Strength, Plasticity and Coercivity Tradeoff in Soft Magnetic High-entropy Alloys by Multiple Coherent Interfaces

[1]  P. Han,et al.  Contribution of coherent precipitates on mechanical properties of CoCrFeNiTi0.2 high-entropy alloy at room and cryogenic temperatures , 2023, Intermetallics.

[2]  R. Banerjee,et al.  Role of Heterophase Interfaces on Local Coercivity Mechanisms in the Magnetic Al 0.3CoFeNi Complex Concentrated Alloy , 2023, SSRN Electronic Journal.

[3]  V. Chaudhary,et al.  Magnetic and mechanical properties of additively manufactured Alx(CoFeNi) complex concentrated alloys , 2023, Scripta Materialia.

[4]  Ge Zhou,et al.  Dynamic recrystallization behavior of single-phase BCC structure AlFeCoNiMo0.2 high-entropy alloy , 2023, Journal of Materials Research and Technology.

[5]  R. Caram,et al.  Microstructure and Mechanical Behavior of the Directionally Solidified AlCoCrFeNi2.1 Eutectic High-Entropy Alloy , 2022, Journal of Materials Research and Technology.

[6]  Dingshun Yan,et al.  A strong ferritic high-resistivity multicomponent alloy with tunable ordered coherent multicomponent nanoprecipitates , 2022, Acta Materialia.

[7]  D. Raabe,et al.  A mechanically strong and ductile soft magnet with extremely low coercivity , 2022, Nature.

[8]  R. Banerjee,et al.  Highly complex magnetic behavior resulting from hierarchical phase separation in AlCo(Cr)FeNi high-entropy alloys , 2022, iScience.

[9]  M. Ardestani,et al.  Core loss reduction in grain oriented silicon steel sheets by two-sided laser scribing in the presence of a magnetic field , 2022, Journal of Alloys and Compounds.

[10]  Zhong Li,et al.  Tailoring magnetic property and corrosion resistance of FeCoNiCuAl high-entropy alloy with Ce additive , 2022, Journal of Alloys and Compounds.

[11]  P. Liaw,et al.  Ultrastrong and ductile BCC high-entropy alloys with low-density via dislocation regulation and nanoprecipitates , 2021, Journal of Materials Science & Technology.

[12]  P. Liaw,et al.  Nanoprecipitate‐Strengthened High‐Entropy Alloys , 2021, Advanced science.

[13]  K. An,et al.  Gradient cell–structured high-entropy alloy with exceptional strength and ductility , 2021, Science.

[14]  D. Raabe,et al.  Hierarchical crack buffering triples ductility in eutectic herringbone high-entropy alloys , 2021, Science.

[15]  D. Ponge,et al.  Ultrastrong and Ductile Soft Magnetic High‐Entropy Alloys via Coherent Ordered Nanoprecipitates , 2021, Advanced materials.

[16]  Jianzhong Jiang,et al.  A dual-phase alloy with ultrahigh strength-ductility synergy over a wide temperature range , 2021, Science Advances.

[17]  G. Bai,et al.  High-frequency MnZn soft magnetic ferrite by engineering grain boundaries with multiple-ion doping , 2021, Journal of Materials Science & Technology.

[18]  R. Banerjee,et al.  Accelerated and conventional development of magnetic high entropy alloys , 2021 .

[19]  Yan Chen,et al.  Enhancing fatigue life by ductile-transformable multicomponent B2 precipitates in a high-entropy alloy , 2021, Nature Communications.

[20]  Won-Kyu Lee,et al.  Spontaneous Formation of Ordered Magnetic Domains by Patterning Stress. , 2021, Nano letters.

[21]  C. Dong,et al.  A Novel Soft‐Magnetic B2‐Based Multiprincipal‐Element Alloy with a Uniform Distribution of Coherent Body‐Centered‐Cubic Nanoprecipitates , 2021, Advanced materials.

[22]  S. Scudino,et al.  Fine tuning in-sync the mechanical and magnetic properties of FeCoNiAl0.25Mn0.25 high-entropy alloy through cold rolling and annealing treatment , 2021 .

[23]  P. Robi,et al.  A New High‐Entropy Alloy of Al–Fe–Co–Ni–Cu Possessing Single Face‐Centered Cubic Crystal Structure and Excellent Mechanical Properties at Room Temperature , 2021, physica status solidi (a).

[24]  F. M. Cardoso,et al.  Original Fe–Co–Ni–Ga–Nb Multicomponent Alloy with Soft Magnetic Properties , 2021, Advanced Engineering Materials.

[25]  Xuefeng Zhang,et al.  Tuning phase constitution and magnetic properties by composition in FeCoNiAlMn high-entropy alloys , 2020 .

[26]  Tao Yang,et al.  Ultrahigh strength and ductility in newly developed materials with coherent nanolamellar architectures , 2020, Nature Communications.

[27]  Hu Li,et al.  Design of Fe-based nanocrystalline alloys with superior magnetization and manufacturability , 2020 .

