Research Progress on Ni-Mn-In Based Magnetic Refrigeration Alloys
摘 要
基于磁热效应的新型固体磁制冷技术因具有节能高效、稳定可靠的优点而备受关注,该技术利用磁性材料在磁相变过程中与外界环境之间的热交换作用而产生制冷效果。Ni-Mn-In基磁制冷合金在磁场诱导下可以产生逆磁热效应,具有较大的磁熵变。介绍了Ni-Mn-In基磁制冷合金的晶体结构和相变行为,重点综述了晶粒尺寸、化学成分、热处理工艺等因素对Ni-Mn-In基磁制冷合金磁热效应的影响,以及通过微合金化提高合金力学性能的研究进展。对未来该系列合金的研究方向进行了展望。
Abstract
New solid-state magnetic refrigeration technology based on magnetocaloric effects has attracted much attention due to its advantages of energy saving, high efficiency, and stability and reliability. This technology utilizes heat exchange between magnetic materials and external environments during magnetic phase transition to produce refrigeration effects. Ni-Mn-In based magnetic refrigeration alloys can produce an inverse magnetocaloric effect under a magnetic field and have a large magnetic entropy change. The crystal structure and phase transformation behavior of Ni-Mn-In based magnetic refrigeration alloys are described. Research progress on the influence of grain size, chemical composition and heat treatment process on the magnetocaloric effect of Ni-Mn-In based magnetic refrigeration alloys, as well as on improving mechanical properties of the alloys by microalloying is emphatically reviewed. The future research direction of this series of alloys is also prospected.
中图分类号 TG111 TG115 DOI 10.11973/jxgccl202305001
所属栏目 综述
基金项目 国家青年科学基金资助项目(51401122)
收稿日期 2021/11/6
修改稿日期 2022/10/20
网络出版日期
作者单位点击查看
备注刘紫莉(1998-),女,河南驻马店人,硕士研究生
引用该论文: LIU Zili,GAO Li,LIAO Huayu,HU Shaohui. Research Progress on Ni-Mn-In Based Magnetic Refrigeration Alloys[J]. Materials for mechancial engineering, 2023, 47(5): 1~7
刘紫莉,高丽,廖华玉,胡少辉. Ni-Mn-In基磁制冷合金的研究进展[J]. 机械工程材料, 2023, 47(5): 1~7
共有人对该论文发表了看法,其中:
人认为该论文很差
人认为该论文较差
人认为该论文一般
人认为该论文较好
人认为该论文很好
参考文献
【1】TISHIN A M.Magnetocaloric effect in the vicinity of magnetic phase transition[J].Journal of Magnetism and Magnetic Materials,1998,184(1):62-66.
【2】沈俊,莫兆军,李振兴,等.磁制冷材料与技术的研究进展[J].中国科学:物理学力学天文学,2021,51(6):3-17. SHEN J,MO Z J,LI Z X,et al.Development of magnetic refrigeration materials and technology[J].Scientia Sinica:Physica,Mechanica & Astronomica,2021,51(6):3-17.
【3】郑新奇,沈俊,胡凤霞,等.磁热效应材料的研究进展[J].物理学报,2016,65(21):217502. ZHENG X Q,SHEN J,HU F X,et al.Research progress in magneto caloric effect materials[J].Acta Physica Sinica,2016,65(21):217502.
【4】ALGETHAMI OBAIDALLAH A,李歌天,张强强,等.热处理冷却速率与Cr掺杂对Heusler合金Mn50-xCrxNi40In10相变、磁性以及磁热效应的影响[J].功能材料,2020,51(7):7130-7135. ALGETHAMI O A,LI G T,ZHANG Q Q,et al.Influence of cooling rate of heat treatment and Cr doping on the phase transformation,magnetic property and magnetocaloric effect of Mn50-xCrxNi40In10 Heusler alloys[J].Journal of Functional Materials,2020,51(7):7130-7135.
【5】聂志华,王沿东,刘冬梅.磁驱动相变材料研究进展[J].中国材料进展,2012,31(3):15-25. NIE Z H,WANG Y D,LIU D M.Progress of magnetic field-driven phase transformation materials[J].Materials China,2012,31(3):15-25.
