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1. Full Text Effects of Al addition on the microstructure and mechanical property of Al xCoCrFeNi high-entropy alloys
by Wang, Woei-Ren and Wang, Wei-Lin and Wang, Shang-Chih and Tsai, Yi-Chia and Lai, Chun-Hui and Yeh, Jien-Wei
Intermetallics, ISSN 0966-9795, 07/2012, Volume 26, pp. 44 - 51
A five-component Al CoCrFeNi high-entropy alloy (HEA) system with finely-divided Al contents (x in molar ratio, x = 0-2.0) was prepared by vacuum arc melting... 
D. Microstructure | B. Mechanical properties at ambient temperature | C. Casting | B. Alloy design
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2. Full Text Mechanical properties of Nb 25Mo 25Ta 25W 25 and V 20Nb 20Mo 20Ta 20W 20 refractory high entropy alloys
by Senkov, O.N and Wilks, G.B and Scott, J.M and Miracle, D.B
Intermetallics, ISSN 0966-9795, 2011, Volume 19, Issue 5, pp. 698 - 706
Two refractory high entropy alloys with compositions near Nb Mo Ta W and V Nb Mo Ta W , were produced by vacuum arc-melting. Despite containing many... 
B. Mechanical properties at high temperatures | A. Intermetallics, miscellaneous | Mechanical properties at ambient temperature | D. Microstructure (as-cast, deformation-induced, recrystallization-induced) | A. Intermetallics miscellaneous | D. Microstructure (as-cast deformation-induced recrystallization-induced)
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3. Full Text Microstructural design and mechanical properties of a cast and heat-treated intermetallic multi-phase γ-TiAl based alloy
by Schwaighofer, Emanuel and Clemens, Helmut and Mayer, Svea and Lindemann, Janny and Klose, Joachim and Smarsly, Wilfried and Güther, Volker
Intermetallics, ISSN 0966-9795, 01/2014, Volume 44, pp. 128 - 140
Advanced intermetallic multi-phase γ-TiAl based alloys, such as TNM alloys with a nominal composition of Ti–43.5Al–4Nb–1Mo–0.1B (in at.%), are potential... 
D. Microstructure | B. Mechanical properties at ambient temperature | B. Mechanical properties at high temperatures | B. Phase transformation | A. Titanium aluminides, based on TiAl | C. Heat treatment | SHEET MATERIAL | PHYSICAL METALLURGY | Heat treatment | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | TITANIUM ALUMINIDE ALLOYS | Mechanical properties at high temperatures | DEFORMATION | HIGH NB | REFINEMENT | Phase transformation | THERMOMECHANICAL TREATMENT | TEMPERATURE | BETA-PHASE | Mechanical properties at ambient temperature | OXIDATION BEHAVIOR | Microstructure | Titanium aluminides, based on TiAl | Aircraft components | Hot working | Intermetallics | Mechanical properties | Aerospace engines | Titanium base alloys | Automotive components
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4. Full Text Mechanical properties of Nb25Mo25Ta25W25 and V20Nb20Mo20Ta20W20 refractory high entropy alloys
by Senkov, ON and Wilks, GB and Scott, JM and Miracle, DB
INTERMETALLICS, ISSN 0966-9795, 05/2011, Volume 19, Issue 5, pp. 698 - 706
Two refractory high entropy alloys with compositions near Nb25Mo25Ta25W25 and V20Nb20Mo20Ta20W20, were produced by vacuum arc-melting. Despite containing many... 
Microstructure (as-cast, deformation-induced, recrystallization-induced) | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | Mechanical properties at ambient temperature | CHEMISTRY, PHYSICAL | Mechanical properties at high temperatures | Intermetallics, miscellaneous
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5. Full Text Effects of Al addition on the microstructure and mechanical property of AlxCoCrFeNi high-entropy alloys
by Wang, Woei-Ren and Wang, Shang-Chih and Wang, Wei-Lin and Tsai, Yi-Chia and Lai, Chun-Hui and Yeh, Jien-Wei
Intermetallics, ISSN 0966-9795, 07/2012, Volume 26, pp. 44 - 51
A five-component Al CoCrFeNi high-entropy alloy (HEA) system with finely-divided Al contents ( in molar ratio,  = 0–2.0) was prepared by vacuum arc melting and... 
