(*corresponding
author; +student of Prof. Huang; #postdoc/RA of Prof. Huang)
Google Scholar Link:
https://scholar.google.com/citations?hl=zh-TW&user=7HVLTI4AAAAJ
Download Program for
calculculating dislocation density using MWH method.
Download User Manual
2023
1.
#K
Yu, S Feng, C Ding, M Gu, P Yu, MX Huang*,
A sequential dual-passivation
strategy for designing stainless steel used above water oxidation, Materials Today
(2023).
2.
+ZH
Cao, Z Wang, +Y Ngiam, Z Luo, Z Geng, J Wang, Y Zhang, MX Huang*,
Hydrogen Embrittlement Evaluation and Prediction in Press‐Hardened Steels, steel
research international (2023) 2200685.
3.
#C
Fan, +S Pan, X Hu, B He*, MX Huang*,
Mechanisms of helium irradiation
blistering and surface deformation in tungsten, Acta Materialia 254 (2023) 118993.
4.
+M
Guan, +Y Wang, +Y Liu, Z Wang*, MX Huang*,
Optimizing bendability of
AlSi-coated 2GPa-grade press-hardened steel by double austenitization, Scripta
Materialia 235 (2023) 115640.
5.
+C
Huang, M Wang, K Zhu, A Perlade, MX Huang*,
Carbon-induced negative
strain-rate sensitivity in a quenching and partitioning steel, Acta Materialia (2023)
119099.
6.
+H
Jiang, #K Yu, X Liu, L He, B, He*, MX Huang*,
Crystallography of a new Mn
(V, Ti, Al) 2O4 compositionally complex spinel oxide in a BCC compositionally
complex alloy, Scripta Materialia 237 (2023) 115683.
7.
L
Liu, L Li*, Z Liang, MX Huang, Z Peng, J Gao, Z Luo*,
Towards ultra-high
strength dual-phase steel with excellent damage tolerance: The effect of martensite
volume fraction, International Journal of Plasticity 170 (2023) 103778.
8.
+Y
Liu, +Z Cao, +C Huang, +C Hu, MX Huang*,
Enhancing hydrogen embrittlement
resistance of TRIP-rich medium Mn steel by morphology optimization, Science China
Materials (2023) 1-9.
9.
+Y
Liu, Z Liang, S Xu, MX Huang*,
Surface-Dependent Mechanical Behavior of
Ultra-Thin 304L Stainless Steel, Metallurgical and Materials Transactions A 54(10)
(2023) 3703-3708.
10.
X
Qi, Y Li*, +X Xu, +Y Liu, H Zhang, Q Zhu, G Zhu, J Wang, MX Huang*, X Zeng*,
Enhancing strength-ductility synergy in a Mg-Gd-Y-Zr alloy at sub-zero
temperatures via high dislocation density and shearable precipitates, Journal of
Materials Science & Technology (2023).
11.
Z
Shen, X Zeng*, Y Wang, P Lai, X Guo*, J Zhang, S Lozano-Perez, MX Huang*,
Fretting wear-induced sudden loss of corrosion resistance in a corrosion-
resistant Ni-based alloy, Materials Characterization 201 (2023) 112955.
12.
Z
Wang, Q Lu, +Z Cao, H Chen, MX Huang*, J Wang*,
Review on hydrogen
embrittlement of press-hardened steels for automotive applications, Acta Metallurgica
Sinica (English Letters) 36(7) (2023) 1123-1
13.
+X
Xu, +C Huang, H Wang, Y Li*, MX Huang*,
Rate-dependent transition of
dislocation mechanisms in a magnesium alloy, Acta Materialia (2023) 119474..
14.
+C
Hu, +CP Huang, +YX Liu, A Perlade, K Zhu, MX Huang*,
The dual role of TRIP
effect on ductility and toughness of a medium Mn steel (2023), Acta Materialia 245,
118629
15.
#C
Fan, S Zhao, +S Pan, B He, MX Huang*,
Helium radiation blistering mechanisms
in tungsten: Ion channeling effects (2023), Materialia 27, 101664
16.
H
Li*, Y Han, H Feng, G Zhou*, Z Jiang, M Cai, Y Li, MX Huang,
Enhanced strength-
ductility synergy via high dislocation density-induced strain hardening in nitrogen
interstitial CrMnFeCoNi high-entropy alloy (2023), Journal of Materials Science &
Technology 141, 184-192
2022
1.
#YZ
Li, SL Zhao, SH
He,
+CP
Huang, MX Huang*,
Enhancing yield stress and uniform elongation in an ultrathin
packaging steel via controlling dislocation density (2022),
International Journal of Plasticity 155, 103334
2.
#YZ
Li, ZY Liang, MX Huang*,
Strengthening contributions of dislocations and twins in
warm-rolled TWIP steels (2022), International Journal of
Plasticity 150, 103198
3.
+H
Jiang, #M Wang*, MX Huang*,
Crucial feature space for ductile bcc high-entropy
alloys (2022), Applied Physics Letters 121 (16), 161902
4.
+Y
Wang, YT Huang, +YX Liu, SP Feng,
MX Huang*, Thermal
instability of nanocrystalline Cu enables Cu-Cu direct bonding
in interconnects at low temperature (2022), Scripta Materialia
220, 114900
5.