【6】KAVITA S,RAMAKRISHNA V V,BEHARA S,et al.Investigation of magnetocaloric and mechanical properties of Ni49-xMn39Sb12Cox alloys[J].Journal of Alloys and Compounds,2020,847:156558.
【7】从道永,王沿东.Heusler型磁相变合金先进原位表征与功能设计[J].中国科学:物理学力学天文学,2021,51(6):53-63. CONG D Y,WANG Y D.Heusler-type magnetic phase-transition alloys:Advanced in situ characterization and high-performance design[J].Scientia Sinica:Physica,Mechanica & Astronomica,2021,51(6):53-63.
【8】WEDERNI A,IPATOV M,PINEDA E,et al.Magnetic properties,martensitic and magnetostructural transformations of ferromagnetic Ni-Mn-Sn-Cu shape memory alloys[J].Applied Physics A,2020,126(5):320.
【9】LI Z B,LI Z Z,YANG J J,et al.Large room temperature adiabatic temperature variation in a Ni40Co8Mn42Sn10 polycrystalline alloy[J].Intermetallics,2018,100:57-62.
【10】PUGLIELLI F,MUSSI V,CUGINI F,et al.Scale-up of magnetocaloric NiCoMnIn Heuslers by powder metallurgy for room temperature magnetic refrigeration[J].Frontiers in Energy Research,2020,7:150.
【11】SONG Y T,CHEN X,DABADE V,et al.Enhanced reversibility and unusual microstructure of a phase-transforming material[J].Nature,2013,502(7469):85-88.
【12】李贝.磁驱动形状记忆合金NiMnIn(Co)马氏体转变与磁性能的研究[D].天津:河北工业大学,2009. LI B.Martensitic and magnetic transformation behaviors in NiMnIn(Co) metamagnetic shape memory alloys[D].Tianjin:Hebei University of Technology,2009.
【13】SUTOU Y,IMANO Y,KOEDA N,et al.Magnetic and martensitic transformations of NiMnX (X=In,Sn,Sb) ferromagnetic shape memory alloys[J].Applied Physics Letters,2004,85(19):4358.
【14】KRENKE T,ACET M,WASSERMANN E F,et al.Ferromagnetism in the austenitic and martensitic states of Ni-Mn-In alloys[J].Physical Review B,2006,73(17):174413.
【15】闫海乐.NiMnIn基合金晶体结构、微观组织和马氏体相变晶体学研究[D].沈阳:东北大学,2017. YAN H L.Crystal structure,microstructure, martensitic transformation crystallography of NiMnIn based alloys[D].Shenyang:Northeastern University,2017.
【16】ITO W,IMANO Y,KAINUMA R,et al.Martensitic and magnetic transformation behaviors in Heusler-type NiMnIn and NiCoMnIn metamagnetic shape memory alloys[J].Metallurgical and Materials Transactions A,2007,38(4):759-766.
【17】YAN H L,ZHANG Y D,XU N,et al.Crystal structure determination of incommensurate modulated martensite in Ni-Mn-In Heusler alloys[J].Acta Materialia,2015,88:375-388.
【18】LAW J Y,DÍAZ-GARCÍA Á,MORENO-RAMÍREZ L M,et al.How concurrent thermomagnetic transitions can affect magnetocaloric effect:The Ni49+xMn36-xIn15 Heusler alloy case[J].Acta Materialia,2019,166:459-465.
【19】DÍAZ-GARCÍA Á,LAW J Y,MORENO-RAMÍREZ L M,et al.Deconvolution of overlapping first and second order phase transitions in a NiMnIn Heusler alloy using the scaling laws of the magnetocaloric effect[J].Journal of Alloys and Compounds,2021,871:159621.
【20】丰焱.Ni-Mn-In基合金的马氏体相变与结构和性能[D].哈尔滨:哈尔滨工业大学,2009. FENG Y.Martensitc transformation behavior and structure and properties of Ni-Mn-In based alloys[D].Harbin:Harbin Institute of Technology,2009.
【21】廖志钦.Ni-Mn-In哈斯勒合金的相变及其磁性能研究[D].南京:南京理工大学,2013. LIAO Z Q.Martensitic transformation and magnetic properties of Ni-Mn-In Heusler alloy[D].Nanjing:Nanjing University of Science and Technology,2013.
