[1]郭登明,吳海鋒,郭建東,等.用于超高壓管匯材料15CrNiMo的綜合性能研究[J].石油機械,2019,47(04):104-109.[doi:10.16082/j.cnki.issn.1001-4578.2019.04.017]
 Guo Dengming,Wu Haifeng,Guo Jiandong,et al.Comprehensive Performance Study of 15CrNiMo for Ultra-high Pressure Manifold Material[J].China Petroleum Machinery,2019,47(04):104-109.[doi:10.16082/j.cnki.issn.1001-4578.2019.04.017]
點擊復制

用于超高壓管匯材料15CrNiMo的綜合性能研究

參考文獻/References:

[1] 郭登明,周靖力,肖信武,等. 延長高壓活動彎頭壽命的工藝研究[J]. 石油機械,2017,45(5):86-88,94. GUO D M, ZHOU J L, XIAO X W, et al. Process research on prolonging the life of high-pressure movable elbows[J]. China Petroleum Machinery, 2017, 45(5):86-88,94.
[2] 劉春城,楊春秋,沈雄偉. 高壓管匯三通管件有限元及疲勞斷裂分析[J]. 北華大學學報(自然科學版),2000,1(4):360-364. LIU C C, YANG C Q, SHEN X W. Finite element analysis and fatigue fracture analysis of high pressure manifold pipe fittings[J]. Journal of Beihua University(Natural Science Edition), 2000,1(4):360-364.
[3] 卿輝,劉陽. 直通高壓管匯接頭斷裂原因分析[J]. 分析儀器,2013,44(6):122-125. QING H, LIU Y. Analysis of fracture causes of straight-through high-pressure pipe joints[J]. Analytical Instruments, 2013, 44(6):122-125.
[4] 張繼信,康健,樊建春, 等. 高壓彎管沖蝕失效分析及數值模擬[J]. 潤滑與密封,2016,41(10):40-46. ZHANG J X, KANG J, FAN J C, et al. Failure analysis and numerical simulation of high pressure elbow erosion[J]. Lubrication & Sealing, 2016,41(10):40-46.
[5] 張繼信,康健,樊建春,等. 壓裂工況下油氣田地面管匯的沖蝕磨損研究[J]. 油氣田地面工程,2016,35(8):28-32. ZHANG J X, KANG J, FAN J C, et al. Erosion wear of surface manifolds in oil and gas fields under fracturing conditions[J]. Oil & Gas Field Engineering, 2016, 35(8):28-32.
[6] 金雪梅,張祥來,廖浩,等.加砂壓裂過程中高壓管匯失效爆裂分析[J].安全,2017,38(1):17-18. JIN X M,ZHANG X L,LIAO H,et al.Analysis of failure burst of high pressure manifold during sand fracturing process[J].Safety,2017,38(1):17-18.
[7] 徐曉東,黃志國.提高高壓活動彎頭體使用壽命的工藝途徑[J].機械設計與制造,2005,43(8):118-119. XU X D, HUANG Z G. Process path to improve service life of high pressure active elbow body[J]. Mechanical Design & Manufacturing, 2005,43(8):118-119.
[8] ABBASZADEH K, SAGHAFIAN H, KHEIRANDISH S. Effect of bainite morphology on mechanical properties of the mixed bainite-martensite microstructure in D6AC steel[J]. Journal of Materials Science & Technology,2012,28(4):336-342
[9] NARAYANASWAMY B,HODGSON P,BELADI H. Comparisons of the two-body abrasive wear behaviour of four different ferrous microstructures with similar hardness levels[J]. Wear,2016,350/351:155-165.
[10] 郭登明,汪隨,卞和滿.高壓管匯活動彎頭的接觸分析及結構改進[J].石油機械,2018,46(3):72-77. GUO D M, WANG S, BIAN H M. Contact analysis and structural improvement of elbows in high pressure manifolds[J]. China Petroleum Machinery, 2018, 46(3):72-77.
[11] 田亞強,張宏軍,陳連生,等. 低碳高強鋼合金元素配分行為對殘余奧氏體和力學性能的影響[J]. 金屬學報,2014,50(5):531-539. TIAN Y Q, ZHANG H J, CHEN L S, et al. Effect of elemental behavior of low carbon high strength steel alloy on retained austenite and mechanical properties[J]. Acta Metallurgica Sinica,2014,50(5):531-539.
[12] 劉勝,孫建中,高宏波,等.微合金元素對超低碳鋼高溫抗氧化性能的影響[J].金屬熱處理,2016,41(4):105-109. LIU S, SUN J Z, GAO H B, et al.Influence of microalloying elements on high temperature oxidation resistance of ultra-low carbon steel[J].Heat Treatment of Metals,2016,41(4):105-109.
[13] 夏苑. Mn、Mo等合金元素對鋼中奧氏體形成及分解動力學的影響[D].北京:清華大學,2015. XIA Y. Effects of alloying elements such as Mn and Mo on the formation and decomposition kinetics of austenite in steel[D]. Beijing:Tsinghua University, 2015.
[14] 苑少強,梁國俐,武會賓.低碳鋼中微合金元素Nb,Mo在析出過程中的相互作用[J].材料熱處理學報,2007,28(增刊1):339-342. YUAN S Q, LIANG G L, WU H B.Interaction of microalloying elements Nb and Mo in low carbon steel during precipitation[J].Transactions of Materials and Heat Treatment,2007,28(S1):339-342.
[15] 王乾. 400HB級馬氏體與貝氏體耐磨鋼板的組織及耐磨性研究[D]. 馬鞍山:安徽工業大學,2013. WANG Q. Study on microstructure and wear resistance of 400HB martensite and bainite wear-resistant steel plate[D]. Maanshan:Anhui University of Technology, 2013.
[16] 張逖,王乾,斯松華.馬氏體耐磨鋼與貝氏體耐磨鋼的組織及耐磨性能[J].熱處理,2013,28(4):41-44. ZHANG T, WANG Q, SI S H. Microstructure and wear resistance of martensite wear-resistant steel and bainite wear-resistant steel[J].Heat Treatment,2013,28(4):41-44.
[17] 鐘堯舜. 400HB級馬氏體與貝氏體耐磨鋼的磨損性能對比研究[D]. 馬鞍山:安徽工業大學,2016. ZHONG Y S. Comparative study on wear properties of 400HB martensite and bainite wear-resistant steel[D]. Maanshan:Anhui University of Technology, 2016.
[18] 張增歧,劉耀中,樊志強.貝氏體等溫淬火及其在軸承上的應用[J].金屬熱處理學報,2002,23(1):57-60,76. ZHANG Z Q, LIU Y Z, FAN Z Q. Austemper quenching of bainite and its application in bearings[J]. Journal of Metal Heat Treatment, 2002,23(1):57-60,76.

