Journal Publications (185 in total)

(^*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

2025

1. ⁺Y Ngiam, Y Chen*, MX Huang*, First-principle study of hydrogen solubility in BCC Iron, Computational Materials Science 249, (2025)113649.

2. ^#C Hu, ⁺Y X Liu, BB He*, MX Huang*, Role of intermetallic networks in developing high-performance austenitic steel, Acta Materialia 283, (2025)120494.

3. ^#ZH Cao, ⁺Y Ngiam, ^#CP Huang, LH He, MX Huang*, On the hydrogen embrittlement mechanism of 2 GPa-grade press-hardened steel at various strain rates: Experiments and modeling, Journal of Materials Science & Technology(2025) 224, 142-158.

4. ^#KP Yu, ⁺XL Chen, ⁺KQ Ye, MX Huang*, Counterintuitive passivation role of manganese in stainless steel under high potential in neutral NaCl solution, Corrosion Science, (2025)112756.

5. ^#CP Huang, ^#M Wang, KY Zhu, A Perlade, MX Huang*, Intrinsic High-Strain-Rate Softening in a High-Strength Quenching and Partitioning Steel, Metallurgical and Materials Transactions A, (2025)1-8.

6. L Liu, JZ He, LJ Li, ZY Liang, ^#ZW Peng, JX Gao, MX Huang*, ZC Luo, Making ultrahigh-strength dual-phase steels tough: Experiment and simulation, Journal of Materials Science & Technology, (2025)226, 302-316.

7. ^#Y Wang, ⁺YR Bian, MX Huang*, Kirkendall void inhibition through the elimination of diffusivity mismatch assisted by nanocrystalline metal, Acta Materialia, (2025)120938.

8. ^#CP Huang, ⁺S Pan, ^#C Hu, ⁺YX Liu, BB He, MX Huang*, Dual role of dislocations in enhancing strength-ductility synergy in a TRIP-assisted steel, Materials Science and Engineering(2025): A, 148003.

9. ⁺JX Ma, ⁺XL Chen, MX Huang*, Understanding the antibacterial mechanism of metal surfaces, Acta Biomaterialia(2025) 192, 501-512.

2024

1. ^#L R Dong, J Zhang, ^#Y Z Li, Y X Gao, ^#M Wang, MX Huang*, J S Wang* and K X Chen*, Borrowed dislocations for ductility in ceramics, Science, 385(6707), 422–427.

2. L Liu, J He, L Li*, Z Liang, Z Peng, J Gao, MX Huang* , Z Luo*, Making ultrahigh-strength dual-phase steels tough: experiment and simulation, Journal of Materials Science & Technology, 2024.

3. ^#Z Cao, ⁺Y. Ngiam, ^#C Huang, L He, MX Huang* , On the hydrogen embrittlement mechanism of 2 GPa-grade press-hardened steel at various strain rates: Experiments and modeling, Journal of Material Science and Technology, 2024.

4. ^# H Jiang, B He, MX Huang*, Understanding the tensile ductility of a novel low-activation BCC high-entropy alloy deformed at intermediate temperature, Scripta Materialia, 252,(2024) 116269.

5. MH Huang, LY Wang* , CC Wang, YZ Li, JL Wang, JH Yuan, MX Huang ,W Xu*, Optimizing crack initiation energy in Austenitic Steel via controlled martensitic transformation, Journal of Materials Science & Technology(2024), 198, (2024) 231-242.

6. ^#KP Yu, ^#H Jiang，^#XY Xu，MX Huang* , Design of corrosion-resistant alloys for preventing oxidation-induced nanoscale Cr-depletion by inclusion engineering.Materials & Design(2024) 244, 113146.

7. ⁺DH Du, Y Zhang，ZY Geng，BB He*，MX Huang* , Improving the Hydrogen Embrittlement Property of 1.8 GPa Press-Hardened Steel by Controlling the Prior Austenite Grain Size.Metallurgical and Materials Transactions A (2024), 1-12.

8. T Jiang，BB He*，JJ Sun，XK Shang，H Yu，LJ Xu，K Pan，SZ Wei，YN Liu^#Y Liu，MX Huang , Auto-tempering-induced nanoprecipitate strengthening of ultrastrong low-alloy high-carbon steel.Materials Characterization(2024), 114059.

9. G Qin，Q Yu，^#KP Yu，Y Fang，RR Chen，ZY Liang*，MX Huang* , Strengthening complex concentrated alloy without ductility loss by 3D printed high-density coherent nanoparticles.International Journal of Plasticity（2024） 177, 103987.

10. ⁺JX Ma，MX Huang* , A quantitative electrodiffusion model of antibacterial heavy metals: Ion influx through hydrophilic pores.Chemical Engineering Journal（2024） 489, 151290.

11. WP Li，BB He，YH Su，HW Yen，MX Huang ，C Jiang*， Revealing the roles of martensitic transformation in affecting the fatigue resistance of austenitic stainless steel with heterogeneous grain size distribution.Scripta Materialia（2024） 246, 116029.

12. CH Liu，^#C Hu，XG Wang*，MX Huang* ，C Jiang， A new perspective on Lüders band formation in medium-Mn steels based on Lüders-strain-rate and dislocation evolution.Materials Science and Engineering: A (2024) 901, 146553.

13. L Liu，LJ Li*，JZ He，ZY Liang，^#ZW Peng，JX Gao，ZC Luo，MX Huang* ，C Jiang， The unexpected low fracture toughness of dual-phase steels caused by ferrite/martensite interface decohesion.Scripta Materialia（2024） 244, 116030.

14. LK Huang，F Liu*，MX Huang* ， Accelerating bainite transformation by concurrent pearlite formation in a medium Mn steel: Experiments and modelling.Journal of Materials Science & Technology（2024） 176, 211-223.

15. ^#XY Xu，^#CP Huang，HY Wang，YZ Li*，MX Huang*， Rate-dependent transition of dislocation mechanisms in a magnesium alloy.Acta Materialia(2024) 263, 119474.

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.

Journal Publications (185 in total)

(*corresponding author; +student of Prof. Huang; #postdoc/RA of Prof. Huang)

(^*corresponding author; ⁺student of Prof. Huang; ^#postdoc/RA of Prof. Huang)