【22】GOTTSCHALL T,SKOKOV K P,FRINCU B,et al.Large reversible magnetocaloric effect in Ni-Mn-In-Co[J].Applied Physics Letters,2015,106(2):021901.
【23】KAINUMA R,IMANO Y,ITO W,et al.Magnetic-field-induced shape recovery by reverse phase transformation[J].Nature,2006,439(7079):957-960.
【24】程辉.脉冲强磁场下NiMn基哈斯勒合金的场驱动相变与磁热效应研究[D].武汉:华中科技大学,2018. CHENG H.Field-induced phase transition and magnetocaloric effects of NiMn based Heusler alloy under pulsed high magnetic field[D].Wuhan:Huazhong University of Science and Technology,2018.
【25】LIU J,GOTTSCHALL T,SKOKOV K P,et al.Giant magnetocaloric effect driven by structural transitions[J].Nature Materials,2012,11(7):620-626.
【26】许贤福.NiCoMnIn磁制冷合金的相变和磁性能研究[D].哈尔滨:哈尔滨工程大学,2020. XU X F.Study on phase transformation and magnetic properties of NiCoMnIn magnetic refrigeration alloys[D].Harbin:Harbin Engineering University,2020.
【27】AKKERA H S,SINGH I,KAUR D.Martensitic phase transformation of magnetron sputtered nanostructured Ni-Mn-In ferromagnetic shape memory alloy thin films[J].Journal of Alloys and Compounds,2015,642:53-62.
【28】SÁNCHEZ LLAMAZARES J L,GARCÍA C,HERNANDO B,et al.Magnetocaloric properties of as-quenched Ni50.4Mn34.9In14.7 ferromagnetic shape memory alloy ribbons[J].Applied Physics A,2011,103(4):1125-1130.
【29】AGUILAR-ORTIZ C O,CAMARILLO-GARCÍA J P,VERGARA J,et al.Effect of solidification rate on martensitic transformation behavior and adiabatic magnetocaloric effect of Ni50Mn35In15 ribbons[J].Journal of Alloys and Compounds,2018,748:464-472.
【30】PAVLUKHINA O,SOKOLOVSKIY V,BUCHELNIKOV V.Modeling of heat transfer processes in Ni2MnIn magnetic wires[J].Physica Status Solidi (a),2016,213(2):390-398.
【31】MIYAMOTO T,ITO W,UMETSU R Y,et al.Phase stability and magnetic properties of Ni50Mn50-xInx Heusler-type alloys[J].Scripta Materialia,2010,62(3):151-154.
【32】ROSA W O,GONZÁLEZ L,GARCÍA J,et al.Tailoring of magnetocaloric effect in Ni45.5Mn43.0In11.5 metamagnetic shape memory alloy[J].Physics Research International,2012,2012:1-5.
【33】PATHAK A K,KHAN M,DUBENKO I,et al.Large magnetic entropy change in Ni50Mn50-xInx Heusler alloys[J].Applied Physics Letters,2007,90(26):262504.
【34】DEVI P,MEJÍA C S,ZAVAREH M G,et al.Improved magnetostructural and magnetocaloric reversibility in magnetic Ni-Mn-In shape-memory Heusler alloy by optimizing the geometric compatibility condition[J].Physical Review Materials,2019,3(6):062401.
【35】HUANG L,CONG D Y,MA L,et al.Large reversible magnetocaloric effect in a Ni-Co-Mn-In magnetic shape memory alloy[J].Applied Physics Letters,2016,108(3):032405.
【36】CHENG F,GAO L M,WANG Y,et al.Large refrigeration capacity in a Ni42Co8Mn37.7In12.3 magnetocaloric alloy[J].Journal of Magnetism and Magnetic Materials,2019,478:234-238.
【37】GAO L,LI K F,LIANG Y C,et al.Reversibility of magnetostructural transition and associated magnetocaloric effect above room temperature in Ni-Co-Mn-In-Gd polycrystal[J].Journal of Magnetism and Magnetic Materials,2018,454:337-341.
【38】LI Z B,DONG S Y,LI Z Z,et al.Giant low-field magnetocaloric effect in Si alloyed Ni-Co-Mn-In alloys[J].Scripta Materialia,2019,159:113-118.