D. Microstructure | B. Mechanical properties at ambient temperature | C. Casting | B. Alloy design | SYSTEM | DESIGN | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | STRENGTH | Alloy design | Casting | STEEL | Mechanical properties at ambient temperature | PRINCIPAL ELEMENTS | Microstructure | COMPRESSIVE PROPERTIES | MULTIPRINCIPAL ELEMENTS | WEAR-RESISTANCE | Aluminum base alloys | Body centered cubic lattice | Solid solutions | Aluminum | Face centered cubic lattice | Alloys | Nanostructure
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6. Full Text Novel microstructure and properties of multicomponent CoCrCuFeNiTix alloys
by Wang, X.F and Zhang, Y and Qiao, Y and Chen, G.L
Intermetallics, ISSN 0966-9795, 03/2007, Volume 15, Issue 3, pp. 357 - 362
CoCrCuFeNiTi (x values in molar ratio, x = 0, 0.5, 0.8 and 1.0) were prepared by arc melting of the pure elements and suction casting under an argon... 
D. Microstructure | B. Mechanical properties at ambient temperature | C. Casting | B. Magnetic properties | METALLIC ALLOYS | SYSTEM | mechanical properties at ambient temperature | magnetic properties | microstructure | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | casting | SCIENCE | MULTIPRINCIPAL ELEMENTS
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7. Full Text Microstructure and mechanical properties of a forged β-solidifying γ TiAl alloy in different heat treatment conditions
by Bolz, S and Oehring, M and Lindemann, J and Pyczak, F and Paul, J and Stark, A and Lippmann, T and Schrüfer, S and Roth-Fagaraseanu, D and Schreyer, A and Weiß, S
Intermetallics, ISSN 0966-9795, 03/2015, Volume 58, pp. 71 - 83
In the cast condition γ titanium aluminide alloys that solidify completely through the β phase are characterized by fine and homogeneous microstructures, weak... 
C. Thermomechanical treatment | D. Microstructure | B. Creep | B. Mechanical properties at ambient temperature | B. Phase transformation | A. Titanium aluminides, based on TiAl | DESIGN | Creep | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CREEP-BEHAVIOR | COMPONENTS | CHEMISTRY, PHYSICAL | GRAIN-SIZE | DEFORMATION | Phase transformation | PHASE | BASE ALLOYS | Mechanical properties at ambient temperature | FULLY-LAMELLAR | HOT-WORKABILITY | Microstructure | TITANIUM ALUMINIDES | Titanium aluminides, based on TiAl | Thermomechanical treatment | Heat treatment | Intermetallics | Forges | Forged | Titanium compounds | Texture | Titanium base alloys | Constitution
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8. Full Text Microstructure evolution and mechanical properties of a novel beta γ-TiAl alloy
by Niu, H.Z and Chen, Y.Y and Xiao, S.L and Xu, L.J
Intermetallics, ISSN 0966-9795, 12/2012, Volume 31, pp. 225 - 231
A new beta gamma TiAl alloy Ti-43Al-4Nb-2Mo-0.5B (at %) was fabricated by ISM method. The as-cast microstructure consisted of fine lamellar colonies and... 
D. Microstructure | B. Mechanical properties at ambient temperature | C. Isothermal forging | B. Mechanical properties at high temperatures | A. Titanium aluminides, based on TiAl | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | TENSILE PROPERTIES | CHEMISTRY, PHYSICAL | TITANIUM ALUMINIDE | Mechanical properties at high temperatures | REFINEMENT | FRACTURE | PHASE | Mechanical properties at ambient temperature | Isothermal forging | Microstructure | Titanium aluminides, based on TiAl | TRANSFORMATIONS
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9. Full Text Microstructures and mechanical properties of TiAl alloys consolidated by spark plasma sintering
by Couret, Alain and Molénat, Guy and Galy, Jean and Thomas, Marc
Intermetallics, ISSN 0966-9795, 2008, Volume 16, Issue 9, pp. 1134 - 1141
In the present study, the spark plasma sintering technique is used to densify pre-alloyed TiAl powders. Ti Al Cr Nb and Ti Al Cr Nb B powders are sintered at... 
