合金元素对Fe-Mn-Al-C系轻质钢组织和性能影响的研究现状
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摘要
Fe-Mn-Al-C系轻质钢是一种具有高强度、低密度和良好的强塑性配合的合金材料,在众多领域有着广泛的应用前景。阐述了Al、Mn、C、Si、N、Nb合金元素对Fe-Mn-Al-C系轻质钢的相组成、力学性能和密度变化等的影响,展望了Fe-Mn-Al-C系轻质钢的研究方向。
Fe-Mn-Al-C based lightweight steel is an alloy material with high strength, low density and good strong plasticity,which has wide application prospects in many fields. The effects of Al, Mn, C, Si, N and Nb alloying elements on the the phase composition, mechanical properties and density changes of Fe-Mn-Al-C light steels were described, and then the research direction of Fe-Mn-Al-C light steel was prospected.
Fe-Mn-Al-C based lightweight steel is an alloy material with high strength, low density and good strong plasticity,which has wide application prospects in many fields. The effects of Al, Mn, C, Si, N and Nb alloying elements on the the phase composition, mechanical properties and density changes of Fe-Mn-Al-C light steels were described, and then the research direction of Fe-Mn-Al-C light steel was prospected.
引文
[1]Acselrad O,Simao R A,Pereira L C,et al.Phase transformations in Fe-Mn-Al-C austenitic steels with Si addition[J].Metallurgical and Materials Transactions A,2002,33(11):3569-3573.
[2]Aidin I,Abbas Z H,Saeed H M,et al.Effects of ferritevolume fraction on the tensile deformation characteristics of dualphase twinning induced plasticity steel[J].Materials&Design,2014,53(1):99-105.
[3]胡钱钱,夏培康,余鹏飞,等.冷却速率对轻质Fe-Mn-Al钢组织及力学性能的影响[J].上海金属,2017,39(3):24-30.
[4]Ha M C,Koo J,Lee J,et al.Tensile deformation of a low density Fe-27Mn-12Al-0.8C duplex steel in association with ordered phases at ambient temperature[J].Materials Science and Engineering A,2013,586:276-283.
[5]李昊泽.高铝高锰钢的组织及力学性能研究[J].沈阳:东北大学,2012.
[6]冯浩,乔军,韩鹏,等.Al含量对高锰轻质钢组织和力学性能的影响[J].金属热处理,201,41(11):62-66.
[7]Sohn S S,Lee B J,Lee S,et al.Effect of annealing temperature on microstructural modification and tensile properties in 0.35C-3.5Mn-5.8Al lightweight steel[J].Acta Materialia,2013,61(13):5050-5066.
[8]杨富强,宋仁伯,孙挺,等.Fe-Mn-Al轻质高强钢组织和力学性能[J].研究金属学报,2014,50(8):897-904.
[9]Yoo J D,Park K.Microband-induced plasticity in a high Mn-Al-C light steel[J].Materials Science and Engineering A,2008,496(1/2):417-424.
[10]Lee S W,De B C.Annealing temperature dependence of the tensile behavior of 10 pct Mn multi-phase TWIP-TRIP steel[J].Metallurgical and Materials Transactions A,2014,45(13):6039-6052.
[11]董超,许礽翀,钱灵锋,等.退火温度对铁素体基轻质钢组织与力学性能的影响[J].上海金属,2017,39(4):5-9.
[12]Park S J,Heo Y U,Choi Y H,et al.Effect of second phaseon the deformation and fracture behavior of multiphase Low-density Steels[J].JOM,2014,66(9):1837-1844.
[13]Hwang S W,Ji J H,Lee E G,et al.Tensile deformation of a duplex Fe-20Mn-9Al-0.6C steel having the reduced specific weight[J].Materials Science and Engineering A,2011,528(15):5196-5203.
[14]Seo C H,Kwon K H,Choi K,et al.Deformation behavior of ferrite-austenite duplex lightweight Fe-Mn-Al-C steel[J].Scripta Materialia.2012,66(8):519-522.
[15]赵超,宋仁伯,张磊峰,等.一种Fe-Mn-Al-C低密度高强钢的组织性能研究[C]//第十届中国钢铁年会,中国上海,2015.
[16]Ishida K,Ohtanl H,Satoh N,et al.Nishizawa,Phase equilibra in Fe-Mn-Al-C alloys[J].ISIJ Int,1990,30(8):680-685.
