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P92钢高温蠕变损伤分析 被引量:28

Analysis of creep damage at elevated temperature in a P92 steel
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摘要 对650℃,100 MPa条件下蠕变1546.5 h的P92钢试样进行了组织热损伤及应变损伤观察,分析了蠕变孔洞形成机理。结果表明,分布于板条间的M23C6相的粗化不明显,保持较高的数量密度,晶界上粗大的M23C6相大部分消失,导致其体积分数明显减少。在晶界上析出密集分布的的Laves相,平均等效直径为320 nm,体积分数约为2.6%。在晶界上形成了单个分布的蠕变孔洞,蠕变孔洞的形成与晶界上析出Laves相密切相关。由于Laves相分布于晶界,其沉淀强化作用不大,使基体合金元素贫化,促进蠕变孔洞的形成而降低P92的蠕变断裂强度。要进一步提高新型马氏体热强钢蠕变性能的关键是抑制Laves相在晶界的析出。 The thermally and strain induced damage of P92(9Cr-0.5Mo-1.8W-VNb)steel were investigated after creep test conducted under an applied stress of 100 MPa for 1546.5 h at 650 ℃,and the mechanism of creep damage was examined.The results show that M23C6 carbide located on subgrain boundaries maintains with fine and high densitiy distribution during the creep,but most of the relative large M23C6 particles located on grain boundaries disappears,which results in the considerable reduction in volume fraction of M23C6.The Laves phase with the mean diameter of about 320 nm and the volume fraction of 2.6 % is precipitated along grain boundaries after creep test.A few sparsely distributed voids nucleated at the Laves phase form along grain boundaries.The Laves phase distributed along grain boundaries can not contribute to the precipitation hardening,but leads to the decrease of the creep rupture strength due to providing cavity nucleation sites.The creep properties of P92 steel can be improved by retarding and avoiding the formation of Laves phase along grain boundaries.
作者 王学 潘乾刚 陈方玉 陶永顺 彭芳芳
机构地区 武汉大学动力与机械学院 东方锅炉(集团)有限公司 武汉钢铁集团公司技术中心
出处 《材料热处理学报》 EI CAS CSCD 北大核心 2010年第2期65-69,共5页 Transactions of Materials and Heat Treatment
关键词 P92钢 耐热钢 蠕变 损伤 P92 steel heat-resistant steel creep damage
分类号 TG132.3 [一般工业技术—材料科学与工程] TG111.8 [金属学及工艺—物理冶金]
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参考文献9

  • 1林富生.超超临界参数机组材料国产化对策[J].动力工程,2004,24(3):311-316. 被引量:27
  • 2Fujimitsu Masuyama. History of plants and progress in heat resistant steels [ J ]. ISIJ,2001,41 (6) : 612 - 625.
  • 3Mats Hattestand,Hans-Olof Andr6n. Evaluation of particle size distributions of precipitates in a 9% chromium steel energy filtered transmission electron microscopy [ J ]. Micron,2001,32 : 789 - 797.
  • 4Kouichi Maruyama, Kota Sawada, Jun-ichi Koike. Strengthening mechanisms ocvreep resistant tempered martensitic steel[ J ]. ISIJ,2001,41 ( 6 ) : 641 -653.
  • 5Sawada K, Takeda M, Maruyama K, et al. Effect of W on recovery og lath structure during creep of high chromium martensitic steels[ J]. Materials Science and Engineering A, 1999, 267 : 19 - 25.
  • 6Dimmler G, Weinert P, Kozeschnik E, et al. Quantification of the Laves phase in advanced 9 - 12% Cr steels using a standard SEM [ J]. Materials Characterization ,2003,51:341 - 352.
  • 7Yutaka Tsuchida,Kentaro Okamoto, Yoshikuni Tokunaga. Improvement of creep rupture strength of high Cr ferritie steel by addition of W[ J]. ISIJ, 1995,35(3) :317 -323.
  • 8Sawada K, Kubo K, Abe F. Creep behavior and stability of MX precipitates at high temperature in 9Cr-O. 5Mo-1.8W-VNb steel[ J]. Materials Science and Engineering A3,2001,19 - 321:784 - 787.
  • 9Sklenicka V. Development of intergranular damage under high temperature loading conditions. In: Moura-Branco C, Ritchie R, Sklenicka V, ed. Mechanical behaviour of materials at high temperature[M]. Dordrecht( the Netherlands) : Kluwer Acadamic Publishing, 1996:43 -58.

二级参考文献10

  • 1Viswannathan R, Bakker WT, Materials for boiler in ultra superitical power pIants[C]. IJPGC2000-15049.JuIy23-26.2000.
  • 2Christina Berger. Mayer KH, Scar[in RB. New Turbine Steels to Improve the Economy of Power Plants [J].VGB Kraftwerk-stechnik. 1991 (7)P608-620.
  • 3Marc E Staubli,Karl-Heinz Mayer,Torsten U kern, Rod W Vanstone. COSTs01/COST522-The European Collaboration in Advanced Steam Turbine Materials for Ultra. Efficient. Low Emission Steam Power Plant. Proceedings of the 5th International Charles Parsons Turbine Conference. P98-120.
  • 4(日)金子丈冶.汽轮机设备的设计与材料[J].火力原子力发电,2000,(10).
  • 5(日)山内秀纪.锅炉设备的设计与材料[J].火力原子力发电,2000,(10).
  • 6(日)伊势田敦郎.锅炉用高强度高耐腐蚀剂性12Cr系钢管的开发[J].火力原子力发电,2000,(10).
  • 7(日)金子了市.蒸汽温度650C使用的汽轮机材料的开发[J].火力原子力发电,2000,(10).
  • 8Viswannathan R, Bakker WT. Materials for boiler in ultra superitical power plants[C]. IJPGC2000-15049,July23-26,2000.
  • 9Christina Berger, Mayer KH, Scarlin RB. New Turbine Steels to Improve the Economy of Power Plants[J]. VGB Kraftwerksteehnik, 1991 (7)P608-620
  • 10Marc E,Staubli, Karl-Heinz Mayer,Torsten U. kern, Rod W,Vanstone. COST501/COST522-The European Collaboration in Advanced Steam Turbine Materials for Ultra. Efficient, Low Emission Steam Power Plant. Proceedings of the 5th International Charles Parsons Tur

共引文献26

同被引文献232

引证文献28

二级引证文献145

材料热处理学报
2010年 第2期

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