2026 Kewei Gao: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	47	11242	10861	3114	3101	218	6927

Overview

Kewei Gao is affiliated with the University of Science and Technology Beijing in China. Their research primarily focuses on materials science and engineering, with a significant emphasis on the intersection of these fields.

The main fields of study in Kewei Gao's research include:

Materials Science
Engineering

Within these broader areas, their subfields of specialization are:

Materials Chemistry
Mechanical Engineering
Metals and Alloys
Mechanics of Materials
Aerospace Engineering

The key topics addressed in their work comprise:

Hydrogen embrittlement and corrosion behaviors in metals
Corrosion Behavior and Inhibition
Metal and Thin Film Mechanics
Welding Techniques and Residual Stresses
Microstructure and Mechanical Properties of Steels
High Temperature Alloys and Creep
Aluminum Alloys Composites Properties

Kewei Gao has published extensively on these subjects, with frequent contributions to the following journals:

SSRN Electronic Journal
Corrosion Science
Materials Science and Engineering A
Vacuum
Journal of Material Science and Technology

Collaborations are an important part of their research, with frequent coauthors including:

Xiaolu Pang
Luchun Yan
Rongjian Shi
Saiyu Liu
Tao Guo

Their recent publications include:

"Improvement of the machine learning-based corrosion rate prediction model through the optimization of input features" (2020, Materials & Design)
"Corrosion rate prediction and influencing factors evaluation of low-alloy steels in marine atmosphere using machine learning approach" (2020, Science and Technology of Advanced Materials)
"A strategy assisted machine learning to process multi-objective optimization for improving mechanical properties of carbon steels" (2021, Journal of Material Science and Technology)
"Stress-sensitive fatigue crack initiation mechanisms of coated titanium alloy" (2021, Acta Materialia)
"Design of super-hard high-entropy ceramics coatings via machine learning" (2022, Ceramics International)

Best Publications

Discussion of the CO2 corrosion mechanism between low partial pressure and supercritical condition

Yucheng Zhang;Xiaolu Pang;Shaopeng Qu;Xin Li

265
Citations
The growth mechanism of CO2 corrosion product films

M. Gao;X. Pang;K. Gao

260
Citations
Mechanical properties of CO2 corrosion product scales and their relationship to corrosion rates

Kewei Gao;Fang Yu;Xiaolu Pang;Guoan Zhang

207
Citations
Improvement of the machine learning-based corrosion rate prediction model through the optimization of input features

Yupeng Diao;Luchun Yan;Kewei Gao

169
Citations
Effect of small amount of H2S on the corrosion behavior of carbon steel in the dynamic supercritical CO2 environments

Liang Wei;Xiaolu Pang;Kewei Gao

167
Citations
Formation mechanism and protective property of corrosion product scale on X70 steel under supercritical CO2 environment

Liang Wei;Xiaolu Pang;Chao Liu;Kewei Gao

156
Citations
Microstructure, residual stress, and fracture of sputtered TiN films

Liqiang Zhang;Huisheng Yang;Xiaolu Pang;Kewei Gao

142
Citations
Insitu grown superhydrophobic Zn–Al layered double hydroxides films on magnesium alloy to improve corrosion properties

Meng Zhou;Xiaolu Pang;Liang Wei;Kewei Gao

142
Citations
Corrosion of low alloy steel and stainless steel in supercritical CO2/H2O/H2S systems

Liang Wei;Xiaolu Pang;Kewei Gao

139
Citations
Study of correlation between hydrogen-induced stress and hydrogen embrittlement

T. Zhang;W.Y. Chu;K.W. Gao;L.J. Qiao

129
Citations
Corrosion rate prediction and influencing factors evaluation of low-alloy steels in marine atmosphere using machine learning approach

Luchun Yan;Yupeng Diao;Zhaoyang Lang;Kewei Gao

122
Citations
Pressure infiltrated syntactic foams—Process development and mechanical properties

R.A. Palmer;K. Gao;T.M. Doan;L. Green

122
Citations
Design and fabrication of enhanced corrosion resistance Zn-Al layered double hydroxides films based anion-exchange mechanism on magnesium alloys

Meng Zhou;Luchun Yan;Hao Ling;Yupeng Diao

118
Citations
Annealing effects on microstructure and mechanical properties of chromium oxide coatings

Xiaolu Pang;Xiaolu Pang;Kewei Gao;Fei Luo;Huisheng Yang

112
Citations
The behavior of pre-corrosion effect on the performance of imidazoline-based inhibitor in 3 wt.% NaCl solution saturated with CO2

Huan-huan Zhang;Xiaolu Pang;Meng Zhou;Chao Liu

111
Citations
Film thickness effect on texture and residual stress sign transition in sputtered TiN thin films

Yeting Xi;Kewei Gao;Xiaolu Pang;Huisheng Yang

103
Citations
Interfacial Microstructure of Chromium Oxide Coatings

Xiaolu Pang;Xiaolu Pang;Kewei Gao;Huisheng Yang;Lijie Qiao

96
Citations
Microstructure and mechanical properties of chromium oxide coatings

Xiaolu Pang;Xiaolu Pang;Kewei Gao;Alex A. Volinsky

95
Citations
Determination of tensile stress induced by dezincification layer during corrosion for brass

Hong Lu;Kewei Gao;Wuyang Chu

91
Citations
Effects of alloyed Cr and Cu on the corrosion behavior of low-alloy steel in a simulated groundwater solution

Qiufa Xu;Kewei Gao;Wenting Lv;Xiaolu Pang

89
Citations
Inhibition of the corrosion of X70 and Q235 steel in CO2-saturated brine by imidazoline-based inhibitor

Huan-huan Zhang;Kewei Gao;Luchun Yan;Xiaolu Pang

87
Citations
One-Step in Situ Synthesis of Reduced Graphene Oxide/Zn-Al Layered Double Hydroxide Film for Enhanced Corrosion Protection of Magnesium Alloys.

Luchun Yan;Meng Zhou;Xiaolu Pang;Kewei Gao

81
Citations
Role of deposition parameters on microstructure and mechanical properties of chromium oxide coatings

Fei Luo;Xiaolu Pang;Kewei Gao;Huisheng Yang

35
Citations