[17]张彦生,师昌绪.铁-锰、铝系奥氏体钢-耐热钢、无磁钢和低温钢[J].金属学报,1964(3):285-300.
[18]兰鹏,杜辰伟,纪元,等.汽车用高锰钢的研究现状[J].中国冶金,2014,24(7):6-16.
[19]Chih Yeh C,Ching Hua L.Effects of Mnic Contents on the Microstructure and mechanal properties of the Fe-10Al-x Mn-1.0CAlloy[J].Materials Transactions,2002,43(10):2462-2635.
[20]李俊阳,姚亮,焦思远,等.Mn含量对轻质Fe-10Al-0.8C-10/15Mn钢组织与力学性能的影响[J].上海金属,2017,39(4):19-24.
[21]Kim H,Suh D W,Kim N J.Fe-Al-Mn-C lightweight structural alloys:a review on the microstructures and mechanical properties[J].Science and Technology of Advanced Materials,2013,14(1):014205.
[22]Frommeyer G,Brüx U.Microstructure and mechanical properties of high-strength Fe-Mn-Al-C light-weight TRIPLEXsteel[J].Steel Research Int,2006,77(9/10):627-631.
[23]Kalashnikov I,Acselrad O,Pereira L.Chemical composition optimization for austenitic steels of the Fe-Mn-Al-C system[J].Journal of Materials Engineering and Performance,2000,9(6):597.
[24]刘华多,刘喆.高锰钢的化学成分对组织和性能的影响分析[J].科协论坛,2010(10):101.
[25]Bhattacharya B,Sharma A S,Hazra S S,et al.A study of microstructures and tensile properties of two Fe-Mn-Al-Si-CAlloy[J].Materials Transactions A,2009,40(5):1190-1202.
[26]Acselrad O,Simao R A,Pereira L C,et al.Phase transformations in Fe Mn Al C austenitic steels with Si addition[J].Metallurgical and Materials Transactions A,2002,33(11):3569-3573.
[27]Li D,Feng Y,Song S,et al.Influences of silicon on the work hardening behavior and hot deformation behavior of Fe-25wt%Mn-(Si,Al)TWIP steel[J].Journal of Alloys and Compounds,2015,61(8):768-775.
[28]余鹏飞,胡钱钱,夏培康,等.Fe-15Mn-0.8C-Al-Si热轧轻质高强钢的组织与性能[J].上海金属,2017,39(1):33-37.
[29]张宇光,赵爱民,赵征志,等.TRIP钢中合金元素对铁素体显微硬度的影响[J].铸造技术,2010(4):430-432.
[30]Cheng W,Jaw J,Wang C.A study of aluminum nitride in a Fe-Mn-AI-C alloy[J].Scripta Materialia,2004,51(4):279-283.
[31]Ding H,Li H.Partial inverse grain size dependence of strength in high Mn steels microalloyed with Nb[J].Journal of Iron and Steel Research.International,2012,19(9):68-72.
[2]Aidin I,Abbas Z H,Saeed H M,et al.Effects of ferritevolume fraction on the tensile deformation characteristics of dualphase twinning induced plasticity steel[J].Materials&Design,2014,53(1):99-105.
[3]胡钱钱,夏培康,余鹏飞,等.冷却速率对轻质Fe-Mn-Al钢组织及力学性能的影响[J].上海金属,2017,39(3):24-30.
[4]Ha M C,Koo J,Lee J,et al.Tensile deformation of a low density Fe-27Mn-12Al-0.8C duplex steel in association with ordered phases at ambient temperature[J].Materials Science and Engineering A,2013,586:276-283.
[5]李昊泽.高铝高锰钢的组织及力学性能研究[J].沈阳:东北大学,2012.
[6]冯浩,乔军,韩鹏,等.Al含量对高锰轻质钢组织和力学性能的影响[J].金属热处理,201,41(11):62-66.
[7]Sohn S S,Lee B J,Lee S,et al.Effect of annealing temperature on microstructural modification and tensile properties in 0.35C-3.5Mn-5.8Al lightweight steel[J].Acta Materialia,2013,61(13):5050-5066.
[8]杨富强,宋仁伯,孙挺,等.Fe-Mn-Al轻质高强钢组织和力学性能[J].研究金属学报,2014,50(8):897-904.
[9]Yoo J D,Park K.Microband-induced plasticity in a high Mn-Al-C light steel[J].Materials Science and Engineering A,2008,496(1/2):417-424.
