为与粘接失效机理研究[J].表面技术, 2022(10):417-425. [20] 石昌帅,陈凯林,祝效华.基于单向解耦法的等壁厚螺杆泵橡胶衬套热滞后研究[J].工程科学与技术, 2021, 53(4):217-225. [21] 石昌帅,赵念刚,邓娟,付玉坤.热机耦合作用下冲击螺杆钻具传动轴密封性能分析[J].润滑与密封, 2021, 46(3):34-43. [22] 石昌帅,陈凯林,祝效华.螺杆定子衬套热老化本构参数及内腔变形规律研究[J].润滑与密封, 2019, 44(04):33-39. 发明专利: [1] 石昌帅,范美筠.一种具有二次破碎功能的异形聚晶金刚石复合片,2022.03,中国,ZL202110333646.1. [2] 石昌帅,李保红,祝效华.一种防止卡钻和堵塞的液压爪手工具,2022.03,中国,ZL202110042639.6. [3] 石昌帅,王澳,祝效华.一种可改变钻井液流动状态的涡轮式组合减摩阻工具,2022.02,ZL202110044384.7. [4] 石昌帅,王澳,祝效华,程飞龙.一种圆柱凸轮驱动新型阀结构的涡轮式钻井提速工具,2022.02,ZL202011303684.4. [5] 石昌帅,罗栋晶,祝效华,巫超辉.一种防卡钻的钻井提速工具,2022.03,ZL202011306471.7. [6] 石昌帅,谭凌,祝效华.一种钻井过程中通过轴扭复合作用减阻提速的装置及方法,2021.02,中国,ZL201910704270.3. [7] 石昌帅,李金平,祝效华.一种用于降低钻具与井壁之间摩擦的装置及其方法,2021.01,中国,ZL201910889137.X. [8] 石昌帅,祝效华,汤历平.一种改变井底钻井液流变性能的装置及其方法,2018.05,中国,ZL201510594700.2. [9] 石昌帅,但昭旺,祝效华.一种螺杆钻具马达工作压差控制阀及其控制方法,2019.08,中国,ZL201710154880.1. [10] 石昌帅,陈逸珂,祝效华.一种双压力腔作用的井下提速提效工具及其方法,2019.10,中国,ZL201710820212.8. [11] 石昌帅,祝效华.等壁厚金属衬套螺杆马达及其注胶工艺,2018.01,中国,ZL201510745010.2. [12] 石昌帅,祝效华.等壁厚金属定子衬套成形装置及金属衬套定子加工方法,2016.08,中国,ZL201410668578.4. [13] 石昌帅,祝效华.用于气体钻井中机械测井的井口密封工具,2017.02,中国,ZL201410668584.X. [14] 石昌帅,祝效华.一种近钻头井眼轨迹控制工具及其控制方法,2016.08,中国,ZL201410663088.5. |
[1] 国家自然科学基金面上项目,52174210,大膨胀率金属膨胀管防控页岩气井套管抗剪与抗挤机理研究, 2022/01-2025/12,主持. [2] 国家自然科学基金青年基金, 51604234,深井高温环境下螺杆钻具定子衬套热老化效应及工作力学特性研究, 2017/01-2019/12,主持. [3] 四川省重大科技专项项目,2022ZDZX0040,800MN大型模锻压机锻造成形工艺数字化智能化关键技术及应用(课题二:锻造全过程数据驱动多场多尺度动态模拟及优化技术研究),2023/01-2025/12,主持. [4] 四川省自然科学基金项目,23NSFSC2137,复杂压裂环境下页岩气井套管失效防控关键技术研究, 2023/01-2024/12,主持. [5] 四川省科技计划应用基础研究项目,19YYJC1058,深部高温井用等壁厚定子金属螺旋骨架成形机理及工作特性研究, 2019/01-2021/01,主持. [6] 成都市国际科技合作项目, 2019-GH02-00034-HZ,地热钻井用双等壁厚螺杆钻具定子衬套疲劳失效机理研究, 2019/01-2021/12,主持. [7] 西南石油大学青年科技创新团队,2018CXTD03,钻井工具, 2019/01-2021/12,主持. [8] 重庆大学机械传动国家重点实验室开放基金, SKLMT-KFKT-201610,高温深井螺杆钻具定子衬套橡胶热老化机理及寿命预测方法研究, 2017/01-2018/12,主持. [9] 四川省教育厅重点项目, 16ZA0064,螺杆钻具马达失效机理及高性能线型设计方法研究, 2016/01-2017/12,主持. [10] 中国石油天然气股份有限公司大港油田分公司/横向项目, DGYT-2018-JS-276,新型膨胀管配套技术研究与应用, 2018/07-2020/10,第二主持. [11] 中国石油化工股份有限公司西北油田分公司/横向项目,顺北地区测试关键技术研究-顺北一区无限级大通径固井滑套可行性论证,34400007-20-ZC0607-0016,2020/03-2021/04,第二主持. [12] 国家自然科学基金重点项目, 52034006,电脉冲-机械复合破岩提速机理研究, 2021/01-2025/12,参与. [13] 四川省青年科技创新研究团队,2017TD0014,钻井提速四川省青年科技创新研究团队, 2017/03-2020/03,参与. [14] 西南石油大学基层党建工作书记项目, DJSJ-202204,“三维一体”工作法助推“党建+业务”双融双促的探索实践, 2022/01-2023/12,主持. |
[1] 中国石油和化工自动化应用协会,青年突出科技贡献奖,2023. [2] 复杂地层钻井用稳定器关键技术开发及应用,河南省人民政府,河南省科技进步奖三等奖,排名第6,2022. [3] 钻井提速提效关键装备研制及产业化应用,中国石油和化学工业联合会,科技进步奖 二等奖,排名第7,2020. [4] 一种用于降低水平井段摩阻的防托压工具,四川省人民政府,四川省专利实施与产业化奖二等奖, 排名第2, 2017. [5] 管道定向穿越钻柱动力学特性与失效预防研究及应用,中国石油和化学工业联合会,科技进步奖三等奖,排名第2, 2016. [6] 大位移水平井减阻技术与工具研究及应用,四川省人民政府,四川省科技进步奖二等奖,排名第2, 2016. [7] 一种长寿命高性能螺杆钻具,四川省人民政府,四川省专利实施与产业化奖三等奖,排名第2, 2016. [8] 一种对开复合衬套式减扭防磨工具,四川省人民政府,四川省专利实施与产业化奖三等奖,排名第4, 2014. [9] 页岩气水平井钻井提速提效关键工具研制,四川省总工会,四川省职工“五小”活动优秀成果, 排名第1,2021. [10] “双核-两翼”式智能油气装备研究生培养模式创新与实践,中共四川省委教育工作委员会四川省教育厅,四川省高等教育教学成果二等奖,排名第8,2021. |