2026 Hua-Xin Peng: 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	56	8281	8008	325	307	232	10814

Overview

Hua-Xin Peng is affiliated with the University of Bristol in the United Kingdom. Their research primarily focuses on engineering and materials science, with a significant emphasis on subfields including mechanical engineering, mechanics of materials, electronic, optical and magnetic materials, materials chemistry, and aerospace engineering.

Their work addresses several key topics within these fields, such as:

Mechanical behavior of composites
Electromagnetic wave absorption materials
Advanced antenna and metasurface technologies
Fiber-reinforced polymer composites
Metamaterials and metasurfaces applications
Aluminum alloys composites properties
Titanium alloys microstructure and properties

Hua-Xin Peng has contributed frequently to several publication venues. The most common outlets for their research include:

Composites Communications
Composites Science and Technology
Composites Part B Engineering
Chemical Engineering Journal
Composites Part A Applied Science and Manufacturing

Notable recent papers authored by Hua-Xin Peng include:

"Chitosan-derived carbon aerogels with multiscale features for efficient microwave absorption," published in 2021 in Chemical Engineering Journal
"Two-dimensional SnO/SnO2 heterojunctions for electromagnetic wave absorption," published in 2021 in Chemical Engineering Journal
"Microwave absorption performance of 2D Iron-Quinoid MOF," published in 2020 in Chemical Engineering Journal
"Adjustable core-sheath architecture of polyaniline-decorated hollow carbon nanofiber nanocomposites with negative permittivity for superb electromagnetic interference shielding," published in 2022 in Advanced Composites and Hybrid Materials
"Lightweight microwire/graphene/silicone rubber composites for efficient electromagnetic interference shielding and low microwave reflectivity," published in 2020 in Composites Science and Technology

Throughout their career, Hua-Xin Peng has collaborated with multiple frequent co-authors, including Faxiang Qin, Wenting Ouyang, Bowen Gong, Xiang Gao, and Peng Xu. Each of these collaborators has worked extensively with Peng on various research projects.

Best Publications

Giant magnetoimpedance materials: Fundamentals and applications

Manh-Huong Phan;Hua-Xin Peng

1085
Citations
Ferromagnetic microwires enabled multifunctional composite materials

Faxiang Qin;Hua-Xin Peng

381
Citations
In situ TiBw/Ti-6Al-4V composites with novel reinforcement architecture fabricated by reaction hot pressing

L.J. Huang;L. Geng;A.B. Li;F.Y. Yang

330
Citations
Microstructure of ceramic foams

H.X. Peng;Z. Fan;J.R.G. Evans;J.J.C. Busfield

269
Citations
Room temperature tensile fracture characteristics of in situ TiBw/Ti6Al4V composites with a quasi-continuous network architecture

L.J. Huang;L.J. Huang;L. Geng;H.X. Peng;J. Zhang

236
Citations
Magnetic graphene for microwave absorbing application: Towards the lightest graphene-based absorber

L. Quan;F.X. Qin;D. Estevez;H. Wang

233
Citations
In situ (TiBw + TiCp)/Ti6Al4V composites with a network reinforcement distribution

L.J. Huang;L.J. Huang;L. Geng;H.X. Peng

180
Citations
Mechanical behavior of SiCf/SiC composites with alternating PyC/SiC multilayer interphases

Haijiao Yu;Haijiao Yu;Xingui Zhou;Wei Zhang;Huaxin Peng

162
Citations
Chitosan-derived carbon aerogels with multiscale features for efficient microwave absorption

Yu Tian;Diana Estevez;Huijie Wei;Mengyue Peng

162
Citations
Bi-continuous metal matrix composites

H.X. Peng;Z. Fan;J.R.G. Evans

161
Citations
Tailoring a novel network reinforcement architecture exploiting superior tensile properties of in situ TiBw/Ti composites

L.J. Huang;S. Wang;Y.S. Dong;Y.Z. Zhang

149
Citations
In situ TiC particles reinforced Ti6Al4V matrix composite with a network reinforcement architecture

L.J. Huang;L.J. Huang;L. Geng;H.Y. Xu;H.X. Peng

149
Citations
Mechanical and magnetocaloric properties of Gd-based amorphous microwires fabricated by melt-extraction

F.X. Qin;N.S. Bingham;H. Wang;H.X. Peng

139
Citations
Relating residual stress and microstructure to mechanical and giant magneto-impedance properties in cold-drawn Co-based amorphous microwires