【39】LI Z B,YANG J J,LI D,et al.Tuning the reversible magnetocaloric effect in Ni-Mn-In-based alloys through Co and Cu co-doping[J].Advanced Electronic Materials,2019:1800845.
【40】CICEK M M,SARITAS S,YILDIRIM O,et al.Effect of the low constituent boron on martensitic transformation,magnetic,and magnetocaloric properties of Ni50Mn35In15 Heusler alloys[J].Journal of Alloys and Compounds,2020,845:155493.
【41】TAUBEL A,GOTTSCHALL T,FRIES M,et al.A comparative study on the magnetocaloric properties of Ni-Mn-X (-Co) Heusler alloys[J].Physica Status Solidi (b),2018,255(2):1700331.
【42】YAN H L,HUANG X M,YANG J H,et al.A strategy of optimizing magnetism and hysteresis simultaneously in Ni-Mn-based metamagnetic shape memory alloys[J].Intermetallics,2021,130:107063.
【43】LI Y R,SU H L,SUN J B,et al.Exchange interactions and magnetocaloric effects of the Heusler alloys Ni-Mn-In-R (R=Fe,Co)[J].Modern Physics Letters B,2018,32(14):1850146.
【44】LIU J, YOU X,HUANG B,et al. Reversible low-field magnetocaloric effect in Ni-Mn-In-based Heusler alloys[J]. Physical Review Materials, 2019, 3(8):084409.
【45】DUBEY K K,DEVI P,SINGH A K,et al.Improved crystallographic compatibility and magnetocaloric reversibility in Pt substituted Ni2Mn1.4In0.6 magnetic shape memory Heusler alloy[J].Journal of Magnetism and Magnetic Materials,2020,507:166818.
【46】DEVI P,MEJÍA C S,CARON L,et al.Effect of chemical and hydrostatic pressure on the coupled magnetostructural transition of Ni-Mn-In Heusler alloys[J].Physical Review Materials,2019,3(12):122401.
【47】HUANG X M,ZHAO Y,YAN H L,et al.Giant magnetoresistance,magnetostrain and magnetocaloric effects in a Cu-doped-textured Ni45Co5Mn36In13.2Cu0.8 polycrystalline alloy[J].Journal of Alloys and Compounds,2021,889:161652.
【48】关子奇,白静,梁新增,等.全d族Ni-Mn-Ti基Heusler磁相变合金研究进展[J].稀有金属材料与工程,2020,49(12):4373-4378. GUAN Z Q,BAI J,LIANG X Z,et al.Research progress of all d-group Ni-Mn-Ti based magnetic phase transformation Heusler alloys[J].Rare Metal Materials and Engineering,2020,49(12):4373-4378.
【49】YANG Z,CONG D Y,SUN X M,et al.Enhanced cyclability of elastocaloric effect in boron-microalloyed Ni-Mn-In magnetic shape memory alloys[J].Acta Materialia,2017,127:33-42.
【50】SHEN A,SUN W,ZHAO D W,et al.Influence of Cr on microstructure and elastocaloric effect in Ni-Mn-In-Co-Cr polycrystalline alloys[J].Physics Letters A,2018,382(39):2876-2879.
【51】ZHOU Z N,YANG L,LI R C,et al.Martensite transformation,mechanical properties and shape memory effects of Ni-Mn-In-Mg shape memory alloys[J].Progress in Natural Science:Materials International,2018,28(1):60-65.
【2】沈俊,莫兆军,李振兴,等.磁制冷材料与技术的研究进展[J].中国科学:物理学力学天文学,2021,51(6):3-17. SHEN J,MO Z J,LI Z X,et al.Development of magnetic refrigeration materials and technology[J].Scientia Sinica:Physica,Mechanica & Astronomica,2021,51(6):3-17.
【3】郑新奇,沈俊,胡凤霞,等.磁热效应材料的研究进展[J].物理学报,2016,65(21):217502. ZHENG X Q,SHEN J,HU F X,et al.Research progress in magneto caloric effect materials[J].Acta Physica Sinica,2016,65(21):217502.
