期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

Si和Ti对Nb-6Hf-4Zr-2B合金组织和室温力学性能的影响 被引量:1

Effect of Si and Ti on Microstructures and Mechanical Properties of Nb-6Hf-4Zr-2B Alloy at Room Temperature
原文传递
导出
摘要 为了寻求Nb合金的强度和塑性的平衡,设计了以Nb基固溶体Nbss为主导相的Nb-xSi-6 Hf-4Zr-2B-yTi(x=4,8;y=10,30;原子分数)合金,研究了Si和Ti对合金组织和室温力学性能的影响。结果表明,合金由Nbss、Nb3Si和Nb5Si3等3相组成。4Si-(10,30)Ti合金铸态组织是Nb枝晶和分布在枝晶间的硅化物(Nb3Si和Nb5Si3),8Si-(10,30)Ti合金Nb枝晶间分布的是Nb/硅化物(Nb5Si3)的共晶和Nb3Si,随着Si和Ti含量的增加,硅化物体积分数增加。1 600℃退火50 h可使部分Nb3Si共析分解,改变合金的组织形貌和各相的体积分数。随着Si和Ti含量的增加,合金的硬度和强度增加,但塑性和韧性降低。Nb枝晶的失效方式为解理断裂,而硅化物为脆性断裂。 To strike a balance between strength and plasticity of niobium alloys,Nb-xSi-6Hf-4Zr-2B-yTi(x=4,8;y=10,30;at%) alloys with an Nbss-dominant microstructure are developed,and the effect of Si and Ti additions on microstructures and mechanical properties of this kind of alloy at room temperature is evaluated.It is found that the alloy contains three phases: Nbss,Nb3Si and Nb5Si3.The microstructures of the as-cast 4Si-(10,30)Ti alloys are composed of the dendrite Nbss and silicides(Nb3Si and Nb5Si3);as for the as-cast 8Si-(10,30)Ti alloys,their microstructures are composed of the dendrite Nbss,eutectic(Nbss + Nb5Si3) and silicide Nb3Si.The fraction of silicides goes up with Si and Ti contents increasing.Upon annealed at 1 600 ℃ for 50 h,part of the Nb3Si decomposes into eutectoid and the microstructural morphology and volume fraction of each phase are changed.The hardness and strength enhance with Si and Ti contents increasing,whereas the plasticity and fracture toughness decrease.The fracture mode of the dendrite Nbss is cleavage,while the silicides fracture in a brittle manner.
作者 李国民 刘军 沙江波
机构地区 北京航空航天大学材料科学与工程学院
出处 《航空学报》 EI CAS CSCD 北大核心 2010年第8期1688-1694,共7页 Acta Aeronautica et Astronautica Sinica
基金 国家自然科学基金(50671002) 国家"863"计划(2006AA32516) 新世纪优秀人才支持计划(NCET-06-0173)
关键词 铌合金 相组成 微观组织 材料强度 断裂韧性 niobium alloys phase composition microstructure strength of materials fracture toughness
分类号 V252 [一般工业技术—材料科学与工程] TG132 [一般工业技术—材料科学与工程]
  • 相关文献

参考文献14

  • 1Wojcik C C.High temperature niobium alloys[M].Stephens J J,Ahmad I,edited.Warrendale,PA:The Metallurgical Society of AIME,1991:1-12.
  • 2韩鸿硕.火箭喷管铌合金及其涂层.宇航材料工艺,1978,(5):1-5.
  • 3Perkins R A,Meier G H.Alloy design strategies for promoting protective oxide-scale formation[J].JOM,1990,42(8):17-21.
  • 4Bewlay B P,Lipsitt A,Jackson M R,et al.Solidification processing of high temperature intermetallic eutectic-based alloys[J].Materials Science and Engineering A,1995,192-193:534-543.
  • 5刘东明.Nb-Si-W-X超高温合金组织与力学性能研究[D].北京:北京航空航天大学,2006:2.
  • 6Sha J B,Hirai H,Tabaru T,et al.Toughness and strength characteristics of Nb-W-Si ternary alloys prepared by arc melting[J].Metallurgical and Materials Transactions A,2003,34(1):2861-2867.
  • 7高丽梅,郭喜平.超高温铌硅化物基自生复合材料的成分设计及性能特点[J].材料导报,2005,19(7):72-75. 被引量:10
  • 8Zheng P,Sha J B,Liu D M,et al.Effect of Si content on mechanical properties of Nb-Si based alloys with Nbss/Nb5Si3 structure[J].Transactions of Nonferrous Metals Society of China,2006,16(z3):S2030-S2033.
  • 9Geng J,Tsakiropoulos P,Shao G.The effects of Ti and Mo additions on the microstructure of Nb-silicide based in situ composites[J].Intermetallics,2006,14(3):227-235.
  • 10Vellios N,Tsakiropoulos P.The role of Sn and Ti additions in the microstructure of Nb-18Si base alloys[J].Intermetallics,2007,5(12):1518-1528.

