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Hee Young KIM

Hee Young KIM

University of Tsukuba

H-index: 49

Asia-Japan

About Hee Young KIM

Hee Young KIM, With an exceptional h-index of 49 and a recent h-index of 37 (since 2020), a distinguished researcher at University of Tsukuba, specializes in the field of biomaterial, martensitic transformation, Ti alloy, shape memory alloy.

His recent articles reflect a diverse array of research interests and contributions to the field:

Achievement of ultra‐low elastic modulus through optimization of phase stability and recrystallization texture in Ti–Nb–Fe–Sn alloys

Constituent phases, microstructures, and martensitic transformation of β-type Zr-Nb-Sn alloys

Martensitic transformation and shape memory effect of TiZrHf-based multicomponent alloys

Development of Ni–Ti–Zr–Hf–(Nb, Ta) Multi-Principal Element High-Temperature Shape Memory Alloys with High Cold Workability

Modeling of superelastic auxetic structures of Ti–Zr base alloy

Novel beta-type high entropy shape memory alloys with low magnetic susceptibility and high biocompatibility

Synthesis and characterization of a Ti‐Zr‐based alloy with ultra‐low Young’s modulus and excellent biocompatibility

Synthesis of nanotubular oxide on Ti–24Zr–10Nb–2Sn as a drug-releasing system to prevent the growth of Staphylococcus aureus

Hee Young KIM Information

University

Position

___

Citations(all)

9108

Citations(since 2020)

3891

Cited By

6896

hIndex(all)

49

hIndex(since 2020)

37

i10Index(all)

104

i10Index(since 2020)

74

Email

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University Profile Page

University of Tsukuba

Google Scholar

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Hee Young KIM Skills & Research Interests

biomaterial

martensitic transformation

Ti alloy

shape memory alloy

Top articles of Hee Young KIM

Title

Journal

Author(s)

Publication Date

Achievement of ultra‐low elastic modulus through optimization of phase stability and recrystallization texture in Ti–Nb–Fe–Sn alloys

Advanced Engineering Materials

Muhammad Farzik Ijaz

Wataru Tasaki

Hee Young Kim

Shuichi Miyazaki

2023/7/1

Constituent phases, microstructures, and martensitic transformation of β-type Zr-Nb-Sn alloys

Materials Science and Engineering: A

Wataru Tasaki

Fumiya Okabe

Yosuke Sato

Shuichi Miyazaki

Hee Young Kim

2023/6/15

Martensitic transformation and shape memory effect of TiZrHf-based multicomponent alloys

Journal of Alloys and Compounds

Tatsuya Ito

Yuta Kimura

Xiao Xu

Kwangsik Han

Rie Y Umetsu

...

2019/10/15

Development of Ni–Ti–Zr–Hf–(Nb, Ta) Multi-Principal Element High-Temperature Shape Memory Alloys with High Cold Workability

Materials Transactions

Wataru Tasaki

Yuya Arai

Shuichi Miyazaki

Hee Young Kim

2023/10/1

Modeling of superelastic auxetic structures of Ti–Zr base alloy

Finite Elements in Analysis and Design

Ricardo D Parga Montemayor

Luis A Reyes Osorio

Luis Lopez-Pavon

Octavio Garcia-Salazar

Ivan E Moreno-Cortez

...

2022/4/1

Novel beta-type high entropy shape memory alloys with low magnetic susceptibility and high biocompatibility

Materials Letters

N Hashimoto

Y Al-Zain

A Yamamoto

T Koyano

HY Kim

...

2021/3/15

Synthesis and characterization of a Ti‐Zr‐based alloy with ultra‐low Young’s modulus and excellent biocompatibility

Advanced Engineering Materials

Kyong Min Kim

Yazan Al-Zain

Akiko Yamamoto

Amirah H Daher

Ahmad T Mansour

...

2022/2

Synthesis of nanotubular oxide on Ti–24Zr–10Nb–2Sn as a drug-releasing system to prevent the growth of Staphylococcus aureus

Chemical Papers

Luis López-Pavón

Daniel Dagnino-Acosta

Enrique López-Cuéllar

Frank Meléndez-Anzures

Diana Zárate-Triviño

...

2021/6

Effect of N addition on nano-domain structure and mechanical properties of a meta-stable Ti-Zr based alloy

Scripta Materialia

Jie Fu

Hee Young Kim

Shuichi Miyazaki

2021/10/1

Effect of Zr content on phase stability, deformation behavior, and Young’s modulus in Ti–Nb–Zr alloys

Materials

Kyong Min Kim

Hee Young Kim

Shuichi Miyazaki

2020/1/19

See List of Professors in Hee Young KIM University(University of Tsukuba)