Follow
Ziyong Hou
Title
Cited by
Cited by
Year
A novel design: Partitioning achieved by quenching and tempering (Q–T & P) in an aluminium-added low-density steel
HL Yi, P Chen, ZY Hou, N Hong, HL Cai, YB Xu, D Wu, GD Wang
Scripta Materialia 68 (6), 370-374, 2013
952013
Designing against phase and property heterogeneities in additively manufactured titanium alloys
J Zhang, Y Liu, G Sha, S Jin, Z Hou, M Bayat, N Yang, Q Tan, Y Yin, S Liu, ...
Nature Communications. 13 (4660), 2022
632022
Acceleration of spheroidization in eutectoid steels by the addition of aluminum
HL Yi, ZY Hou, YB Xu, D Wu, GD Wang
Scripta Materialia 67 (7-8), 645-648, 2012
562012
Ultrauniform, strong, and ductile 3D-printed titanium alloy through bifunctional alloy design
J Zhang, MJ Bermingham, J Otte, Y Liu, Z Hou, N Yang, Y Yin, M Bayat, ...
Science 383 (6683), 639-645, 2024
412024
Microstructure of martensite in Fe–C–Cr and its implications for modelling of carbide precipitation during tempering
Z Hou, P Hedström, Y Xu, W Di, J Odqvist
ISIJ International 54 (11), 2649-2656, 2014
412014
Precipitation of multiple carbides in martensitic CrMoV steels-experimental analysis and exploration of alloying strategy through thermodynamic calculations
T Zhou, RP Babu, Z Hou, J Odqvist, P Hedström
Materialia 9, 100630, 2020
392020
Quantitative modeling and experimental verification of carbide precipitation in a martensitic Fe–0.16 wt% C–4.0 wt% Cr alloy
Z Hou, P Hedström, Q Chen, Y Xu, D Wu, J Odqvist
Calphad 53, 39-48, 2016
362016
An experimental and theoretical study of duplex fcc+ hcp cobalt based entropic alloys
W Wang, Z Hou, R Lizárraga, Y Tian, RP Babu, E Holmström, H Mao, ...
Acta Materialia 176, 11-18, 2019
352019
Microstructure evolution during tempering of martensitic Fe–C–Cr alloys at 700 C
Z Hou, RP Babu, P Hedström, J Odqvist
Journal of Materials Science 53 (9), 6939-6950, 2018
282018
Early stages of cementite precipitation during tempering of 1C-1Cr martensitic steel
Z Hou, P Babu, P Hedström, J Odqvist
Journal of Materials Science, 2019
202019
A comparative study of microstructure and magnetic properties of a NiFe cemented carbide: Influence of carbon content
D Linder, Z Hou, R Xie, P Hedström, V Ström, E Holmström, A Borgenstam
International Journal of Refractory Metals and Hard Materials 80, 181-187, 2019
192019
Effects of austenitizing temperature on tensile and impact properties of a martensitic stainless steel containing metastable retained austenite
B Deng, D Yang, G Wang, Z Hou, H Yi
Materials 14 (4), 1000, 2021
162021
In-situ real time observation of martensite transformation in duplex fcc+ hcp cobalt based entropic alloys
W Wang, W Mu, Z Hou, S Sukenaga, H Shibata, H Larsson, H Mao
Materialia 14, 100928, 2020
162020
On coarsening of cementite during tempering of martensitic steels
Z Hou, RP Babu, P Hedström, J Odqvist
Materials Science and Technology 36 (7), 887-893, 2020
162020
On the role of transmission electron microscopy for precipitation analysis in metallic materials
T Zhou, RP Babu, Z Hou, P Hedström
Critical Reviews in Solid State and Materials Sciences 47 (3), 388-414, 2022
132022
Low density steel 1· 2C–1· 5Cr–5Al designed for bearings
HL Yi, HL Cai, ZY Hou, JC Pang, D Wu, GD Wang
Materials Science and Technology 30 (9), 1045-1049, 2014
132014
Toughness improvement in a novel martensitic stainless steel achieved by quenching–tempering and partitioning
B Deng, ZY Hou, GD Wang, HL Yi
Metallurgical and Materials Transactions A 52, 4852-4864, 2021
112021
Effect of carbon content on the Curie temperature of WC-NiFe cemented carbides
Z Hou, D Linder, P Hedström, A Borgenstam, E Holmström, V Ström
International Journal of Refractory Metals and Hard Materials 78, 27-31, 2019
112019
Effect of Holding Temperature on Microstructure and Mechanical Properties of High‐Strength Multiphase Steel
ZY Hou, D Wu, SX Zheng, XL Yang, Z Li, YB Xu
steel research international 87 (9), 1203-1212, 2016
112016
Recrystallization of ultra-low carbon steel sheet after ultra-rapid annealing
Z Hou
Acta Metall Sin 48 (9), 1057-1066, 2012
92012
The system can't perform the operation now. Try again later.
Articles 1–20