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钴对AlFeCuCrNi高熵合金组织和性能的影响 被引量:1

Effect of Element Cobalt on Microstructure and Properties of AlFeCuCrNi High Entropy Alloys
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摘要 采用真空电弧熔炼技术制备了AlFeCuCrNiCox(x=0,0.5,1.0)合金体系,通过光学显微镜、扫描电镜、电子探针、X射线衍射仪以及透射电镜研究了在AlFeCuCrNi合金中加入钴元素后显微组织及结构的变化,并对合金系的显微硬度、热稳定性及耐腐蚀性进行了研究。结果表明:AlFeCuCrNiCox(x=0,0.5,1.0)合金的显微组织均为树枝晶;合金的物相组成均为简单的体心立方和面心立方的混合结构,钴元素的加入会使合金中体心立方和面心立方的晶格常数均有所减小;所有合金均存在成分偏析现象,钴元素的加入加剧了合金中铜元素的偏析,但促进了其他元素的均匀化;钴元素的加入使合金显微硬度提高,耐腐蚀性增加;所有合金均具有较好的热稳定性。 AlFeCuCrNiCox(x=0, 0.5, 1.0) high entropy alloys were prepared by vacuum arc furnace. The microstructure and phase structure change of AlFeCuCrNi alloys after addition of element cobalt were investigated by OM, SEM, EMP, XRD and TEM. And hardness, thermal stability and corrosion resistance of these alloys were also studied. The results show the microstructure of AIFeCuCrNiCox alloys was typically dendritic structure,the phases of these alloys consisted of simple face-centered cubic (FCC) and body-centered cubic (BCC), and adding of element cobalt reduced the lattice constants both of FCC and BCC. Compositions segregation existed in all alloys. and addition of element cobalt promoted segregation of element copper and homogenization of all the other elements. The hardness and corrosion resistance of the alloys were increased after addition of element cobalt and all alloys possessed good thermal stability.
作者 朱海云 孙宏飞 高绪
机构地区 青岛飞洋职业技术学院 山东科技大学材料学院 福田雷沃国际重工股份有限公司
出处 《理化检验(物理分册)》 CAS 2013年第2期84-90,共7页 Physical Testing and Chemical Analysis(Part A:Physical Testing)
关键词 钴元素 AlFeCuCrNi高熵合金 显微组织 硬度 热稳定性 耐腐蚀性 element cobalt A1FeCuCrNi high entropy alloy microstructure hardness thermal stability corrosion resistance
分类号 TG146.4 [金属学及工艺—金属材料]
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参考文献6

  • 1叶均蔚.陈瑞凯,刘树均.高熵合金的发展概况[J].工业材料杂志,2005.224:71-79.
  • 2李志伟.张育铨.郭裕竹,等.固体渗铝高熵合金之氧化性研究[J].防蚀工程.2008,22(1) :41-50.
  • 3杜经邦,杨志超.叶均蔚.块状多元高功能合金之特性[J],工业材料杂志.2005 . 224 : 80-86.
  • 4刘源,李言祥,陈祥,陈敏.多主元高熵合金研究进展[J].材料导报,2006,20(4):4-6. 被引量:84
  • 5郭卫凡.多主元高熵合金的研究进展[J].金属功能材料,2009,16(1):49-53. 被引量:25
  • 6陈梦商.金属材料研究方法[M].北京:冶金工业出版社.1982.