二级参考文献15

  • 1P.Guan,X.P.Guo,X.Ding,J.Zhang,L.M.Gao,K. Kusabiraki.DIRECTIONALLY SOLIDIFIED MICROSTRUCTURE OF AN ULTRA-HIGH TEMPERATURE Nb-Si-Ti-Hf-Cr-Al ALLOY[J].Acta Metallurgica Sinica(English Letters),2004,17(4):450-454. 被引量:15
  • 2Bewlay B P,Jackson M R,Zhao J C,et al.A review of very-high temperature Nb-silicide-based composites[J].Metall Mater Trans A,2003,34A(10):2043-2052.
  • 3Mendiratta M G,Lewandowski J J,Dimiduk D M.Strength and ductile-phase toughening in the 2-phase Nb/Nb5Si3 alloys[J].Metall Mater Trans,1991,22A:1573-1583.
  • 4Bewlay B P,Lewandowksi J J,Jackson M R.Refractory metal-intermetallic in-situ composites for aircraft engines[J].JOM,1997,49(8):44-46,67.
  • 5Sha J B,Hirai H,Tabaru T,et al.Effect of carbon on microstructure and high-temperature strength of Nb-Mo-Ti-Si in situ composites prepared by arc-melting and directional solidification[J].Materials Science and Engineering A,2003,A343:282-289.
  • 6Sha J B,Hirai H,Tabaru T,et al.Mechanical properties of as-cast and directionally solidified Nb-Mo-W-Ti-Si in-situ composites at high temperatures[J].Metall Mater Trans,2003,34A:85-94.
  • 7Sha J B,Hirai H,Tabaru T,et al.Toughness and strength characterics of Nb-W-Si ternary alloys prepared by arc melting[J].Metall Mater Trans,2003,34A:2861-2871.
  • 8Sha J B,Hirai H,Tabaru T,et al.High-temperature strength and room-temperature toughness of Nb-W-Si-B alloys prepared by arc-melting[J].Mater Sci and Eng A,2004,364A(1-2):151-158.
  • 9Kim J H,Tabaru T,Sakamoto M,et al.Mechanical properties and fracture behavior of an NbSS/Nb5Si3 in-situ composite modified by Mo and Hf alloying[J].Mater Sci and Eng A,2004,372A:137-144.
  • 10Chan K S.Alloying effects on fracture mechanisms in Nb-based intermetallic in-situ composites[J].Mater Sci and Eng A,2002,329-331A:513-522.

共引文献18

同被引文献26

  • 1李铁藩.金属高温氧化与热腐蚀[M].北京:化学工业出版社,2003.
  • 2Mastanaiah M, Madhusudhan R G, Satya P K, et al. An investigation on microstructures and mechanical properties of explosive cladded C103 niobium alloy over C263 nimonic alloy[J]. Journal of Materials Processing Technology, 2014, 214(11).. 2316-2324.
  • 3Perepezko J H. The hotter the engine, the better[J]. Sci- ence, 2009, 326(5956) : 1068-1069.
  • 4Ajdelsztajn L, Picas J A, Kim G E, et al. Oxidation be havior of HVOF sprayed nanocrystalline NiCrA1Y powder [J]. Materials Science and Engineering A, 2002, 338(1- 2) : 33-43.
  • 5Li Y, Li C J, Yang G J, et al. Thermal fatigue behaviour of thermal barrier coatings with the MCrA1Y bond coats by cold spraying and low-pressure plasma spraying[J]. Surface and Coatings Technology, 2010, 205(7): 2225- 2233.
  • 6Tian X D, Guo X P. Structure of Al-modified silicide coat- ings on an Nb-based uItrahigh temperature alloy prepared by pack cementation techniques[J]. Surface and Coatings Technology, 2009, 203(9): 1161-1166.
  • 7Zhao J C, Jackson M R, Peiuso L A. Evaluation of phase relations in the Nb-Cr-Al system at 1 000 C using a diffu- sion-multiple approach[J]. Journal of Phase Equilibria and Diffusion, 2004, 25(2): 152-159.
  • 8Hebsur M G, Stephens J R. Niobium-aluminum base aI loys having improved, high temperature oxidation resist anceEP. United States: US4983358, 1991-06-I0.
  • 9Shigeii T, Hideaki T, Toaru M. Influerme of additional elements on the oxidation behavior of Nb-AI-Cr base alloys [J]. Materials Science Forum, 2006, 522-523: 625-632.
  • 10Li S, Song J, Zhou C, et al. Microstructure evolution of NiCoCrAIY overlayer coating for NisA1 based alloy IC6 turbine vane during long term engine test[J]. Intermetal- lies, 2005, 13(3-4): 309-314.

引证文献1

二级引证文献6

航空学报
2010年 第8期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部