[28]  I. Beyerlein,et al.  Effects of lattice distortion and chemical short-range order on the mechanisms of deformation in medium entropy alloy CoCrNi , 2020 .

[29]  P. Liaw,et al.  FeCoNiAlSi high entropy alloys with exceptional fundamental and application-oriented magnetism , 2020 .

[30]  C. Shek,et al.  Effects of Hf on the microstructure and mechanical properties of CoCrFeNi high entropy alloy , 2020 .

[31]  C. Woodward,et al.  Chemical Short Range Order Strengthening in a Model FCC High Entropy Alloy , 2020, Acta Materialia.

[32]  Hui Jiang,et al.  Microstructure and Mechanical Behavior of CrFeNi2V0.5Wx (x = 0, 0.25) High-Entropy Alloys , 2020, Acta Metallurgica Sinica (English Letters).

[33]  R. Banerjee,et al.  Influence of Non-magnetic Cu on Enhancing the Low Temperature Magnetic Properties and Curie Temperature of FeCoNiCrCu(x) High Entropy Alloys , 2020, Scripta Materialia.

[34]  Rajesh K. Mishra,et al.  Novel Co35Cr5Fe20Ni20Ti20 high entropy alloy for high magnetization and low coercivity , 2019, Journal of Magnetism and Magnetic Materials.

[35]  X. Tan,et al.  Tailoring AC magnetic properties of FeCoNi(MnSi) (0 ≤ x ≤ 0.4) high-entropy alloys by the addition of Mn and Si elements , 2019, Journal of Alloys and Compounds.

[36]  X. Chen,et al.  Review of Fe-6.5 wt%Si high silicon steel—A promising soft magnetic material for sub-kHz application , 2019, Journal of Magnetism and Magnetic Materials.

[37]  Xiaohua Deng,et al.  Composition and phase structure dependence of mechanical and magnetic properties for AlCoCuFeNi high entropy alloys , 2019, Journal of Materials Science & Technology.

[38]  Hyuck-Mo Lee,et al.  Effects of phase composition and elemental partitioning on soft magnetic properties of AlFeCoCrMn high entropy alloys , 2019, Acta Materialia.

[39]  C. Kiminami,et al.  Formation, stability and ultrahigh strength of novel nanostructured alloys by partial crystallization of high-entropy (Fe0.25Co0.25Ni0.25Cr0.125Mo0.125)86‒89B11‒14 amorphous phase , 2019, Acta Materialia.

[40]  J. Schroers,et al.  High-temperature bulk metallic glasses developed by combinatorial methods , 2019, Nature.

[41]  Yong Zhang,et al.  Compositional Design of Soft Magnetic High Entropy Alloys by Minimizing Magnetostriction Coefficient in (Fe0.3Co0.5Ni0.2)100−x(Al1/3Si2/3)x System , 2019, Metals.

[42]  Guojia Ma,et al.  A novel microwave absorber of FeCoNiCuAl high-entropy alloy powders: Adjusting electromagnetic performance by ball milling time and annealing , 2019, Journal of Alloys and Compounds.

[43]  Dierk Raabe,et al.  Enhanced strength and ductility in a high-entropy alloy via ordered oxygen complexes , 2018, Nature.

[44]  J. R. Morris,et al.  Predictive multiphase evolution in Al-containing high-entropy alloys , 2018, Nature Communications.

[45]  T. Monson,et al.  Soft magnetic materials for a sustainable and electrified world , 2018, Science.

[46]  Qian Xiao,et al.  High-content ductile coherent nanoprecipitates achieve ultrastrong high-entropy alloys , 2018, Nature Communications.

[47]  Yong Zhang,et al.  High-entropy functional materials , 2018, Journal of Materials Research.

[48]  P. Liaw,et al.  Novel high entropy alloys of FexCo1-xNiMnGa with excellent soft magnetic properties , 2018, Intermetallics.

[49]  Yong Yang,et al.  On Lattice Distortion in High Entropy Alloys , 2018, Front. Mater..

[50]  X. Tan,et al.  Correlation between the magnetic properties and phase constitution of FeCoNi(CuAl)0.8Gax (0 ≤ x ≤ 0.08) high-entropy alloys , 2018 .

[51]  Chuang Dong,et al.  Controlled formation of coherent cuboidal nanoprecipitates in body-centered cubic high-entropy alloys based on Al2(Ni,Co,Fe,Cr)14 compositions , 2018 .

[52]  P. Hodgson,et al.  Understanding the mechanical behaviour and the large strength/ductility differences between FCC and BCC AlxCoCrFeNi high entropy alloys , 2017 .

[53]  C. Liu,et al.  Precipitation hardening in CoCrFeNi-based high entropy alloys , 2017 .

[54]  Xuefei Huang,et al.  Microstructure and Room-Temperature Mechanical Properties of FeCrMoVTix High-Entropy Alloys , 2017, Journal of Materials Engineering and Performance.

[55]  P. Liaw,et al.  Tailoring magnetic behavior of CoFeMnNiX (X = Al, Cr, Ga, and Sn) high entropy alloys by metal doping , 2017 .