+KP
Yu, SH Feng, D Chao, P Yu*, MX Huang*,
Improving anti-corrosion properties
of CoCrFeMnNi high entropy alloy by introducing Si into nonmetallic inclusion
(2022), Corrosion Science 208, 110616
6.
+LT
Liu, AWH Chin, P Yu, LLM Poon*,
MX Huang*,
Anti-pathogen stainless steel combating COVID-19 (2022),
Chemical Engineering Journal, 433, 13378
7.
+ZH
Cao,
+BN
Zhang, MX Huang*,
Comparing hydrogen embrittlement behaviors of two press
hardening steels: 2 GPa vs. 1.5 GPa grade (2022), Journal of
Materials Science & Technology 124, 109-115
8.
+S
Pan, JQ Zhang, BB He*, MX Huang*,
High strain gradient induced nanograin in a
CoCrNiVC medium entropy alloy with lamellar carbide (2022), Materials Science and
Engineering: A 852, 143692
9.
+Z
Wang, Q Lu,
+ZH
Cao, H Chen, MX Huang*,
JF Wang, Review on Hydrogen Embrittlement of Press-hardened
Steels for Automotive Applications (2022), Acta Metallurgica
Sinica (English Letters), 1-21
10.
+C
Hu, +S Pan, MX Huang*,
Strong and Tough Heterogeneous TWIP Steel Fabricated
by Warm Rolling (2022), Acta Metall Sin 58 (11), 1519-1526
11.
+CP
Huang, +C Hu, +YX Liu, Z Liang, MX Huang*,
Recent developments and
perspectives of advanced high-strength medium Mn steel: from material design to
failure mechanisms (2022), Materials Futures 1, 032001
12.
+S
Pan, YX Liu, BB He*,
MX Huang*,
Understanding Ceramic Particle-Stimulated Heterogeneous
Recrystallization in a Medium Entropy Alloy (2022),
Metallurgical and Materials Transactions A 53 (4), 1156-1163
13.
+Y
Ngiam,
+ZH
Cao, MX Huang*, Understanding hydrogen embrittlement in press-hardened
steel by coupling field and diffusion (2022), Materials
Science and Engineering A 834, 142523
14.
+S
Pan, XK Shang, BB He*,
MX Huang*, Revealing the tempering embrittlement in a
medium entropy alloy containing carbon atoms (2022), AIP
Advances 12 (1), 015304
2021
1.
Q. Lu, Q Lai, Z. Chai, X. Wei, X. Xiong, H. Yi,
MX Huang*, W Xu*, J Wang*, Revolutionizing car body manufacturing
using a unified steel metallurgy concept (2021), Science
advances 7 (49), eabk0176
2.
+Z
Wang, NA Xu, MX Huang*,
Phase transformation and carbon profile at the interface
between Al-Si coating and steel substrate in a press-hardened
steel (2021), Materialia, 101268
3.
#ZY
Liang, ZH Cao, J Lu, MX
Huang*, CC Tasan*, Influence of co-existing medium Mn and
dual phase steel microstructures on ductility and Lüders band
formation (2021), Acta Materialia, 117418
4.
#ZY
Liang, MX Huang*,
Effects of Crystal Orientation on Deformation Twinning and
Dislocation Slip in Single Crystal Micro-pillars of a
Twinning-Induced Plasticity Steel (2021), Metallurgical and
Materials Transactions A, 1-8
5.
Z Yang, F Jiang, Y Wang, Q Wang,
M Huang, Y Wang, C
Chen, F Zhang, Making composite steel higher strength and
higher ductility via introducing carbon diffusion strategy
(2021), Materials Research Letters 9 (9), 391-397
6.
R Chen, B Li, Y Li, X Wang, C Jiang*,
M Huang*,
Influences of particle fraction and characteristics on damage
tolerance of TiB2-reinforced steel matrix composites (2021),
Materials Science and Engineering: A 823, 141736
7.
H Zhang, M Sun*, Y Liu, D Ma, B Xu,
M.X. Huang*, D Li,
Y Li, Ultrafine-grained dual-phase maraging steel with high
strength and excellent cryogenic toughness (2021), Acta
Materialia, 116878
8.
#Y.Z.
Li, M.X. Huang*, A dislocation-based flow rule with succinct power-law
form suitable for crystal plasticity finite element
simulations (2021), International Journal of Plasticity 138,
102921
9.
+Z.
Wang, Z.H. Cao, JF Wang,
M.X. Huang*,
Improving the bending toughness of Al-Si coated press-hardened
steel by tailoring coating thickness (2021), Scripta
Materialia 192, 19-25
10.
J. Zhang, M.X. Huang*,
B. Sun, B. Zhang, R. Ding, C. Luo, W. Zeng, C. Zhang, Z. Yang,
S. van der Zwaag, H. Chen*, Critical role of Lüders banding in
hydrogen embrittlement susceptibility of medium Mn steels
(2021), Scripta Materialia 190, 32-37
11.
#Y.Z.
Li,
M. Wang,
M.X. Huang*,
In-situ measurement of plastic strain in martensite matrix
induced by austenite-to-martensite transformation (2021),
Materials Science and Engineering A, 811, 141061
12.
