2026 Hideki Hosoda: 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	11021	10649	683	650	381	10650

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

11021

10649

683

650

381

10650

Overview

Hideki Hosoda is affiliated with the Tokyo Institute of Technology in Japan. Their research focuses primarily on materials science and engineering, with significant contributions to materials chemistry and mechanical engineering.

The scientist's work spans a variety of subfields, including:

Materials Chemistry
Mechanical Engineering
Electronic, Optical and Magnetic Materials
Biomedical Engineering
Surgery

Hosoda's main research topics encompass:

Shape Memory Alloy Transformations
Titanium Alloys Microstructure and Properties
Bone Tissue Engineering Materials
Intermetallics and Advanced Alloy Properties
Advanced materials and composites
Magnetic and transport properties of perovskites and related materials
High Entropy Alloys Studies

The scientist has published extensively, with notable recent papers including:

"Large recoverable strains with high recovery rates via cooperative regulation of texture and precipitation in additive manufactured NiTi alloy" (2024, Scripta Materialia)
"Effect of Cr additions on the phase constituent, mechanical properties, and shape memory effect of near-eutectoid Ti-4Au towards the biomaterial applications" (2021, Journal of Alloys and Compounds)
"Large magnetostrains of Ni-Mn-Ga/silicone composite containing system of oriented 5M and 7M martensitic particles" (2021, Scripta Materialia)
"Effect of 3d transition metal additions on the phase constituent, mechanical properties, and shape memory effect of near-eutectoid Ti-4Au biomedical alloys" (2020, Journal of Alloys and Compounds)
"Effects of Cr and Sn additives on the martensitic transformation and deformation behavior of Ti-Cr-Sn biomedical shape memory alloys" (2021, Materials Science and Engineering A)

Frequent coauthors contributing to Hosoda's research include:

Masaki Tahara
Wan-Ting Chiu
Naoki Nohira
Tomonari Inamura
Akira Umise

Publications have appeared repeatedly in several key journals such as:

Journal of Alloys and Compounds (14 publications)
Materials Science and Engineering A (7 publications)
Scripta Materialia (5 publications)
Materials (5 publications)
Journal of Materials Research and Technology (5 publications)

Best Publications

Martensitic transformation, shape memory effect and superelasticity of Ti-Nb binary alloys

H.Y. Kim;Y. Ikehara;J.I. Kim;H. Hosoda

1123
Citations
Development and characterization of Ni-free Ti-base shape memory and superelastic alloys

S. Miyazaki;H.Y. Kim;H. Hosoda

459
Citations
Mechanical Properties and Shape Memory Behavior of Ti-Nb Alloys

Hee Young Kim;Satoru Hashimoto;Jae Il Kim;Hideki Hosoda

450
Citations
Shape memory characteristics of Ti–22Nb–(2–8)Zr(at.%) biomedical alloys

J.I. Kim;H.Y. Kim;T. Inamura;H. Hosoda

431
Citations
Texture and shape memory behavior of Ti–22Nb–6Ta alloy

H.Y. Kim;T. Sasaki;K. Okutsu;J.I. Kim

318
Citations
Lattice modulation and superelasticity in oxygen-added β-Ti alloys

Masaki Tahara;Masaki Tahara;Hee Young Kim;Tomonari Inamura;Hideki Hosoda

282
Citations
Shape Memory Behavior of Ti–22Nb–(0.5–2.0)O(at%) Biomedical Alloys

Jae Il Kim;Hee Young Kim;Hideki Hosoda;Shuichi Miyazaki

262
Citations
Shape memory properties of Ti-Nb-Mo biomedical alloys

Y. Al-Zain;H.Y. Kim;H. Hosoda;T.H. Nam

257
Citations
Shape memory behavior of Ti-Ta and its potential as a high-temperature shape memory alloy

Pio John S. Buenconsejo;Hee Young Kim;Hideki Hosoda;Shuichi Miyazaki

250
Citations
Effect of Ta addition on shape memory behavior of Ti-22Nb alloy

H.Y. Kim;S. Hashimoto;J.I. Kim;T. Inamura

229
Citations
Mechanical Properties of a Ti-Nb-Al Shape Memory Alloy

Yusuke Fukui;Tomonari Inamura;Hideki Hosoda;Kenji Wakashima

220
Citations
Composition dependent crystallography of α''-martensite in Ti-Nb-based β-titanium alloy

T. Inamura;J. I. Kim;H. Y. Kim;H. Hosoda

219
Citations
Self-accommodation in Ti-Nb shape memory alloys

Y.W. Chai;Y.W. Chai;H.Y. Kim;H. Hosoda;S. Miyazaki

214
Citations
Origin of {3 3 2} twinning in metastable β-Ti alloys

Hirobumi Tobe;Hee Young Kim;Tomonari Inamura;Hideki Hosoda

211
Citations
Mechanical Properties and Shape Memory Behavior of Ti-Mo-Ga Alloys

Hee Young Kim;Yoshinori Ohmatsu;Jae Il Kim;Hideki Hosoda

163
Citations
Novel Ti-base superelastic alloys with large recovery strain and excellent biocompatibility.

Jie Fu;Akiko Yamamoto;Hee Young Kim;Hideki Hosoda

146
Citations
Cyclic deformation behavior of a Ti-26 at.% Nb alloy

M. Tahara;H.Y. Kim;H. Hosoda;S. Miyazaki

142
Citations
Effect of thermo-mechanical treatment on mechanical properties and shape memory behavior of Ti–(26–28) at.% Nb alloys

H.Y. Kim;J.I. Kim;T. Inamura;H. Hosoda

137
Citations
Anomalous temperature dependence of the superelastic behavior of Ti–Nb–Mo alloys

Y. Al-Zain;H.Y. Kim;T. Koyano;H. Hosoda

136
Citations
Martensite transformation temperatures and mechanical properties of ternary NiTi alloys with offstoichiometric compositions

H. Hosoda;S. Hanada;K. Inoue;T. Fukui

126
Citations