相似文獻/References:

[1]朱中平,黃朝斌,喬春,等.SJX5270TYG壓裂管匯車的研制[J].石油機械,2011,(02):69.
[2]張繼信,樊建春,李世玉,等.高壓管匯的檢測及安全評價技術研究[J].石油機械,2012,(01):64.
[3]符方杰,樊建春,張繼信.腐蝕缺陷對高壓管匯剩余強度的影響分析[J].石油機械,2012,(06):66.
[4]吳漢川,王峻喬,余旭陽. 大型壓裂施工裝備的配置與連接[J].石油機械,2014,(04):67.
 [J].China Petroleum Machinery,2014,(04):67.
[5]孫秉才,樊建春,溫東,等. 高壓管匯沖蝕磨損磁記憶檢測試驗研究[J].石油機械,2014,(06):65.
 [J].China Petroleum Machinery,2014,(04):65.
[6]潘靈永,王峻喬,周斌,等.基于CFD技術的高壓管匯系統布局優化設計[J].石油機械,2016,44(07):94.[doi:10.16082/j.cnki.issn.1001-4578.2016.07.020]
 Pan Lingyong,Wang Junqiao,Zhou Bin,et al.CFD-based Optimum Design for High Pressure Manifold Layout[J].China Petroleum Machinery,2016,44(04):94.[doi:10.16082/j.cnki.issn.1001-4578.2016.07.020]
[7]孫汝奇,岳愛麗,劉忠硯,等.高壓作業下管匯的空間流固耦合分析[J].石油機械,2016,44(07):103.[doi:10.16082/j.cnki.issn.1001-4578.2016.07.022]
 Sun Ruqi,Yue Aili,Liu Zhongyan,et al.Spatial Fluid-solid Interaction Analysis of Manifold in High Pressure Operation[J].China Petroleum Machinery,2016,44(04):103.[doi:10.16082/j.cnki.issn.1001-4578.2016.07.022]
[8]郭登明,周靖力,肖信武,等.延長高壓活動彎頭壽命的工藝研究[J].石油機械,2017,45(05):86.[doi:10.16082/j.cnki.issn.1001-4578.2017.05.016]
 Guo Dengming,Zhou Jingli,Xiao Xinwu,et al.Study on the Technology for Extending Service Life of High Pressure Movable Elbow[J].China Petroleum Machinery,2017,45(04):86.[doi:10.16082/j.cnki.issn.1001-4578.2017.05.016]
[9]涂亞東,徐小兵,殷華鋒,等.高壓管匯沖蝕磨損規律研究[J].石油機械,2018,46(02):84.[doi:10.16082/j.cnki.issn.1001-4578.2018.02.015]
 Tu Yadong,Xu Xiaobing,Yin Huafeng,et al.Analysis on Erosion Wear Laws of High Pressure Manifold[J].China Petroleum Machinery,2018,46(04):84.[doi:10.16082/j.cnki.issn.1001-4578.2018.02.015]
[10]郭登明,汪隨,卞和滿.高壓管匯活動彎頭的接觸分析及結構改進[J].石油機械,2018,46(03):72.[doi:10.16082/j.cnki.issn.1001-4578.2018.03.013]
 Guo Dengming,Wang Sui,Bian Heman.Contact Analysis and Structural Improvement of the Swivel Joints in High Pressure Manifold[J].China Petroleum Machinery,2018,46(04):72.[doi:10.16082/j.cnki.issn.1001-4578.2018.03.013]

備注/Memo

收稿日期:2018-12-10。
作者簡介:郭登明,教授,生于1963年,1988年畢業于石油大學(北京) 研究生院,現從事石油機械的教學、科研與設計工作。地址:(434023) 湖北省荊州市。E-mail:[email protected]

更新日期/Last Update: 1900-01-01
1000期双色球走势图助手彩吧