#M
Wang, HL Yu, Y Chen,
M.X. Huang*, Machine learning assisted screening of
non-rare-earth elements for Mg alloys with low stacking fault
energy, Computational Materials Science (2021) 196, 110544
13.
YZ Li,
M.X. Huang*, TiB 2-TiC Reinforced Martensitic Steel Fabricated by
Conventional Solidification (2021), Metallurgical and
Materials Transactions A 52 (6), 2144-2148
14.
+L.T.
Liu, Y.Z. Li, K.P. Yu, M.Y. Zhu, H. Jiang, P. Yu*,
M.X. Huang*, A
novel stainless steel with intensive silver nanoparticles
showing superior antibacterial property (2021), Materials
Research Letters 9 (6), 270-277
15.
R.D. Liu, #Y.Z. Li, L. Lin, C.P. Huang, Z.H. Cao,
M.X. Huang*, Strain rate sensitivity of a 1.5 GPa nanotwinned steel
(2021), Journal of Iron and Steel Research International, 1-5
16.
+C.
Huang, M.X. Huang*,
Effect of Processing Parameters on Mechanical Properties of
Deformed and Partitioned (D&P) Medium Mn Steels (2021), Metals
11 (2), 356
17.
R. Liu, Z. Liang*, L. Lin,
M.X. Huang*,
Dislocation Source and Pile-up in a Twinning-induced
Plasticity Steel at High-Cycle Fatigue (2021), Acta
Metallurgica Sinica (English Letters) 34 (2), 169-173
2020
1.
L. Liu+,
Qin Yu,
Z. Wang+,
Jon Ell,
M. X. Huang*,
Robert O. Ritchie*,
Making ultrastrong steel tough by grain-boundary delamination
(2020),
Science,
368, 1347-1352
2.
M. Wang+,
M.X. Huang*, Abnormal
TRIP effect on the work hardening behavior of a quenching and
partitioning steel at high strain rate (2020), Acta
Materialia, 188,
551-559
3.
Z.C. Luo+,
M.X. Huang*, The role of interstitial carbon
atoms on the strain-hardening rate of twinning-induced
plasticity steels (2020), Scripta Materialia, 178, 264-268
4.
Bochuan Li, Kang Xu, Ronghua Chen, Yizhuang Li, Xiaogang Wang,
Chao Jiang*,
M.X. Huang*, On the fatigue crack propagation mechanism
of a TiB2-reinforced high-modulus steel (2020), Composites
Part B,190, 107960,
5.
B.B.He#, M.X. Huang*, Martensite Enables the Formation of Complex
Nanotwins in a Medium Mn Steel. Metallurgical and Materials
Transactions A (2020).
https://doi.org/10.1007/s11661-020-05683-7
6.
Ronghua Chen, Bochuan Li,
Yizhuang Li, Zhicheng Liu, Xiangyun Long, Hongliang Yi,
Xiaogang Wang, Chao Jiang*,
M.X. Huang*, Revealing the fatigue crack initiation mechanism
of a TiB2-reinforced steel matrix composite, International
Journal of Fatigue (2020), 130, pp105276
7.
Chun-Te Wu, Hsiao-Tzu Chang,
Chien-Yu Wu, Shi-Wei Chen, Sih-Ying Huang,
Mingxin Huang,
Yeong-Tsuen Pan, Peta Bradbury, Joshua Chou, Hung-Wei Yen*,
Machine learning recommends affordable new Ti alloy with
bone-like modulus, Materials Today (2020), 34, 41-50
8.
Ho-Cheung Ho, Kwok-Fai Chung*,
M.X. Huang, David
A. Nethercot, Xiao Liu, Hao Jin, Guo-Dong Wang, Zhi-Hong Tian,
Mechanical properties of high strength S690 steel welded
sections through tensile tests on heat-treated coupons (2020),
Journal of Constructional Steel Research, 166, 105922.
9.
B.B.He*, S. Pan, M.X. Huang*, Extra work hardening in room-temperature
quenching and partitioningmedium Mn steel enabled by
intercritical annealing (2020), Materials Science &
Engineering A, 797, 140106.
10. Z. Wang+,
M.X. Huang*,
Optimising the strength-ductility-toughness combination in
ultra-high strength quenching and partitioning steels by
tailoring martensite matrix and retained austenite (2020),
International Journal of Plasticity, 134, 102851
11.M.Wang+,
X.Y.Xu+,
H.Y.Wang, L.H.He,
M.X. Huang*,
Evolution of dislocation and twin densities in a Mg alloy at
quasi-static and high strain rates (2020),
Acta Materialia, 201, 102-113
2019
1.
Li, Y.Z.+, Luo, Z.C.+, Liang, Z.Y.+,
Huang, M.X.*,
Effect of carbon on strain-rate and temperature sensitivity of
twinning-induced plasticity steels: Modeling and experiments
(2019) Acta Materialia, 165, pp. 278-293.
2.
Hu, B, He, BB, Cheng, GJ, Yen, HW,
Huang, M.X., Luo
HW*, Super-high-strength and formable medium Mn steel
manufactured by warm rolling process (2019) Acta Materialia
174, 131-141
3.
