[1]刘俊峰,姜文勇,王晨,等. Nb对ZG1Cr10MoNiVNbN钢的组织和性能的影响[J].哈尔滨理工大学学报,2019,(01):99-102.[doi:10.15938/j.jhust.2019.01.016]
 LIU Jun feng,JIANG Wen yong,WANG Chen,et al. Effect of Nb on the Microstructure and Properties of ZG1Cr10MoNiVNbN Steel[J].哈尔滨理工大学学报,2019,(01):99-102.[doi:10.15938/j.jhust.2019.01.016]
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 Nb对ZG1Cr10MoNiVNbN钢的组织和性能的影响

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《哈尔滨理工大学学报》[ISSN:1007-2683/CN:23-1404/N]

卷:
期数:
2019年01期
页码:
99-102
栏目:
材料科学与工程
出版日期:
2019-02-25

文章信息/Info

Title:
 Effect of Nb on the Microstructure and Properties of ZG1Cr10MoNiVNbN Steel

作者:
 刘俊峰姜文勇王晨王丽萍冯义成
(哈尔滨理工大学 材料科学与工程学院,黑龙江 哈尔滨 150040)
Author(s):
 LIU JunfengJIANG WenyongWANG ChenWANG LipingFENG Yicheng
(School of Material Science and Engineering,Harbin University of Science and Technology, Harbin 150040, China)
关键词:
 关键词:Nb元素显微组织力学性能耐腐蚀性能
Keywords:
 Keywords:Nb element microstructure mechanical property corrosion resistance
分类号:
TG1744
DOI:
10.15938/j.jhust.2019.01.016
文献标志码:
A
摘要:
 摘要:为了研究Nb合金元素对ZG1Cr10MoNiVNbN牌号的耐热耐腐蚀钢组织和性能的影响,通过金相观察、拉伸、冲击试验和电化学腐蚀,得到Nb元素对此牌号钢力学性能和耐腐蚀性能的影响规律。结果表明:当Nb元素质量分数为015%时,钢中的板条状组织更加细小,碳化物分布也更加均匀,在力学性能方面,Nb量为015%的钢的屈服、抗拉强度为8641、9857MPa,伸长率和冲击功分别为144%和269J,在耐腐蚀性能方面,维顿电流密度和腐蚀电位分别为31254E7A/cm2,-016103V。
Abstract:
 Abstract:In order to study the Nb alloy elements on ZG1Cr10MoNiVNbN brand of the influence of the microstructure and mechanical properties of heat resistant corrosion resisting steel, through metallographic observation, tensile, impact test and electrochemical corrosion, and get the Nb element to this grade of steel mechanical properties and corrosion resistance are studied The results show that when the content of Nb element is 015%, the strip microstructure in the steel is finer and the carbide distribution is more uniform The yield and tensile strength of the steel with Nb content of 015% were 8641 and 9857MPa, the elongation at break and the impact work were 144% and 269J,In corrosion resistance, written born current density and corrosion potential were 31254E7A/cm2, -016103V

参考文献/References:

[1]戴佩琨,程钧培火力发电新技术发展[J].发电设备,2004(1):1
[2]李君,吴少华,李振中 超超临界燃煤发电技术是我国目前发展洁净煤发电技术的优先选择[J]. 中国电力,2004,37(9): 13
[3]陆燕荪从超临界机组的发展透视研发新材料的紧迫性[J].发电设备,2006(3):149
[4]李荣夫超临界汽轮机汽缸等铸钢件材料的选用[J].电站系统工程,2003,19(2): 59
[5]杨富,李为民,任永宁 超临界、超超临界锅炉用钢[J].电力设备,2004,5(10): 41
[6]SAWADAA K,OHBAB T, KUSHIMAA H, et al Effect of Microstructure on Elastic Property at High Temperatures in Ferritic Heat Resistant Steels[J]. Materials Science and Engineering,2005A( 394) : 36
[7]CHANSEO J,SIYEON B Creep Rupture Life Andvariation of Microstructure According to Aging Time and Creep Test Method[J]. Mater Sci Eng A,2007,449/451( 25) :155
[8]ABE F Bainitic and Martensitic Creepresistant Steels[J].Current O pinion in Solid State and Materials Science,2004,8(3/4): 305〖JP〗
[9]HIROSE T ,SHIBA K,ANDO M ,et al Joining Technologies of Reduced Activation Ferritic/martensitic Steel for Blanket Fabrication[J]. Fusion Engineering and Design,2006,81(1-7): 645
[10]ZEMAN A ,DEBARBERIS LMicrostructural Analysis of Candidate Steels Preselected for New Advanced Reactor Systems[J].J Nuclear Mater,2007,362(2/3): 259
[11]张红军, 周荣灿, 唐丽英,等 P92钢650℃时效的组织性能研究[J]. 中国电机工程学报, 2009(S1):174
[12]肖东东, 刘立斌, 易丹青,等 T91铁素体耐热钢相变行为和微观组织研究[J]. 热加工工艺, 2012, 41(22):96
[13]岳增武, 李辛庚 喷丸处理提高奥氏体耐热钢抗氧化性能的研究及应用[J]. 材料热处理学报, 2013, 34(1):157
[14]刘俊亮, 单爱党 新型铁素体耐热钢在650℃的蠕变特性及氧化行为[J]. 机械工程材料, 2012, 36(6):52
[15]石如星, 刘正东, 张才明 P92耐热钢δ-铁素体含量的热力学计算与试验分析[J]. 钢铁, 2011, 46(11):89
[16]包汉生, 傅万堂, 程世长,等 T122耐热钢中氮化硼(BN)化合物的探讨[J]. 钢铁, 2005, 40(10):68
[17]殷凤仕, 刘志良, 薛冰,等 微量碳和氮对9%Cr耐热钢中第二相析出行为的影响[J]. 动力工程学报, 2010, 30(4):258〖JP〗
[18]谭舒平 成分和工艺对S30432钢性能的影响及强化机理研究[D]. 哈尔滨:哈尔滨工业大学, 2009
[19]姜运建 P92钢焊接残余应力场及对高温寿命的影响研究[D]. 天津:天津大学, 2011
[20]张斌, 胡正飞 9Cr马氏体耐热钢发展及其蠕变寿命预测[J]. 钢铁研究学报, 2010, 22(1):26

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备注/Memo

备注/Memo:
 基金项目:国家自然科学基金(51374086).
更新日期/Last Update: 2019-03-26