【4】ALGETHAMI OBAIDALLAH A,李歌天,张强强,等.热处理冷却速率与Cr掺杂对Heusler合金Mn50-xCrxNi40In10相变、磁性以及磁热效应的影响[J].功能材料,2020,51(7):7130-7135. ALGETHAMI O A,LI G T,ZHANG Q Q,et al.Influence of cooling rate of heat treatment and Cr doping on the phase transformation,magnetic property and magnetocaloric effect of Mn50-xCrxNi40In10 Heusler alloys[J].Journal of Functional Materials,2020,51(7):7130-7135.
【5】聂志华,王沿东,刘冬梅.磁驱动相变材料研究进展[J].中国材料进展,2012,31(3):15-25. NIE Z H,WANG Y D,LIU D M.Progress of magnetic field-driven phase transformation materials[J].Materials China,2012,31(3):15-25.
【6】KAVITA S,RAMAKRISHNA V V,BEHARA S,et al.Investigation of magnetocaloric and mechanical properties of Ni49-xMn39Sb12Cox alloys[J].Journal of Alloys and Compounds,2020,847:156558.
【7】从道永,王沿东.Heusler型磁相变合金先进原位表征与功能设计[J].中国科学:物理学力学天文学,2021,51(6):53-63. CONG D Y,WANG Y D.Heusler-type magnetic phase-transition alloys:Advanced in situ characterization and high-performance design[J].Scientia Sinica:Physica,Mechanica & Astronomica,2021,51(6):53-63.
【8】WEDERNI A,IPATOV M,PINEDA E,et al.Magnetic properties,martensitic and magnetostructural transformations of ferromagnetic Ni-Mn-Sn-Cu shape memory alloys[J].Applied Physics A,2020,126(5):320.
【9】LI Z B,LI Z Z,YANG J J,et al.Large room temperature adiabatic temperature variation in a Ni40Co8Mn42Sn10 polycrystalline alloy[J].Intermetallics,2018,100:57-62.
【10】PUGLIELLI F,MUSSI V,CUGINI F,et al.Scale-up of magnetocaloric NiCoMnIn Heuslers by powder metallurgy for room temperature magnetic refrigeration[J].Frontiers in Energy Research,2020,7:150.
【11】SONG Y T,CHEN X,DABADE V,et al.Enhanced reversibility and unusual microstructure of a phase-transforming material[J].Nature,2013,502(7469):85-88.
【12】李贝.磁驱动形状记忆合金NiMnIn(Co)马氏体转变与磁性能的研究[D].天津:河北工业大学,2009. LI B.Martensitic and magnetic transformation behaviors in NiMnIn(Co) metamagnetic shape memory alloys[D].Tianjin:Hebei University of Technology,2009.
【13】SUTOU Y,IMANO Y,KOEDA N,et al.Magnetic and martensitic transformations of NiMnX (X=In,Sn,Sb) ferromagnetic shape memory alloys[J].Applied Physics Letters,2004,85(19):4358.
【14】KRENKE T,ACET M,WASSERMANN E F,et al.Ferromagnetism in the austenitic and martensitic states of Ni-Mn-In alloys[J].Physical Review B,2006,73(17):174413.
【15】闫海乐.NiMnIn基合金晶体结构、微观组织和马氏体相变晶体学研究[D].沈阳:东北大学,2017. YAN H L.Crystal structure,microstructure, martensitic transformation crystallography of NiMnIn based alloys[D].Shenyang:Northeastern University,2017.
【16】ITO W,IMANO Y,KAINUMA R,et al.Martensitic and magnetic transformation behaviors in Heusler-type NiMnIn and NiCoMnIn metamagnetic shape memory alloys[J].Metallurgical and Materials Transactions A,2007,38(4):759-766.
【17】YAN H L,ZHANG Y D,XU N,et al.Crystal structure determination of incommensurate modulated martensite in Ni-Mn-In Heusler alloys[J].Acta Materialia,2015,88:375-388.
【18】LAW J Y,DÍAZ-GARCÍA Á,MORENO-RAMÍREZ L M,et al.How concurrent thermomagnetic transitions can affect magnetocaloric effect:The Ni49+xMn36-xIn15 Heusler alloy case[J].Acta Materialia,2019,166:459-465.