Nimaga OG+, He, BB#, Cheng, GJ, Yen, HW,
Huang, M.X.*,
Revealing orientation-dependent martensitic transformation in
a medium Mn steel by micropillar compression (2019),
International Journal of Plasticity, 123, 165-177
4.
Liang, Z.Y.+, Luo, Z.C.+,
Huang, M.X.*,
Temperature dependence of strengthening mechanisms in a
twinning-induced plasticity steel (2019) International Journal
of Plasticity, 116,
pp. 192-202.
5.
He, S.H.+,
He, B.B.
#, Zhu, K.Y.,
Ding, R., Chen, H.,
Huang, M.X.*,
Revealing the role of dislocations on the stability of
retained austenite in a tempered bainite (2019) Scripta
Materialia, 168, pp. 23-27.
6.
He, BB#, Wang, M+, Huang, M.X.*,Improving
Tensile Properties of Room-Temperature Quenching and
Partitioning Steel by Dislocation Engineering (2019) Metallurgical and Materials Transactions A,
50,
pp.
4021-4026
7.
X.G. Wang, C.H. Liu, B.B. He#,
C. Jiang*,
Huang, M.X.*,
Microscopic strain partitioning in Lüders band of an
ultrafine-grained medium Mn steel, Materials Science and
Engineering A (2019) 761, pp. 138050,
8.
He, B.B.
#, Wang, M.+,
Huang,
M.X.*,
Resetting the austenite stability in a medium Mn steel
via dislocation engineering
(2019) Metallurgical and Materials Transactions A, 50
(6), pp. 2971-2977.
9.
Li, Y.Z.+,
Huang, M.X.*,
Carbon-dislocation interaction-induced abnormal
strain-rate sensitivity in twinning-induced plasticity steels
(2019) Metallurgical and Materials Transactions A, 50 (6), pp
2570–2575.
10.
Wang, X.G., He, B.B.
#, Liu, C.H., Jiang*, C.,
Huang, M.X.*
Extraordinary Lüders-strain-rate in medium Mn steels (2019)
Materialia , 6, pp. 100288
11.
Liu+,
L., He#,
B.B.,
Huang*,
M.X.,
Engineering heterogeneous multi-phase microstructure by
austenite reverted transformation coupled with ferrite
transformation (2019) JOM, 71 (4), pp 1322–1328
12.
Li, Y.Z.+,
Huang, M.X.*, Rationalizing the Grain Size
Dependence of Strength and Strain-Rate Sensitivity of
Nanocrystalline fcc metals (2019) , Metallurgical and
Materials Transactions A 50, pp 1943–1948
13.
He, B.B. #, Wang, M.+, Liu, L.+,
Huang, M.X.*,
High-strength medium Mn quenching and partitioning steel with
low yield ratio (2019) Materials Science and Technology, DOI:
10.1080/02670836.2019.1566046.
14.
Liu, L.+., He, B.B. #,
Huang, M.X.*
Processing–Microstructure Relation of Deformed and
Partitioned (D&P) Steels (2019), Metals, 9, pp. 695
15.
Luo, Z.C.+, Liu, R.D., Wang, X., Yen, H.W.*,
Huang, M.X.*,
The Role of Plastic Strain on the Delayed Fracture Behavior of
Twinning-Induced Plasticity Steels (2019) Metallurgical and
Materials Transactions A, 50 (3), pp. 1437-1447.
16.
Wang, M.+, He, B.B. #,
Huang, M.X.*,
Strong and ductile Mg alloys developed by dislocation
engineering (2019) Journal of Materials Science and
Technology, 35 (3), pp. 394-395.
17.
Wang, B., Yi, H*.,
Wang, G., Luo, Z.,
Huang, M.X.*., Reconstruction of 3D Morphology
of TiB 2 in In Situ Fe Matrix (2019) Acta Metallurgica Sinica,
55 (1), pp. 133-140.
18.
Wang, Z. +,
Li, Y.Z.+, He, B. B. #,
Huang, M.X.*,
Research Progress on Second Phase Strengthening and Toughening
of Advanced Steels (2019) Materials China, 38 (3) p.p. 224-230
2018
1.
Li, Y.Z.+,
Huang, M.X.*, Revealing the interfacial
plasticity and shear strength of a TiB2-strengthened
high-modulus low-density steel (2018) Journal of the Mechanics
and Physics of Solids, 121, pp. 313-327.
2.
Wang, Z.+, Luo, Z.C.+,
Huang, M.X.*,
Revealing hydrogen-induced delayed fracture in
ferrite-containing quenching and partitioning steels (2018)
Materialia, 4, pp. 260-267.
3.
Luo, Z.C.+,
Huang, M.X.*, Effect of Aluminum and Grain Size
on the Fracture Behavior of Twinning-Induced Plasticity Steels
(2018) Metallurgical and Materials Transactions B 49 (5), pp.
2145-2151.
4.
Luo, Z.C.+,
Huang, M.X.*, Revealing the Fracture Mechanism
of Twinning-Induced Plasticity Steels (2018) Steel Research
International, 89 (9), 1700433.
5.
He, B.B.+, Liu, L.+,
Huang, M.X.*,
Room-Temperature Quenching and Partitioning Steel, (2018)
Metallurgical and Materials Transactions A, 49 (8), pp.