H. Wang;F.X. Qin;D.W. Xing;F.Y. Cao

131
Citations
Two-dimensional SnO/SnO2 heterojunctions for electromagnetic wave absorption

Huipeng Lv;Chen Wu;Jin Tang;Haifeng Du

129
Citations
High temperature tensile properties of in situ TiBw/Ti6Al4V composites with a novel network reinforcement architecture

L.J. Huang;L. Geng;H.X. Peng;B. Kaveendran

127
Citations
Enhanced mechanical and electrical properties of carbon nanotube buckypaper by in situ cross-linking

Jianwei Zhang;Dazhi Jiang;Hua-Xin Peng;Faxiang Qin

127
Citations
Low volume fraction in situ (Ti5Si3 + Ti2C)/Ti hybrid composites with network microstructure fabricated by reaction hot pressing of Ti–SiC system

L.J. Huang;S. Wang;L. Geng;B. Kaveendran

121
Citations
In situ (Al3Zr + Al2O3np)/2024Al metal matrix composite with novel reinforcement distributions fabricated by reaction hot pressing

B. Kaveendran;G.S. Wang;L.J. Huang;L. Geng

120
Citations
Complementary design of nano-carbon/magnetic microwire hybrid fibers for tunable microwave absorption

D. Estevez;F.X. Qin;L. Quan;Y. Luo

118
Citations
Excellent magnetocaloric properties of melt-extracted Gd-based amorphous microwires

N. S. Bingham;H. Wang;F. Qin;H. X. Peng

109
Citations

Frequent Co-Authors

Manh-Huong Phan University of South Florida

Fabrizio Scarpa University of Bristol

Lin Geng Harbin Institute of Technology

Arcady Zhukov University of the Basque Country

Michael R Wisnom University of Bristol

Valentina Zhukova University of the Basque Country

Jingxue Sun Harbin Institute of Technology

Yu Zhou Harbin Institute of Technology

Jrg Evans University College London

Shaoxing Qu Zhejiang University

External Links

Personal website of Hua-Xin Peng Google Scholar page

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Hua-Xin Peng

D-Index & Metrics

D-Index & Metrics

Materials Science

Overview

Best Publications

Giant magnetoimpedance materials: Fundamentals and applications

Ferromagnetic microwires enabled multifunctional composite materials

In situ TiBw/Ti-6Al-4V composites with novel reinforcement architecture fabricated by reaction hot pressing

Microstructure of ceramic foams

Room temperature tensile fracture characteristics of in situ TiBw/Ti6Al4V composites with a quasi-continuous network architecture

Magnetic graphene for microwave absorbing application: Towards the lightest graphene-based absorber

In situ (TiBw + TiCp)/Ti6Al4V composites with a network reinforcement distribution

Mechanical behavior of SiCf/SiC composites with alternating PyC/SiC multilayer interphases

Chitosan-derived carbon aerogels with multiscale features for efficient microwave absorption

Bi-continuous metal matrix composites

Tailoring a novel network reinforcement architecture exploiting superior tensile properties of in situ TiBw/Ti composites

In situ TiC particles reinforced Ti6Al4V matrix composite with a network reinforcement architecture

Mechanical and magnetocaloric properties of Gd-based amorphous microwires fabricated by melt-extraction

Relating residual stress and microstructure to mechanical and giant magneto-impedance properties in cold-drawn Co-based amorphous microwires

Two-dimensional SnO/SnO2 heterojunctions for electromagnetic wave absorption

High temperature tensile properties of in situ TiBw/Ti6Al4V composites with a novel network reinforcement architecture

Enhanced mechanical and electrical properties of carbon nanotube buckypaper by in situ cross-linking

Low volume fraction in situ (Ti5Si3 + Ti2C)/Ti hybrid composites with network microstructure fabricated by reaction hot pressing of Ti–SiC system

In situ (Al3Zr + Al2O3np)/2024Al metal matrix composite with novel reinforcement distributions fabricated by reaction hot pressing

Complementary design of nano-carbon/magnetic microwire hybrid fibers for tunable microwave absorption

Excellent magnetocaloric properties of melt-extracted Gd-based amorphous microwires

Frequent Co-Authors

External Links

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