Effect of Co Content on Microstructure and Mechanical Properties of CB2 Steel

doi:10.12068/j.issn.1005-3026.2018.11.016

Abstract

Abstract: In order to study the effect of Co content on microstructure and mechanical properties of the CB2 steel， the contents of Co in CB2 steel were adjusted to 0.5%， 1%， 1.5%， 2% and 3%， respectively. Using optical microscope (OM)， scanning electron microscopy (SEM)， and tensile test at room temperature， the effect of different Co content on the microstructure and mechanical properties was studied， associated with the Thermo-Calc and JMatpro-7.0 simulations. It is found that when the content of Co in the steel increases， the chromium equivalent value increases and the δ-ferrite content decreases. Especially， when the content of Co is 1.5%， the δ-ferrite is appears. Meanwhile， with the increase of Co content， the tensile strength of the steel increases， while the elongation increases firstly and then decreases. The results indicate that the steel with the Co content of 1.5%has a good comprehensive property， where the ultimate tensile strength reaches 805.13MPa， and the elongation is 20.4% and Brinell hardness is 260， respectively.

Key words: CB2 steel, Co content, microstructure, mechanical properties, comprehensive properties

CLC Number:

TG142.73

MA Yu-lin， ZHANG Li-ping， LIU Yue， LIU Xing-gang. Effect of Co Content on Microstructure and Mechanical Properties of CB2 Steel[J]. Journal of Northeastern University Natural Science, 2018, 39(11): 1598-1603.

References

[1]田宇，彭建强，魏双胜，等.我国超超临界汽轮机用高温铸件材料发展趋势［J］.大型铸锻件，2016(1):1-5.(Tian Yu，Peng Jian-qiang，Wei Shuang-sheng，et al.Development trend of high temperature casting material of ultra supercritical steam turbine ［J］.Large Castings and Forgings，2016(1):1-5.)
[2]Staubli M，Hanus R，Weber T，et al.The European efforts in development of new high temperature casing materials—COST536 ［C］// Proceedings of the 8th Liège Conference Part II.Liège，2006:855-870.
[3]Mikmeková ，Kasl J，Jandová D，et al.A new approach to studying cast CB2 steel using slow and very slow electrons ［J］.TranferInovacíí，2012，22:161-165.
[4]Kern T U，Mayer K H，Donth B，et al.The european efforts in development of new high temperature rotor materials—COST536 ［C］// 9th Liége Conference.Liége，2010:27-29.
[5]Yin Y F，Faulkner R G.Modelling the effects of alloying elements on precipitation in ferriticsteels［J］.Materials Science and Engineering:A，2003，344(1/2):92-102.
[6]Fedoseeva A，Dudova N，Kaibyshev R.Creep strength breakdown and microstructure evolution in a 3% Co modified P92 steel ［J］.Materials Science and Engineering:A，2016，654:1-12.
[7]Fedoseeva A，Dudova N，Kaibyshev R.Creep behavior and microstructure of a 9Cr-3Co-3W martensitic steel ［J］.Journal of Materials Science，2017，52(5):2974-2988.
[8]Wang S S，Chang L，Wang L，et al.Microstructural stability and short-term creep properties of 12Cr-W-Mo-Co steel ［J］.Materials Science and Engineering:A，2015，622:204-211.
[9]Yamada K，Igarashi M，Muneki S，et al.Effect of Co addition on microstructure in high Cr ferriticsteels ［J］.ISIJ International，2003，43(9):1438-1443.
[10]Kipelova A，Odnobokova M，Belyakov A，et al.Effect of Co on creep behavior of a P911 steel ［J］.Metallurgical and Materials Transactions A，2013，44(1):577-583.
[11]郭存宝，龙思远，廖慧敏.高铬高钴耐热钢的研究［J］.材料导报:纳米与新材料专辑，2008(1):423-425.(Guo Cun-bao，Long Si-yuan，Liao Hui-min.Study on high chromium and high cobalt heat-resistant steel ［J］.Materials Herald:New Materials and Nano Materials，2008(1):423-425.)
[12]Toda Y，Seki K，Kimura K，et al.Effects of W and Co on long-term creep strength of precipitation strengthened 15Cr ferritic heat resistant steels ［J］.ISIJ International， 2003，43(1):112-118.
[13]Knezevic V，Sauthoff G，Vilk J，et al.Martensitic/ferritic super heat-resistant 650 DEG C steels design and testing of model alloys ［J］.ISIJ International，2002，42(12):1505-1514.
[14]Helis L，Toda Y，Hara T，et al.Effect of cobalt on the microstructure of tempered martensitic 9Cr steel for ultra-supercritical power plants ［J］.Materials Science and Engineering:A， 2009，510/511:88-94.
[15]刘树勋，李培杰，曾大本，等.析出硬化型热强钢中合金元素的作用机制［J］.钢铁研究学报，2004，16(1):44-48.(Liu Shu-xun，Li Pei-jie，Zeng Da-ben，et al.Mechanism of alloying elements in precipitation hardened hot steel ［J］.Journal of Iron and Steel Research，2004，16(1):44-48.)
[16]Speich G R，Dabkowski D S，Porter L F.Strength and toughness of Fe-10Ni alloys containing C，Cr，Mo，and Co ［J］.Metallurgical Transactions，1973，4(1):303-315.
[17]Maruyama K，Sawada K，Koike J.Strengthening mechanisms of creep resistant tempered martensitic steel ［J］.ISIJ International，2001，41(6):641-653.