二级参考文献30

  • 1杜经邦 杨智超 叶均蔚.块状多元高功能合金之特性.工业材料杂志,2005,224:80-80.
  • 2Hsu C Y, Yeh J W, et al. Wear resistance and high-temperature compression strength of FCC CuCoNiCrA10.5 Fe alloy with boron addition[J]. Metall Mater Trans A, 2004, 35A : 1465.
  • 3Yeh J W, Chen S K, et al. Formation of sirfiple crystal struc-tures in solid-solution alloys with multi-principal metallic elements[J]. MctallMaterTrans, A,2004, 35A :2533.
  • 4Wu Jien-Min, Lin Su-Jien, et al. Adhesive wear behavior of AlxCoCrCuFeNi high-entropy alloys as a function of aluminum content[J]. Wear, 2006, 261(5-6): 513.
  • 5Chen Y Y, Duval T, et al. Mierostructure and electrochemical properties of high entropy alloys-a comparison with type- 304 stainless steel[J]. Corrosion Science, 2005, 47(9): 2257.
  • 6Varalakshmi S, Kamaraj M, Murty B S. Synthesis and characterization of nanocrystalline AlFeTiCrZnCu high entropy solid solution by mechanical alloying[J]. Alloys and Comps,2007(in press) doi: 10. 1016/j. jallcom. 2007.05. 104
  • 7Zhou Y J,Zhang Y, et al. Microstructure and compressive properties of muhieomponent Alx(TiVCrMnFeCoNiCu)100-x high- entropy alloys[J]. Materials Science and Engineering A, 2007, 454-455: 260.
  • 8Yeh Jien-Wei, Chang Shou-Yi, et al. Anomalous decrease in X-ray diffraction intensities of Cu-Ni-Al-Co-Cr-Fe-Si alloy systems with multi-principal elements[J]. Materials Chemistry and Physics, 2007,103(1): 41.
  • 9Chen T K,Shun T T, et al. Nanostructured nitride films of multi-element high-entropy alloys by reactive DC sputtering [J]. Surface and Coatings Technology, 2004,188-189 : 193.
  • 10Zhou Y J, Zhang Y, et al. Mierostructure and compressive properties of multicomponent Alx (TiVCrMnFeCoNiCu) 100-x high-entropy alloys[J]. Materials Science and Engineering A, 2007,454-455: 260.

共引文献104

同被引文献15

  • 1YEH J W,CHEN S K, LIN S J, et al. Nanostructured high-entropy alloys with multiple principal elements: Novel alloy design concepts and outcomes[J]. Ad- vanced Engineering Materials,2004,6(5) .- 299-303.
  • 2LI C, LI J C, ZHAO M, et al. Effect of alloying ele-ments on microstructure and properties of multiprinci- pal elements high-entropy alloys[J]. Journal of Alloys g Compounds,2009,475(S1-2) : 752-757.
  • 3ZHOU Y J,ZHANG Y,WANG Y L,et al. Micro- structure and compressive properties of multicom- ponent A1 x (TiVCrMnFeCoNiCu) 100-x high-en- tropy alloys[J]. Materials Science Engineering A,2006,454-455 .. 260-265.
  • 4WANG Y P,LI B S, REN M X, et al. Microstruc- ture and compressive properties of A1CrFeCoNi high entropy alloy[J]. Materials Science ga Engi- neering A,2008,49I($1-2) .. 154-158.
  • 5DONG Y, LU Y, KONG J, et al. Microstructure and mechanical properties of multi-component A1- CrFeNiMox high-entropy alloys[J]. Journal of Al- loys g Compounds,2013,573(lO) 96-101.
  • 6VARALAKSHMI S, KAMARAJ M, MURTY B S. Synthesis and characterization of nanocrystalline A1FeTiCrZnCu high entropy solid solution by me- chanical alloying [J]. Journal of Alloys Com- pounds, 2008,460($1-2) : 253-257.
  • 7CANTOR B, CHANG I T H,KNIGHT P,et al. Microstructural development inequiatomic multi- component alloys [J]. Materials Science ga Engi- neering A,2004,375-377(21) : 213-218.
  • 8YANG Rong, ZHANG Taihua, FENG Yihui. Theo- retical analysis of the relationships between hard- ness,elastic modulus, and the work of indentation for work-hardening materials[J]. Journal of Materi- als Research,2010,25(11) : 2072-2077.
  • 9SUN Yuan, ZHAO Guangfeng, YANG Fuqian. Effect of electric current on nanoindentation of su- perelastic NiTi alloy[J]. Experimental Mechanics, 2015,55(8) : 1530-1590.
  • 10SUN Yuan, ZHAO Guangfeng, YANG Fuqian. Ani- sotropic behavior of the nanoindentation of single carbon fibers[J]. Nanoscience and Nanotechnology Letters,2014,6(7) : 596-600.

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理化检验(物理分册)
2013年 第2期

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