C. Sintering | D. Microstructure | B. Mechanical properties at ambient temperature | B. Mechanical properties at high temperature | A. Titanium aluminides, based on TiAl | mechanical properties at ambient temperature | microstructure | sintering | titanium aluminides, based on TiAl | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | MA-PDS PROCESS | FABRICATION | mechanical properties at high temperature | Mechanical properties | Powders | Analysis | Sintering | Alloys
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10. Full Text On the fracture toughness of fine-grained Mo-3Si-1B (wt.%) alloys at ambient to elevated (1300 °C) temperatures
by Lemberg, Joseph A and Middlemas, Michael R and Weingärtner, Tobias and Gludovatz, Bernd and Cochran, Joe K and Ritchie, Robert O
Intermetallics, ISSN 0966-9795, 2012, Volume 20, Issue 1, pp. 141 - 154
New structural alloys based on borosilicides of molybdenum have been considered as potential replacements for current Ni-base superalloys, as they show promise... 
B. Mechanical properties at high temperature | B. Mechanical properties at ambient temperature | B. Fracture toughness | A. Molybdenum silicides | F. Chemical map | B. Alloy design | Mechanical properties at high temperature | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | FATIGUE-CRACK-PROPAGATION | CHEMISTRY, PHYSICAL | STRENGTH | DUCTILE | Molybdenum silicides | ISOTHERMAL OXIDATION BEHAVIOR | MECHANICAL-PROPERTIES | MOLYBDENUM SILICIDE | Alloy design | Fracture toughness | INTERFACE | Mechanical properties at ambient temperature | MO-SI-B | DEFORMATION-BEHAVIOR | Chemical map | MICROSTRUCTURE
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11. Full Text Significant tensile ductility induced by cold rolling in Cu 47.5Zr47.5Al5 bulk metallic glass
by Song, K.K and Pauly, S and Zhang, Y and Scudino, S and Gargarella, P and Surreddi, K.B and Kühn, U and Eckert, J
Intermetallics, ISSN 0966-9795, 10/2011, Volume 19, Issue 10, pp. 1394 - 1398
Significant tensile plasticity up to 0.7 ± 0.1% together with work-hardening and larger fracture strength was obtained in Cu Zr Al bulk metallic glass (BMG)... 
B. Glasses, metallic | B. Mechanical properties at ambient temperature | C. Rolling | A. Ternary alloy systems
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12. Full Text Correlation between microstructure and properties of fine grained Mo–Mo3Si–Mo5SiB2 alloys
by Krüger, M and Jain, P and Kumar, K.S and Heilmaier, M
Intermetallics, ISSN 0966-9795, 05/2014, Volume 48, pp. 10 - 18
Three phase α-Mo–Mo Si–Mo SiB alloys of various compositions, namely Mo–6Si–5B, Mo–9Si–8B, Mo–10Si–10B and Mo–13Si–12B (at.%) were processed by a powder... 
B. Mechanical properties at ambient temperature | B. Oxidation | A. Molybdenum silicides | B. Mechanical properties at high temperatures | A. Ternary alloy systems | C. Mechanical alloying and milling | FRACTURE-TOUGHNESS | MOLYBDENUM | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | INDENTATION | CHEMISTRY, PHYSICAL | MO-12SI-8.5B AT.PERCENT | Molybdenum silicides | Mechanical properties at high temperatures | MECHANICAL-PROPERTIES | Mechanical alloying and milling | SINGLE-CRYSTALS | CRACK-GROWTH | STRUCTURAL APPLICATIONS | Mechanical properties at ambient temperature | OXIDATION BEHAVIOR | Ternary alloy systems | MO-SI-B | Oxidation
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13. Full Text Large-sized Zr-based bulk-metallic-glass composite with enhanced tensile properties
by Chen, G and Cheng, J.L and Liu, C.T
Intermetallics, ISSN 0966-9795, 09/2012, Volume 28, pp. 25 - 33
A large-sized Zr-based BMG composite containing coarse and spherical β-Zr precipitates was produced using the semi-solid progressive solidification (SSPS)... 