3167-3172.
6.
He, B.B.+,
Huang, M.X.*, Strong and ductile medium Mn
steel without transformation-induced plasticity effect (2018)
Materials Research Letters, 6 (7), pp. 365-371.
7.
Zhang, M., Gourgues-Lorenzon, A.-F., Busso, E.P., Luo, H.,
Huang, M.X.,
Recrystallisation-assisted creep of an austenitic Fe-Ni alloy
under low stresses after hot deformation (2018) Acta
Materialia, 153, pp. 23-34.
8.
Liu, L.+, He, B.B.+,
Huang, M.X.*,The
Role of Transformation-Induced Plasticity in the Development
of Advanced High Strength Steels (2018) Advanced Engineering
Materials, 20 (6), 1701083.
9.
He, B.B.+, Liang, Z.Y.+,
Huang, M.X.*,
Nanoindentation investigation on the initiation of yield point
phenomenon in a medium Mn steel (2018) Scripta Materialia,
150, pp. 134-138.
10.
Liu, L.+, He, B.B.+, Cheng, G.J., Yen,
H.W., Huang, M.X.*,
Optimum properties of quenching and partitioning steels
achieved by balancing fraction and stability of retained
austenite (2018) Scripta Materialia, 150, pp. 1-6.
11.
Luo, Z.C.+, Liu, R.D., Wang, X.,
Huang, M.X.*,
The effect of deformation twins on the quasi-cleavage crack
propagation in twinning-induced plasticity steels (2018) Acta
Materialia, 150, pp. 59-68.
12.
He, B.B.+, Huang, B.M., He, S.H.+, Qi,
Y., Yen, H.W., Huang, M.X.*, Increasing yield strength of medium Mn
steel by engineering multiple strengthening defects (2018)
Materials Science and Engineering A, 724, pp. 11-16.
13.
He, B.B.+,
Huang, M.X.*, Simultaneous Increase of Both
Strength and Ductility of Medium Mn Transformation-Induced
Plasticity Steel by Vanadium Alloying (2018) Metallurgical and
Materials Transactions A, 49 (5), pp. 1433-1438.
14.
He, S.H.+, He, B.B.+, Zhu, K.Y.,
Huang, M.X.*,
Evolution of dislocation density in bainitic steel: Modeling
and experiments (2018) Acta Materialia, 149, pp. 46-56.
15.
Wang, X., Liu, L.+, Liu, R.D.,
Huang, M.X.*,
Benefits of Intercritical Annealing in Quenching and
Partitioning Steel (2018) Metallurgical and Materials
Transactions A, 49 (5), pp. 1460-1464.
16.
Zhou, P.+, Liang, Z.Y.+,
Huang, M.X.*,
Microstructural evolution of a nanotwinned steel under
extremely high-strain-rate deformation (2018) Acta Materialia,
149, pp. 407-415.
17.
Ding, R., Dai, Z.,
Huang, M.X., Yang, Z., Zhang, C., Chen, H., Effect of
pre-existed austenite on austenite reversion and mechanical
behavior of an Fe-0.2C-8Mn-2Al medium Mn steel (2018) Acta
Materialia, 147, pp. 59-69.
18.
Huang, M.X.*,
He, B.B.+, Alloy design by dislocation engineering
(2018) Journal of Materials Science and Technology, 34 (3),
pp. 417-420.
19.
Luo, Z.C.+,
Huang, M.X.*, Revisit the role of deformation
twins on the work-hardening behaviour of twinning-induced
plasticity steels (2018) Scripta Materialia, 142, pp. 28-31.
2017
1.
He, B.B.+, Hu, B., Yen, H.W., Cheng, G.J., Wang, Z.K., Luo,
H.W.*, Huang, M.X.*, High dislocation density-induced large ductility in
deformed and partitioned steels (2017)
Science, 357 (6355), pp. 1029-1032.
2.
Zhu, K., Mager, C.,
Huang, M.X.*, Effect of substitution of Si by
Al on the microstructure and mechanical properties of bainitic
transformation-induced plasticity steels (2017) Journal of
Materials Science and Technology, 33 (12), pp. 1475-1486.
3.
He, B.B+, Xu, W.,
Huang, M.X.*,
Effect of boron on bainitic transformation kinetics after
ausforming in low carbon steels (2017) Journal of Materials
Science and Technology, 33 (12), pp. 1494-1503.
4.
Wang, X.G.#, Huang,
M.X.*,Temperature dependence of Lüders strain
and its correlation with martensitic transformation in a
medium Mn transformation-induced plasticity steel (2017)
Journal of Iron and Steel Research International, 24 (11), pp.
1073-1077.
5.
He, S.H.+, He, B.B.+, Zhu, K.Y.,
Huang, M.X.*,
On the correlation among dislocation density, lath thickness
and yield stress of bainite (2017) Acta Materialia, 135, pp.
382-389.
6.
Nimaga, O.G.+, Cheng, G.J., Yen, H.W.,
Huang, M.X.*,
Large strain burst induced by martensitic transformation in
austenitic micropillars (2017) Scripta Materialia, 137, pp.
64-68.
7.
