OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

中国电机工程学报 2014

高参数汽轮机喷嘴材料抗固体颗粒冲蚀机制研究

DOI: 10.13334/j.0258-8013.pcsee.2014.11.014, PP. 1822-1828

蔡柳溪, 王顺森, 毛靖儒, 丰镇平

Keywords: 高参数汽轮机,调节级喷嘴,固体颗粒冲蚀,加速试验,冲蚀模型

Full-Text Cite this paper Add to My Lib

Abstract:

在设计、搭建的高温高速加速冲蚀试验台上对高参数汽轮机常用的6种喷嘴材料进行了高温抗固体颗粒冲蚀试验研究,并对试验后的材料表面进行了微观分析。研究结果表明：6种喷嘴母材均表现出典型的塑性材料冲蚀特性,最大冲蚀率对应的角度在(24±4)°范围内,速度指数在2.7~3范围,均高于Finnie冲蚀模型中的对应数值。在氧化皮颗粒小角度冲蚀下,喷嘴的冲蚀破坏主要是由颗粒的微切削所致。而在大角度冲蚀下,喷嘴材料表面主要受到粒子的正应力作用而产生严重的凿削和塑性变形。通过对试验结果进行系统分析,文中在Finnie微切削冲蚀模型的基础上建立了适用于工程实际的高参数汽轮机喷嘴材料抗固体颗粒冲蚀预测模型。该研究结果深化了高参数汽轮机喷嘴高温颗粒冲蚀机制,为综合防治叶栅冲蚀破坏和预测喷嘴高效做功寿命提供了参考。

References

[1]	Meng H C, Ludema K C.Wear models and predictive equations：their form and content[J].Wear, 1995, 181-183：443-457.
[2]	Bingley M S, Flynn D J.Examination and Comparison of Various Erosive Wear Models[J].Wear, 2005, 258：511-525.
[3]	Harsha A P, Bhaskar D K.Solid particle erosion behaviour of ferrous and Non-ferrous materials and correlation of erosion data with erosion models[J].Materials and Design, 2008, 29：1745-1754.
[4]	Tabakoff W, Walsh N.Comparative erosion resistance of coatings intended for steam turbine components[C]// ASME Power Div, 1990, 10：1-8.
[5]	Tabakoff W.Erosion resistance of superalloys and different coatings exposed to particulate flows at high temperature[J].Surface and Coating Technology, 1999, 120-121：542-547.
[6]	Tabakoff W.Erosion resistance of coatings for metal protection at elevated temperatures[J].Surface and Coating Technology, 1996(86-87)：88-93.
[7]	Grant G, Tabakoff W.Erosion prediction in turbomachin-ery resulting from environmental solid particles[J].Journal of Aircraft, 1975, 12(5)：471-478.
[8]	Tabakoff W.Protection of coated superalloys from erosion in turbomachinery and other systems exposed to particulate flows[J].Wear, 1999, 233-235：200-208.
[9]	Tabakoff W.Study of particle rebound characteristics and material erosion at high temperature[M].Cincinnati：University of Cincinnati College of Engineering, 1992：17-28.
[10]	王顺森, 刘观伟, 毛靖儒, 等.汽轮机喷嘴固粒冲蚀模化试验系统及测试方法[J].中国电机工程学报, 2007, 27(11)：103-108. Wang Shunsen, Liu Guanwei, Mao Jingru, et al.Modeling experimental system for solid particle erosion on the steam turbine nozzle blades and measuring methods[J].Proceedings of the CSEE, 2007, 27(11)：103-108(in Chinese).
[11]	Wang Shunsen, Liu Guanwei, Mao Jingru, et al.Effects of coating thickness, test temperature and coating hardness on the erosion resistance of steam turbine blades[J].Journal of Engineering for Gas Turbines and Power-Transactions of the ASME, 2010, 132(2)：022102.
[12]	蔡柳溪, 王顺森, 毛靖儒, 等.静叶斜置对高参数汽轮机再热后第一级叶栅冲蚀的影响[J].西安交通大学学报, 2012, 46(7)：12-16. Cai Liuxi, Wang Shunsen, Mao Jingru, et al.Influence of oblique stator on erosion characteristics of solid particles in the first reheat stage blades of a supercritical steam turbine[J].Journal of Xi’an Jiaotong University, 2012, 46(7)：12-16(in Chinese).
[13]	Finnie I.The mechanism of erosion of ductile metals.[C]//Proceedings of the Third National Congress on Applied Mechanics.New York：American Society of Mechanical Engineers, 1958.
[14]	Finnie I.Some observations on the erosion of ductile metals[J].Wear , 1972, 19(1)：81-90.
[15]	贺群功.高参数汽轮机喷嘴材料抗固体颗粒冲蚀磨损特性和加速试验研究[D].西安：西安交通大学, 2009. He Qungong.Investigation on the accelerated life test and the erosion resistance of nozzle materials on solid particles in high-parameter steam turbine[D].Xi’an：Xi’an Jiaotong University, 2009(in Chinese).
[16]	Cai Liuxi, Wang Shunsen, Zhang Lei, et al.Influence of oxide particle size on the erosion of the control stage nozzle in a supercritical steam turbine[C]//Proceedings of ASME Turbo Expo 2013, San Antonio, USA, 2013.
[17]	Sumner W J, Vogan J H, Lindinger R J.Reducing solid particle erosion damage in large steam turbine[C]// Proceeding of American Power Conference, Chicago, IL, USA, 1985.
[18]	Tabakoff W.Erosion resistance of superalloys and different coatings exposed to particulate flows at high temperature[J].Surface and Coatings Technology, 1999 (120-121)：542-547.
[19]	Ohnogih O I.The impact angle dependence of erosion damage caused by solid particle impact[J].Wear, 1997(203-204)：573-579.
[20]	Cofer J I.Advances in Steam Path Technology[J].ASME Journal of Engineering for Gas Turbines and Power, 1996, 118(2)：337-352.
[21]	Kawagishi H, Kawassaki S, Ikeda K, et al.Protective design and boride coating against solid particle erosion of first-stage turbine nozzles[C]//ASME Power Div, Boston, MA, USA, 1990(10)：23-29.
[22]	刘志江.超临界机组汽轮机固体颗粒侵蚀的综合研究[J].电力设备, 2004, 5(6)：34-39. Liu Z J.Comprehensive research on the solid particle erosion of supercritical steam turbines[J].Electric Equipment, 2004, 5(4)：34-39(in Chinese).
[23]	Finnie I, McFadden D H.On the velocity dependence of the erosion of ductile metals by solid particles at low angles of incidence[J].Wear, 1978, 48：181-190.
[24]	Levy A V.The platelet mechanism of erosion of ductile metals[J].Wear, 1986, 108：1-21.
[25]	Hutchings I M.Tribology：Friction and Wear of Enginee-ring Materials[M].London：Edward Arnold, 1992：352-368.
[26]	Meng H C, Ludema K C.Wear models and predictive equations：their form and content[J].Wear, 1995, 181-183：443-457.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133