D. Microstructure | B. Glasses, metallic | B. Mechanical properties at ambient temperature | A. Composites | B. Plastic deformation mechanisms | MORPHOLOGICAL EVOLUTION | Composites | BRIDGMAN SOLIDIFICATION | Glasses, metallic | TERNARY ALLOYS | HIGH-STRENGTH | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | DENDRITIC MICROSTRUCTURES | MECHANICAL-PROPERTIES | AMORPHOUS-ALLOYS | Plastic deformation mechanisms | Mechanical properties at ambient temperature | VOLUME FRACTION | DUCTILITY | Microstructure | MATRIX COMPOSITES | Building materials | Mechanical properties | Mechanical engineering
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14. Full Text Flow serration in a Zr-based bulk metallic glass in compression at low strain rates
by Song, S.X and Bei, H and Wadsworth, J and Nieh, T.G and Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
Intermetallics, ISSN 0966-9795, 2008, Volume 16, Issue 6, pp. 813 - 818
It is demonstrated that at slow strain rates (∼10 s ) in compression, the dominant room temperature macroscopic deformation mode in a ductile Zr-based bulk... 
B. Glasses, metallic | B. Mechanical properties at ambient temperature | B. Plastic deformation mechanisms | F. Mechanical testing | plastic deformation mechanisms | FRACTURE | mechanical properties at ambient temperature | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | MECHANISMS | AMORPHOUS-ALLOYS | DEFORMATION | glasses, metallic | mechanical testing | Metallic glasses | Zirconium | Analysis | ZIRCONIUM COMPOUNDS | STRAIN RATE | MATERIALS SCIENCE | COMPRESSION | METALLIC GLASSES | STRIATIONS
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15. Full Text Microstructure and mechanical properties of Ni3Al and Ni 3Al-1B alloys fabricated by SHS/HE
by Guo, J.T and Sheng, L.Y and Xie, Y and Zhang, Z.X and Ovcharenko, V.E and Ye, H.Q
Intermetallics, ISSN 0966-9795, 02/2011, Volume 19, Issue 2, pp. 137 - 142
The well-densified Ni Al alloys without and with boron addition were fabricated by self-propagation high-temperature synthesis and hot extrusion (SHS/HE)... 
C. Reaction synthesis | D. Microstructure | B. Mechanical properties at ambient temperature | A. Nickel aluminides, based on Ni
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16. Full Text Effects of alloying elements on glass formation, mechanical and soft-magnetic properties of Fe-based metallic glasses
by Jiao, Z.B and Li, H.X and Gao, J.E and Wu, Y and Lu, Z.P
Intermetallics, ISSN 0966-9795, 10/2011, Volume 19, Issue 10, pp. 1502 - 1508
Effects of alloying additions on glass formation, mechanical and soft-magnetic properties of Fe-(Si,P,C,B)-based bulk metallic glasses (BMGs) were systemically... 
B. microalloying | B. mechanical properties at ambient temperature | B. magnetic properties | B. glasses, metallic | SYSTEM | mechanical properties at ambient temperature | FORMING ABILITY | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | STRENGTH | BULK | glasses, metallic | microalloying | magnetic properties | ELECTRONEGATIVITY | ADDITIONS | Mechanical properties | Metallic glasses | Magnetization | Analysis | Gallium base alloys | Alloying effects | Alloy systems | Alloys | Amorphous materials | Iron | Glass formation
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17. Full Text Effects of ultrasonic vibration and manganese on microstructure and mechanical properties of hypereutectic Al–Si alloys with 2%Fe
by Lin, Chong and Wu, Shusen and Lü, Shulin and An, Ping and Wan, Li
Intermetallics, ISSN 0966-9795, 01/2013, Volume 32, pp. 176 - 183
The effects of ultrasonic vibration (USV) on the microstructure and mechanical properties of Al–17Si–2Fe–2Cu–1Ni (mass %) alloys with 0.4% or 0.8% Mn were... 
D. Microstructure | B. Mechanical properties at ambient temperature | C. Casting | B. Mechanical properties at high temperatures | A. Aluminides | CONTAINING INTERMETALLIC COMPOUNDS | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | Mechanical properties at high temperatures | SEMISOLID SLURRY | Aluminides | SILICON ALUMINUM-ALLOY | Casting | PHASE | Mechanical properties at ambient temperature | Microstructure | EXTRUSION | Vibration | Intermetallic compounds | Analysis | Alloys | Mechanical properties | Hardness | Manganese | Grain size | Aluminum base alloys | Ultrasonic vibration | Silicon | Iron
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