Chen, Z., Jian, Z., Li, W., Chang, Y., Ge, B., Hanus, R.,
Yang, J., Chen, Y., Huang, M.X., Snyder, G.J., Pei, Y., Lattice Dislocations Enhancing
Thermoelectric PbTe in Addition to Band Convergence (2017)
Advanced Materials, 29 (23), 1606768.
8.
Zhu, K.*, Magar, C.,
Huang, M.X.*,
Abnormal relationship between Ms temperature and prior
austenite grain size in Al-alloyed steels (2017) Scripta
Materialia, 134, pp. 11-14.
9.
Liang, Z.Y.+, De Hosson, J.T.M.,
Huang, M.X.*,
Size effect on deformation twinning in face-centred cubic
single crystals: Experiments and modelling (2017) Acta
Materialia, 129, pp. 1-10.
10.
He, S.H.+, Zhu, K.Y.,
Huang, M.X.*,
A unified dislocation-based model for ultrafine- and
fine-grained face-centered cubic and body-centered cubic
metals (2017) Computational Materials Science, 131, pp. 1-10.
11.
Luo, Z.C.+, He, B.B.+, Li, Y.Z.+,
Huang, M.X.*,
Growth Mechanism of Primary and Eutectic TiB2 Particles in a
Hypereutectic Steel Matrix Composite (2017) Metallurgical and
Materials Transactions A, 48 (4), pp. 1981-1989.
12.
He, B.B.+,
Huang, M.X.*, Revealing heterogeneous C
partitioning in a medium Mn steel by nanoindentation (2017)
Materials Science and Technology, 33 (5), pp. 552-558.
13.
Wang, X.G.#, Wang, L.,
Huang, M.X.*, Kinematic and thermal
characteristics of Lüders and Portevin-Le Châtelier bands in a
medium Mn transformation-induced plasticity steel (2017) Acta
Materialia, 124, pp. 17-29.
14.
Liang, Z.Y.+, Li, Y.Z.+, Wang, X., Liu,
R.D., Huang, M.X.*,
Revealing the individual hardening effects of twins,
dislocations, grain boundaries and solid solution in a
twinning-induced plasticity steel (2017) Materials Science
Forum, 879, pp. 2489-2494.
2016 and before
1.
Wang, X.G.#, Wang, L.,
Huang, M.X.*, In-situ evaluation of Lüders band
associated with martensitic transformation in a medium Mn
transformation-induced plasticity steel (2016) Materials
Science and Engineering A, 674, pp. 59-63.
2.
He, B.B.+,
Huang, M.X.*, On the Mechanical Stability of
Austenite Matrix After Martensite Formation in a Medium Mn
Steel (2016) Metallurgical and Materials Transactions A, 47
(7), pp. 3346-3353.
3.
Zhou, P.+, Liang, Z.Y.+, Liu, R.D.,
Huang, M.X.*,
Evolution of dislocations and twins in a strong and ductile
nanotwinned steel, (2016) Acta Materialia, 111, pp. 96-107.
4.
An, X.H., Lin, Q.Y., Sha, G.,
Huang, M.X.,
Ringer, S.P., Zhu, Y.T., Liao, X.Z., Microstructural evolution
and phase transformation in twinning-induced plasticity steel
induced by high-pressure torsion (2016) Acta Materialia, 109,
pp. 300-313.
5.
He, B.B.+, Luo, H.W.*,
Huang, M.X.*,
Experimental investigation on a novel medium Mn steel
combining transformation-induced plasticity and
twinning-induced plasticity effects (2016) International
Journal of Plasticity, 78, pp. 173-186.
6.
Liang, Z.Y.+, Li, Y.Z.+,
Huang, M.X.*,
The respective hardening contributions of dislocations and
twins to the flow stress of a twinning-induced plasticity
steel (2016) Scripta Materialia, 112, pp. 28-31.
7.
Bouaziz, O., Masse, J.P., Petitgand, G.,
Huang, M.X.*,
A Novel Strong and Ductile TWIP/Martensite Steel Composite
(2016) Advanced Engineering Materials, 18 (1), pp. 56-59.
8.
Li, Y., Li, S., Huang,
M.X., Li, Z., Analytical solution for Coble creep in
polycrystalline materials under biaxial loading (2015)
Mechanics of Materials, 91 (P1), pp. 290-294.
9.
Liu, G.*, Wang, K., He, B.B+,
Huang, M.X.*, Yuan, S., Mechanism of saturated flow
stress during hot tensile deformation of a TA15 Ti alloy
(2015) Materials and Design, 86, pp. 146-151.
10.
Liang, Z.Y.+,
Huang, M.X.*,
Deformation twinning in small-sized face-centred cubic single
crystals: Experiments and modelling (2015) Journal of the
Mechanics and Physics of Solids, 85, pp. 128-142.
11.
Zhou, P.+,
Huang, M.X.*, On the Mechanisms of Different
Work-Hardening Stages in Twinning-Induced Plasticity Steels
(2015) Metallurgical and Materials Transactions A, 46 (11),
pp. 5080-5090.
12.
Wang, X., Liang, Z.Y.+, Liu, R.D.,
Huang, M.X.*,
Evolution of dislocations and twins in high cycle fatigue of a
twinning-induced plasticity steel (2015) Materials Science and
Engineering A, 647, pp. 249-255.