【19】DÍAZ-GARCÍA Á,LAW J Y,MORENO-RAMÍREZ L M,et al.Deconvolution of overlapping first and second order phase transitions in a NiMnIn Heusler alloy using the scaling laws of the magnetocaloric effect[J].Journal of Alloys and Compounds,2021,871:159621.
【20】丰焱.Ni-Mn-In基合金的马氏体相变与结构和性能[D].哈尔滨:哈尔滨工业大学,2009. FENG Y.Martensitc transformation behavior and structure and properties of Ni-Mn-In based alloys[D].Harbin:Harbin Institute of Technology,2009.
【21】廖志钦.Ni-Mn-In哈斯勒合金的相变及其磁性能研究[D].南京:南京理工大学,2013. LIAO Z Q.Martensitic transformation and magnetic properties of Ni-Mn-In Heusler alloy[D].Nanjing:Nanjing University of Science and Technology,2013.
【22】GOTTSCHALL T,SKOKOV K P,FRINCU B,et al.Large reversible magnetocaloric effect in Ni-Mn-In-Co[J].Applied Physics Letters,2015,106(2):021901.
【23】KAINUMA R,IMANO Y,ITO W,et al.Magnetic-field-induced shape recovery by reverse phase transformation[J].Nature,2006,439(7079):957-960.
【24】程辉.脉冲强磁场下NiMn基哈斯勒合金的场驱动相变与磁热效应研究[D].武汉:华中科技大学,2018. CHENG H.Field-induced phase transition and magnetocaloric effects of NiMn based Heusler alloy under pulsed high magnetic field[D].Wuhan:Huazhong University of Science and Technology,2018.
【25】LIU J,GOTTSCHALL T,SKOKOV K P,et al.Giant magnetocaloric effect driven by structural transitions[J].Nature Materials,2012,11(7):620-626.
【26】许贤福.NiCoMnIn磁制冷合金的相变和磁性能研究[D].哈尔滨:哈尔滨工程大学,2020. XU X F.Study on phase transformation and magnetic properties of NiCoMnIn magnetic refrigeration alloys[D].Harbin:Harbin Engineering University,2020.
【27】AKKERA H S,SINGH I,KAUR D.Martensitic phase transformation of magnetron sputtered nanostructured Ni-Mn-In ferromagnetic shape memory alloy thin films[J].Journal of Alloys and Compounds,2015,642:53-62.
【28】SÁNCHEZ LLAMAZARES J L,GARCÍA C,HERNANDO B,et al.Magnetocaloric properties of as-quenched Ni50.4Mn34.9In14.7 ferromagnetic shape memory alloy ribbons[J].Applied Physics A,2011,103(4):1125-1130.
【29】AGUILAR-ORTIZ C O,CAMARILLO-GARCÍA J P,VERGARA J,et al.Effect of solidification rate on martensitic transformation behavior and adiabatic magnetocaloric effect of Ni50Mn35In15 ribbons[J].Journal of Alloys and Compounds,2018,748:464-472.
【30】PAVLUKHINA O,SOKOLOVSKIY V,BUCHELNIKOV V.Modeling of heat transfer processes in Ni2MnIn magnetic wires[J].Physica Status Solidi (a),2016,213(2):390-398.
【31】MIYAMOTO T,ITO W,UMETSU R Y,et al.Phase stability and magnetic properties of Ni50Mn50-xInx Heusler-type alloys[J].Scripta Materialia,2010,62(3):151-154.
【32】ROSA W O,GONZÁLEZ L,GARCÍA J,et al.Tailoring of magnetocaloric effect in Ni45.5Mn43.0In11.5 metamagnetic shape memory alloy[J].Physics Research International,2012,2012:1-5.
【33】PATHAK A K,KHAN M,DUBENKO I,et al.Large magnetic entropy change in Ni50Mn50-xInx Heusler alloys[J].Applied Physics Letters,2007,90(26):262504.
【34】DEVI P,MEJÍA C S,ZAVAREH M G,et al.Improved magnetostructural and magnetocaloric reversibility in magnetic Ni-Mn-In shape-memory Heusler alloy by optimizing the geometric compatibility condition[J].Physical Review Materials,2019,3(6):062401.
【35】HUANG L,CONG D Y,MA L,et al.Large reversible magnetocaloric effect in a Ni-Co-Mn-In magnetic shape memory alloy[J].Applied Physics Letters,2016,108(3):032405.