[56]  Peter Hodgson,et al.  Tension/compression asymmetry in additive manufactured face centered cubic high entropy alloy , 2017 .

[57]  Lu Wang,et al.  Cooling rate-dependent microstructure and mechanical properties of AlxSi0.2CrFeCoNiCu1−x high entropy alloys , 2017 .

[58]  X. Tan,et al.  The effects of phase constitution on magnetic and mechanical properties of FeCoNi(CuAl)x (x = 0–1.2) high-entropy alloys , 2017 .

[59]  E. Holmström,et al.  Mechanism of magnetic transition in FeCrCoNi-based high entropy alloys , 2016 .

[60]  Mingwei Chen,et al.  Atomistic mechanism of nano-scale phase separation in fcc-based high entropy alloys , 2016 .

[61]  Jun Wang,et al.  Enhanced mechanical properties of a CoCrFeNi high entropy alloy by supercooling method , 2016 .

[62]  P. Liaw,et al.  Nanotwin's formation and growth in an AlCoCuFeNi high-entropy alloy , 2016 .

[63]  P. Liaw,et al.  The high-entropy alloys with high hardness and soft magnetic property prepared by mechanical alloying and high-pressure sintering , 2016 .

[64]  Walter Steurer,et al.  Structural-disorder and its effect on the mechanical properties in single-phase TaNbHfZr high-entropy alloys , 2015, 1510.09047.

[65]  Yong Zhang,et al.  Effects of Al and Si addition on the structure and properties of CoFeNi equal atomic ratio alloy , 2014 .

[66]  David J. Smith,et al.  Architecture and magnetism of alnico , 2014 .

[67]  J. Yeh,et al.  High-Entropy Alloys: A Critical Review , 2014 .

[68]  A. Kuznetsov,et al.  Effect of Mn and V on structure and mechanical properties of high-entropy alloys based on CoCrFeNi system , 2014 .

[69]  Liu Feng,et al.  Crystal structure evolution of the Cu-rich nano precipitates from bcc to 9R in reactor pressure vessel model steel , 2013, Acta Metallurgica Sinica (English Letters).

[70]  S. Hirsekorn,et al.  Magnetic micro- and nanostructures of unalloyed steels: Domain wall interactions with cementite precipitates observed by MFM , 2013 .

[71]  P. Liaw,et al.  High-entropy Alloys with High Saturation Magnetization, Electrical Resistivity, and Malleability , 2013, Scientific Reports.

[72]  P. Kollár,et al.  Power loss separation in Fe-based composite materials , 2013 .

[73]  G. Herzer Modern Soft Magnets: Amorphous and Nanocrystalline Materials , 2013 .

[74]  T. Shun,et al.  Microstructures and mechanical properties of multiprincipal component CoCrFeNiTix alloys , 2012 .

[75]  T. Shun,et al.  Microstructure and mechanical properties of multiprincipal component CoCrFeNiMox alloys , 2012 .

[76]  Christina H. Chen,et al.  Magnetic Materials and Devices for the 21st Century: Stronger, Lighter, and More Energy Efficient , 2011, Advanced materials.

[77]  J. Yeh,et al.  Electrical, magnetic, and Hall properties of AlxCoCrFeNi high-entropy alloys , 2011 .

[78]  J. Fuzer,et al.  AC Magnetic Properties of Fe-Based Composite Materials , 2010, IEEE Transactions on Magnetics.

[79]  W.A. Pluta,et al.  Some Properties of Factors of Specific Total Loss Components in Electrical Steel , 2010, IEEE Transactions on Magnetics.

[80]  Gang Wang,et al.  Super Plastic Bulk Metallic Glasses at Room Temperature , 2007, Science.

[81]  R. Lebourgeois,et al.  Soft magnetic materials for electrical engineering: state of the art and recent advances , 2005 .

[82]  P. L. Ferrandini,et al.  Influence of growth rate on the microstructure and mechanical behaviour of a NiAl–Mo eutectic alloy , 2004 .

[83]  B. Cantor,et al.  Microstructural development in equiatomic multicomponent alloys , 2004 .

[84]  T. Shun,et al.  Nanostructured High‐Entropy Alloys with Multiple Principal Elements: Novel Alloy Design Concepts and Outcomes , 2004 .

[85]  Tetsuya Osaka,et al.  A soft magnetic CoNiFe film with high saturation magnetic flux density and low coercivity , 1998, Nature.

[86]  G. Herzer Soft magnetic nanocrystalline materials , 1995 .

[87]  F. Pfeifer,et al.  Soft magnetic Ni-Fe and Co-Fe alloys - some physical and metallurgical aspects , 1980 .

[88]  Yong Liu,et al.  Hierarchical grain size and nanotwin gradient microstructure for improved mechanical properties of a non-equiatomic CoCrFeMnNi high-entropy alloy , 2021 .

[89]  Yucheng Wang,et al.  Alloying behavior and novel properties of CoCrFeNiMn high-entropy alloy fabricated by mechanical alloying and spark plasma sintering , 2015 .