13.
Luo, H.*, Dong, H.,
Huang, M.X.*,
Effect of intercritical annealing on the Lüders strains of
medium Mn transformation-induced plasticity steels (2015)
Materials and Design, 83, pp. 42-48.
14.
Liang, Z.Y.+, Wang, X., Huang, W.,
Huang, M.X.*,
Strain rate sensitivity and evolution of dislocations and
twins in a twinning-induced plasticity steel (2015) Acta
Materialia, 88, pp. 170-179.
15.
Liang, Z.Y.+, Huang, W.,
Huang, M.X.*,
Suppression of dislocations at high strain rate deformation in
a twinning-induced plasticity steel (2015) Materials Science
and Engineering A, 628, pp. 84-88.
16.
He, B.B.+,
Huang, M.X.*, Revealing the Intrinsic
Nanohardness of Lath Martensite in Low Carbon Steel (2015)
Metallurgical and Materials Transactions A, 46 (2), pp.
688-694.
17.
Huang, M.X.*,
Liang, Z.Y.+, Luo, Z.C.+, Critical
assessment 15: Science of deformation and failure mechanisms
in twinning induced plasticity steels (2015) Materials Science
and Technology, 31 (11), pp. 1265-1270.
18.
He, B.B.+, Xu, W.,
Huang, M.X.*,
Effect of ausforming temperature and strain on the bainitic
transformation kinetics of a low carbon boron steel, (2015)
Philosophical Magazine, 95 (11), pp. 1150-1163.
19.
Huang, M.X.*,
He, B.B.+, Wang, X., Yi, H.L., Interfacial
plasticity of a TiB2-reinforced steel matrix composite
fabricated by eutectic solidification (2015) Scripta
Materialia, 99, pp. 13-16.
20.
He, B.B.+, Xu, W.,
Huang, M.X.*,
Increase of martensite start temperature after small
deformation of austenite (2014) Materials Science and
Engineering A, 609, pp. 141-146.
21.
He, B.B.+, Zhu, K.,
Huang, M.X.*,
On the nanoindentation behaviour of complex ferritic phases
(2014) Philosophical Magazine Letters, 94 (7), pp. 439-446.
22.
Yuan, G.W.+,
Huang, M.X.*, Supper strong nanostructured TWIP
steels for automotive applications (2014) Progress in Natural
Science: Materials International, 24 (1), pp. 50-55.
23.
Wu, S.Z.#, Liang, Z.Y.+, He, B.B.+,
Huang, M.X.*,
Martensitic transformation in micron-sized Fcc single crystals
(2014) Metallurgical and Materials Transactions A, 45 (11),
pp. 4731-4736.
24.
He, B.B.+,
Huang, M.X.*, Ngan, A.H.W., Van Der Zwaag, S.,
Effect of free surface on the stability of individual retained
austenite grains in a duplex stainless steel (2014)
Metallurgical and Materials Transactions A, 45 (11), pp.
4875-4881.
25.
Bouaziz, O., Zurob, H.,
Huang, M.X.*, Driving force and logic of
development of advanced high strength steels for automotive
applications (2013) Steel Research International, 84 (10), pp.
937-947.
26.
He, B.B.+,
Huang, M.X.*, Liang, Z.Y.+, Ngan,
A.H.W., Luo, H.W., Shi, J., Cao, W.Q., Dong, H.,
Nanoindentation investigation on the mechanical stability of
individual austenite grains in a medium-Mn
transformation-induced plasticity steel (2013) Scripta
Materialia, 69 (3), pp. 215-218.
27.
Xiong, X.C.*, Chen, B.,
Huang, M.X.*,
Wang, J.F., Wang, L., The effect of morphology on the
stability of retained austenite in a quenched and partitioned
steel, (2013) Scripta Materialia, 68 (5), pp. 321-324.
Top 3 most cited articles published in
this journal between 2013-2018.
28.
Barbier, D., Huang,
M.X.*, Bouaziz, O., A novel eutectic Fe-15 wt.%
Ti alloy with an ultrafine lamellar structure for high
temperature applications (2013) Intermetallics, 35, pp. 41-44.
29.
Wu, S.Z.#, Yen, H.W.,
Huang, M.X.*, Ngan, A.H.W., Deformation
twinning in submicron and micron pillars of twinning-induced
plasticity steel (2012) Scripta Materialia, 67 (7-8), pp.
641-644.
30.
Yen, H.-W., Huang, M.X.,
Scott, C.P., Yang, J.-R., Interactions between
deformation-induced defects and carbides in a
vanadium-containing TWIP steel (2012) Scripta Materialia, 66
(12), pp. 1018-1023.
31.
Huang, M.*,
Pineau, A., Bouaziz, O., Vu, T.-D., Recrystallization induced
plasticity in austenite and ferrite (2012) Materials Science
and Engineering A, 541, pp. 196-198.
32.
Rivera-Díaz-Del-Castillo, P.E.J.,
Huang, M.X.,
Dislocation annihilation in plastic deformation: I. Multiscale
irreversible thermodynamics (2012) Acta Materialia, 60 (6-7),
pp. 2606-2614.
33.