[10]Lee S W,De B C.Annealing temperature dependence of the tensile behavior of 10 pct Mn multi-phase TWIP-TRIP steel[J].Metallurgical and Materials Transactions A,2014,45(13):6039-6052.
[11]董超,许礽翀,钱灵锋,等.退火温度对铁素体基轻质钢组织与力学性能的影响[J].上海金属,2017,39(4):5-9.
[12]Park S J,Heo Y U,Choi Y H,et al.Effect of second phaseon the deformation and fracture behavior of multiphase Low-density Steels[J].JOM,2014,66(9):1837-1844.
[13]Hwang S W,Ji J H,Lee E G,et al.Tensile deformation of a duplex Fe-20Mn-9Al-0.6C steel having the reduced specific weight[J].Materials Science and Engineering A,2011,528(15):5196-5203.
[14]Seo C H,Kwon K H,Choi K,et al.Deformation behavior of ferrite-austenite duplex lightweight Fe-Mn-Al-C steel[J].Scripta Materialia.2012,66(8):519-522.
[15]赵超,宋仁伯,张磊峰,等.一种Fe-Mn-Al-C低密度高强钢的组织性能研究[C]//第十届中国钢铁年会,中国上海,2015.
[16]Ishida K,Ohtanl H,Satoh N,et al.Nishizawa,Phase equilibra in Fe-Mn-Al-C alloys[J].ISIJ Int,1990,30(8):680-685.
[17]张彦生,师昌绪.铁-锰、铝系奥氏体钢-耐热钢、无磁钢和低温钢[J].金属学报,1964(3):285-300.
[18]兰鹏,杜辰伟,纪元,等.汽车用高锰钢的研究现状[J].中国冶金,2014,24(7):6-16.
[19]Chih Yeh C,Ching Hua L.Effects of Mnic Contents on the Microstructure and mechanal properties of the Fe-10Al-x Mn-1.0CAlloy[J].Materials Transactions,2002,43(10):2462-2635.
[20]李俊阳,姚亮,焦思远,等.Mn含量对轻质Fe-10Al-0.8C-10/15Mn钢组织与力学性能的影响[J].上海金属,2017,39(4):19-24.
[21]Kim H,Suh D W,Kim N J.Fe-Al-Mn-C lightweight structural alloys:a review on the microstructures and mechanical properties[J].Science and Technology of Advanced Materials,2013,14(1):014205.
[22]Frommeyer G,Brüx U.Microstructure and mechanical properties of high-strength Fe-Mn-Al-C light-weight TRIPLEXsteel[J].Steel Research Int,2006,77(9/10):627-631.
[23]Kalashnikov I,Acselrad O,Pereira L.Chemical composition optimization for austenitic steels of the Fe-Mn-Al-C system[J].Journal of Materials Engineering and Performance,2000,9(6):597.
[24]刘华多,刘喆.高锰钢的化学成分对组织和性能的影响分析[J].科协论坛,2010(10):101.
[25]Bhattacharya B,Sharma A S,Hazra S S,et al.A study of microstructures and tensile properties of two Fe-Mn-Al-Si-CAlloy[J].Materials Transactions A,2009,40(5):1190-1202.
[26]Acselrad O,Simao R A,Pereira L C,et al.Phase transformations in Fe Mn Al C austenitic steels with Si addition[J].Metallurgical and Materials Transactions A,2002,33(11):3569-3573.
[27]Li D,Feng Y,Song S,et al.Influences of silicon on the work hardening behavior and hot deformation behavior of Fe-25wt%Mn-(Si,Al)TWIP steel[J].Journal of Alloys and Compounds,2015,61(8):768-775.
[28]余鹏飞,胡钱钱,夏培康,等.Fe-15Mn-0.8C-Al-Si热轧轻质高强钢的组织与性能[J].上海金属,2017,39(1):33-37.
[29]张宇光,赵爱民,赵征志,等.TRIP钢中合金元素对铁素体显微硬度的影响[J].铸造技术,2010(4):430-432.
[30]Cheng W,Jaw J,Wang C.A study of aluminum nitride in a Fe-Mn-AI-C alloy[J].Scripta Materialia,2004,51(4):279-283.
[31]Ding H,Li H.Partial inverse grain size dependence of strength in high Mn steels microalloyed with Nb[J].Journal of Iron and Steel Research.International,2012,19(9):68-72.