【36】CHENG F,GAO L M,WANG Y,et al.Large refrigeration capacity in a Ni42Co8Mn37.7In12.3 magnetocaloric alloy[J].Journal of Magnetism and Magnetic Materials,2019,478:234-238.
【37】GAO L,LI K F,LIANG Y C,et al.Reversibility of magnetostructural transition and associated magnetocaloric effect above room temperature in Ni-Co-Mn-In-Gd polycrystal[J].Journal of Magnetism and Magnetic Materials,2018,454:337-341.
【38】LI Z B,DONG S Y,LI Z Z,et al.Giant low-field magnetocaloric effect in Si alloyed Ni-Co-Mn-In alloys[J].Scripta Materialia,2019,159:113-118.
【39】LI Z B,YANG J J,LI D,et al.Tuning the reversible magnetocaloric effect in Ni-Mn-In-based alloys through Co and Cu co-doping[J].Advanced Electronic Materials,2019:1800845.
【40】CICEK M M,SARITAS S,YILDIRIM O,et al.Effect of the low constituent boron on martensitic transformation,magnetic,and magnetocaloric properties of Ni50Mn35In15 Heusler alloys[J].Journal of Alloys and Compounds,2020,845:155493.
【41】TAUBEL A,GOTTSCHALL T,FRIES M,et al.A comparative study on the magnetocaloric properties of Ni-Mn-X (-Co) Heusler alloys[J].Physica Status Solidi (b),2018,255(2):1700331.
【42】YAN H L,HUANG X M,YANG J H,et al.A strategy of optimizing magnetism and hysteresis simultaneously in Ni-Mn-based metamagnetic shape memory alloys[J].Intermetallics,2021,130:107063.
【43】LI Y R,SU H L,SUN J B,et al.Exchange interactions and magnetocaloric effects of the Heusler alloys Ni-Mn-In-R (R=Fe,Co)[J].Modern Physics Letters B,2018,32(14):1850146.
【44】LIU J, YOU X,HUANG B,et al. Reversible low-field magnetocaloric effect in Ni-Mn-In-based Heusler alloys[J]. Physical Review Materials, 2019, 3(8):084409.
【45】DUBEY K K,DEVI P,SINGH A K,et al.Improved crystallographic compatibility and magnetocaloric reversibility in Pt substituted Ni2Mn1.4In0.6 magnetic shape memory Heusler alloy[J].Journal of Magnetism and Magnetic Materials,2020,507:166818.
【46】DEVI P,MEJÍA C S,CARON L,et al.Effect of chemical and hydrostatic pressure on the coupled magnetostructural transition of Ni-Mn-In Heusler alloys[J].Physical Review Materials,2019,3(12):122401.
【47】HUANG X M,ZHAO Y,YAN H L,et al.Giant magnetoresistance,magnetostrain and magnetocaloric effects in a Cu-doped-textured Ni45Co5Mn36In13.2Cu0.8 polycrystalline alloy[J].Journal of Alloys and Compounds,2021,889:161652.
【48】关子奇,白静,梁新增,等.全d族Ni-Mn-Ti基Heusler磁相变合金研究进展[J].稀有金属材料与工程,2020,49(12):4373-4378. GUAN Z Q,BAI J,LIANG X Z,et al.Research progress of all d-group Ni-Mn-Ti based magnetic phase transformation Heusler alloys[J].Rare Metal Materials and Engineering,2020,49(12):4373-4378.
【49】YANG Z,CONG D Y,SUN X M,et al.Enhanced cyclability of elastocaloric effect in boron-microalloyed Ni-Mn-In magnetic shape memory alloys[J].Acta Materialia,2017,127:33-42.
【50】SHEN A,SUN W,ZHAO D W,et al.Influence of Cr on microstructure and elastocaloric effect in Ni-Mn-In-Co-Cr polycrystalline alloys[J].Physics Letters A,2018,382(39):2876-2879.
【51】ZHOU Z N,YANG L,LI R C,et al.Martensite transformation,mechanical properties and shape memory effects of Ni-Mn-In-Mg shape memory alloys[J].Progress in Natural Science:Materials International,2018,28(1):60-65.
相关信息