[1] 庄会涛,詹良斌,谭来顺. 热采井口装置在稠油热采中的应用[J]. 科技信息,2014(12):130,162. ZHUANG Huitao,ZHAN Liangbin,TAN Laishun. Application of thermal recovery wellhead device in heavy oil thermal recovery[J]. Science and Technology Information,2014(12):130,162. [2] 袁博,王颖,郗文博,等. 海上稠油热采井口高温BOP保护工艺及应用[J]. 石化技术,2016(23):182. YUAN Bo,WANG Ying,XI Wenbo,et al. High temperature BOP protection process and application of offshore heavy oil thermal recovery wellhead[J]. Petrochemical Technology,2016(23):182. [3] 张佑明,张华,秦奎. 大长径比油气管道空间爆炸事故分析-以中国石油新疆油田分公司"8·7"稠油热采井口爆炸事故为例[J]. 安全与环境学报,2008(3):95-98. ZHANG Youming,ZHANG Hua,QIN Kui. Analysis of space explosion accident of large length diameter ratio oil and gas pipeline-Taking "8.7" heavy oil thermal recovery wellhead explosion accident of PetroChina Xinjiang Oilfield Branch as an example[J]. Journal of Safety and Environment,2008(3):95-98. [4] 张诗昌,朱明,胡衍生,等. 挤压态AZ31镁合金高温蠕变性能的实验研究[J]. 铸造技术,2008,29(8):1062-1065. ZHANG Shichang,ZHU Ming,HU Yansheng,et al. Experimental study on high temperature creep properties of extruded AZ31 magnesium alloy[J]. Foundry Technology,2008,29(8):1062-1065. [5] 徐自立. 高温金属材料的性能、强度设计及工程应用[M]. 北京:化学工业出版社,2006. XU Zili. Properties of high temperature metal materials, strength design and engineering application[M]. Beijing:Chemical Industry Press,2006. [6] BRNIC J,TURKALJ G,CANADIJA M,et al. Creep behavior of high-strength low-alloy steel at elevated temperatures[J]. Materials Science and Engineering:A,2009,499(1-2):23-27. [7] 陈锦,张鹏. ZM3合金蠕变性能实验研究[J]. 西北工业大学学报,2005(2):202-207. CHEN Jin,ZHANG Peng. Experimental study on creep properties of ZM3 alloy[J]. Journal of Northwest University of Technology,2005(2):202-207. [8] 程晓农,陈明,李冬升,等. 新型Cr19Ni28TiN铁镍基合金的高温蠕变行为[J]. 金属热处理,2015,40(2):48-51. CHENG Xiaonong,CHEN Ming,LI Dongsheng,et al. High temperature creep behavior of a new Cr19Ni28TiN Fe Ni base alloy[J]. Heat Treatment of Metals,2015,40(2):48-51. [9] 陈涛,陈学东,刘春娇,等. 裂解炉管初生碳化物分类及对高温持久性能影响[J]. 机械工程学报,2018,54(8):109-116. CHEN Tao,CHEN Xuedong,LIU Chunjiao,et al. Classification of primary carbides in cracking furnace tubes and its effect on high temperature endurance performance[J]. Journal of Mechanical Engineering,2018,54(8):109-116. [10] 王俊崎,余海洋,周帼彦,等. 尺寸效应对固支直杆弯曲小试样蠕变性能评价的影响[J]. 压力容器,2019(1):1-9,23. WANG Junqi,YU Haiyang,ZHOU Guoyan,et al. Effect of specimen size on the creep property evaluation of small beam specimen with fixed constraints[J]. Pressure Vessel Technology,2019(1):1-9,23. [11] 毕静,崔学习,张艳苓,等. Ti-6Al-4V钛合金薄板应力松弛行为研究[J]. 机械工程学报,2019,55(18):43-52. BI Jing,CUI Xuexi,ZHANG Yanling,et al. Study on stress relaxation behavior of Ti-6Al-4V titanium alloy sheet[J]. Journal of Mechanical Engineering,2019,55(18):43-52. [12] 刘学,杜占辉,王晓,等. P92钢高温蠕变行为与断口形貌组织分析[J]. 科技创新与应用,2013(31):106-107. LIU Xue,DU Zhanhui,WANG Xiao,et al. Analysis of high temperature creep behavior and fracture morphology of P92 steel[J]. Science and Technology Innovation and Application,2013(31):106-107. [13] WILSHIRE B,SCHARNING P J. Long-term creep life prediction for a high chromium steel[J]. Scripta Materialia,2007,56(8):701-704. [14] 杨楠林. 汽轮机用耐热材料蠕变实验及Norton-Bailey方程研究[D]. 上海:华东理工大学,2013. YANG Nanlin. Creep experiment and Norton-Bailey equation study of heat-resistant materials for steam turbine[D]. Shanghai:East China University of Science and Technology,2013. [15] 秦炎锋,冯相赛,关凯书. 小冲杆法确定蠕变Norton参数[J]. 华东理工大学学报,2015,41(4):569-574. QIN Yanfeng,FENG Xiangsai,GUAN Kaishu. Determination of Norton parameters of creep by small punch method[J]. Journal of East China University of Science and Technology,2015,41(4):569-574. [16] 郑相锋,李文彬,范辉,等. SA-210C钢高温单轴蠕变Norton方程参数研究[J]. 河北电力技术,2014(1):5-6. ZHENG Xiangfeng,LI Wenbin,FAN Hui,et al. Study on Norton equation parameters of high temperature uniaxial creep of SA-210C steel[J]. Hebei Electric Power Technology,2014(1):5-6. [17] 王钊,王协群,李丽华. 蠕变实验和蠕变强度[C/CD]//全国第六届土工合成材料学术会议论文集,2004. WANG Zhao,WANG Xiequn,LI Lihua. Creep experiment and creep strength[C/CD]//Proceedings of the 6th National Geosynthetics Academic Conference,2004. [18] 荆洪阳,孟珊,赵雷,等. Sanicro25奥氏体耐热钢高温蠕变寿命的预测[J]. 机械工程学报,2018,54(12):165-171. JING Hongyang,MENG Shan,ZHAO Lei,et al. Prediction of high temperature creep life of Sanicro25 austenitic heat resistant steel[J]. Journal of Mechanical Engineering,2018,54(12):165-171. [19] 杨楠林,谈建平,轩福贞,等. 应力水平对In783合金蠕变性能和蠕变机理的影响[J]. 机械工程材料,2014(3):31-34,38. YANG Nanlin,TAN Jianping,XUAN Fuzhen,et al. Effect of stress level on creep performance and creep mechanism of IN783 alloy[J]. Mechanical Engineering Materials,2014(3):31-34,38. [20] 洪鼎华,王环丽,李武平,等. 在役P92钢蒸汽管道焊接接头中缺陷的研究[J]. 机械工程学报,2017,53(18):127-134. HONG Dinghua,WANG Huanli,LI Wuping,et al. Study on defects in welded joints of P92 steel steam pipeline in service[J]. Journal of Mechanical Engineering,2017,53(18):127-134. [21] 李克俭,蔡志鹏,李轶非,等. 碳迁移对9%Cr和2.25%Cr异种钢焊接接头高温韧性的影响[J]. 机械工程学报,2015,51(16):150-155. LI Kejian,CAI Zhipeng,LI Yifei,et al. Effect of carbon migration on high temperature toughness of 9%Cr and 2.25%Cr dissimilar steel welded joints[J]. Journal of Mechanical Engineering,2015,51(16):150-155. |