Saimoto, S., Huang,
M.X., New constitutive analysis of microstructural
evolution: Hot compression of gamma iron, (2012) Materials
Science Forum, 706-709, pp. 2284-2289.
34.
Huang, M*.,
Bouaziz, O., Barbier, D., Allain, S., Modelling the effect of
carbon on deformation behaviour of twinning induced plasticity
steels (2011) Journal of Materials Science, 46 (23), pp.
7410-7414.
35.
Huang, M*.,
Perlade, A., Rivera-Diaz-Del-Castillo, P.E.J., Predicting the
evolution of dislocation density following hot deformation
(2011) Philosophical Magazine Letters, 91 (6), pp. 387-393.
36.
Bouaziz, O., Zurob, H., Chehab, B., Embury, J.D., Allain, S.,
Huang, M*.,
Effect of chemical composition on work hardening of Fe-Mn-C
TWIP steels (2011) Materials Science and Technology, 27 (3),
pp. 707-709.
37.
Huang, M*.,
Bouaziz, O., Der Zwaag, S.V., Modelling the strongest grain
size in nanocrystalline FCC metals (2011) Materials Letters,
65 (19-20) pp. 3128-3130.
38.
Bouaziz, O., Barges, P., Maugis, P.,
Huang, M.*,
A nanometre-sized porous phase in iron-carbon-boron system
(2010) Materials Letters, 64 (22), pp. 2559-2561. 2,
39.
Zhu, K., Bouaziz, O., Oberbillig, C.,
Huang, M.*,
An approach to define the effective lath size controlling
yield strength of bainite (2010) Materials Science and
Engineering A, 527 (24-25), pp. 6614-6619.
40.
Huang, M.*,
Rivera-Díaz-del-Castillo, P.E.J., Bouaziz, O., van der Zwaag,
S., Modelling the strength of ultrafine-grained and
nanocrystalline fcc metals (2009) Scripta Materialia, 61 (12),
pp. 1113-1116.
41.
Huang, M.*,
Rivera-Díaz-Del-Castillo, P.E.J., Bouaziz, O., Van Der Zwaag,
S., Modelling plastic deformation of metals over a wide range
of strain rates using irreversible thermodynamics (2009) IOP
Conference Series: Materials Science and Engineering, 012006.
42.
Huang, M.*,
Rivera-Díaz-del-Castillo, P.E.J., Bouaziz, O., van der Zwaag,
S., A constitutive model for high strain rate deformation in
FCC metals based on irreversible thermodynamics (2009)
Mechanics of Materials, 41 (9), pp. 982-988.
43.
Huang, M.*,
Rivera-Díaz-del-Castillo, P.E.J., Perlade, A., Bouaziz, O.,
van der Zwaag, S., Predicting the stress-strain behaviour of
carbon steels under hot working conditions: An irreversible
thermodynamics model (2009) Scripta Materialia, 61 (6), pp.
648-651.
44.
Huang, M.*,
Rivera-Díaz-del-Castillo, P.E.J., Bouaziz, O., Van Der Zwaag,
S., Modelling strength and ductility of ultrafine grained BCC
and FCC alloys using irreversible thermodynamics (2009)
Materials Science and Technology, 25 (7), pp. 833-839.
45.
Huang, M.*,
Rivera-Díaz-del-Castillo, P.E.J., Bouaziz, O., Zwaag, S.v.d.,
Modelling the steady state deformation stress under various
deformation conditions using a single irreversible
thermodynamics based formulation (2009) Acta Materialia, 57
(12), pp. 3431-3438.
46.
Huang, M.*,
Rivera-Díaz-Del-Castillo, P.E.J., Bouaziz, O., Van Der Zwaag,
S., Irreversible thermodynamics modelling of plastic
deformation of metals (2008) Materials Science and Technology,
24 (4), pp. 495-500.
47.
Huang, M.*,
Del Castillo, P.E.J.R.D., Van Der Zwaag, S., Modelling dynamic
recovery and recrystallization of metals by a new
non-equilibrium thermodynamics approach (2007) Materials
Science Forum, 558-559 (PART 1), pp. 517-522.
48.
Huang, M.*,
Del Castillo, P.E.J.R.D., Van Der Zwaag, S., Modelling
deformation structures in metals based on an entropic analysis
(2007) Materials Science Forum, 550, pp. 571-576.
49.
Huang, M.*,
Del Castillo, P.E.J.R.D., Van Der Zwaag, S., Modelling steady
state deformation of fee metals by non-equilibrium
thermodynamics (2007) Materials Science and Technology, 23
(9), pp. 1105-1108.
50.
Huang, M.,
Díaz Del Castillo, P.E.J.R., Li, Z., Edge dislocation dipole
emission from a blunt crack tip and its morphological effects
(2006) Scripta Materialia, 54 , pp. 649-653.
51.
Huang, M.,
Li, Z., The ductile versus brittle fracture behavior assessed
by the competition between dislocation emission and cleavage
at blunt crack tip (2004) Key Engineering Materials, 274-276
(I), pp. 135-140.
52.
Huang, M.,
Li, Z., Dislocation emission criterion from a blunt crack tip
(2004) Journal of the Mechanics and Physics of Solids, 52 (9),
pp. 1991-2003.
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