Jun Koyanagi
Tokyo University of Science
H-index: 26
Asia-Japan
Top articles of Jun Koyanagi
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
Comprehensive Evaluation method of Bond Strength in Ultrasonic Welding for CFRTP | Procedia Structural Integrity | Minori Isozaki Maruri Takamura Shinichi Takeda Jun Koyanagi | 2024/1/1 |
Identification of invisible fatigue damage of thermosetting epoxy resin by non-destructive thermal measurement using entropy generation | Advanced Composite Materials | Natsuko Kudo Ryohei Fujita Yutaka Oya Takenobu Sakai Hosei Nagano | 2024/3/3 |
Molecular Dynamics Simulation Considering Covalent Bond Dissociation for Lignin-based Composite Materials | Procedia Structural Integrity | Mayu Morita Yutaka Oya Nobuhiko Kato Kazuki Mori Jun Koyanagi | 2024/1/1 |
Overview of the research work of Prof. Koyanagi and the composite materials laboratory | Impact | Jun Koyanagi | 2024/1/22 |
Evaluation of Volumetric Strain on Polyamide 6 by Thermodynamic Entropy Generation | Experimental Mechanics | T Sakai Y Oya J Koyanagi | 2024/1 |
Enhanced Estimation of Axial Compressive Strength for CFRP Based on Microscale Numerical Simulation and the Response Surface Method | Materials | Honoka Yoshida Huachao Deng Jun Koyanagi | 2024/1/19 |
Evaluation of True Bonding Strength for Adhesive Bonded Carbon Fiber-Reinforced Plastics | Materials | Maruri Takamura Minori Isozaki Shinichi Takeda Yutaka Oya Jun Koyanagi | 2024/1/12 |
Identification of Internal Damage in CFRP Cross-Ply Laminates Subjected to Cyclic Loadings by Thermal Measurement | Procedia Structural Integrity | Jun Koyanagi Honoka Yoshida Mayu Morita Minori Isozaki | 2024/1/1 |
Lock-in thermographic measurement and model-based evaluation of effective thermal diffusivity to quantify early stage fatigue damage of CFRP | Ryohei Fujita Natsuko Kudo Shun Abe MJ Mohammad Fikry Jun Koyanagi | 2023/6/12 | |
Durability Analysis of CFRP Adhesive Joints: A Study Based on Entropy Damage Modeling Using FEM | Materials | Yutong Li Huachao Deng Maruri Takamura Jun Koyanagi | 2023/10/23 |
A molecular dynamics simulation for thermal activation process in covalent bond dissociation of a crosslinked thermosetting polymer | Molecules | Naoki Yamada Yutaka Oya Nobuhiko Kato Kazuki Mori Jun Koyanagi | 2023/3/17 |
Micro-Scale Numerical Simulation of Fatigue Failure for CFRP Subjected to Multiple-Amplitude Cyclic Loadings Based on Entropy Damage Criterion | Materials | Huachao Deng Keitaro Toda Mio Sato Jun Koyanagi | 2023/9/7 |
Numerical Simulation for Tensile Failure of Fiber-Reinforced Polymer Composites Based on Viscoelastic-Entropy-Damage Criterion | Jun Koyanagi | 2023/3/10 | |
Evaluation of viscoelastic non-isochoric plastic behavior of PBT and PA6 | Mechanics of Time-Dependent Materials | Yoshihiko Sato Sayaka Masumizu Kenichi Sakaue Jun Koyanagi Akio Ohtani | 2023/9 |
Numerical simulation for the tensile failure of randomly oriented short fiber reinforced plastics based on a viscoelastic entropy damage criterion | Composites Part C: Open Access | Hikaru Kagawa Yuta Umezu Kenichi Sakaue Jun Koyanagi | 2023/3/1 |
Non-Destructive Fatigue Evaluation through Thermophysical Properties Using Lock-In Thermography | Engineering Proceedings | Ryohei Fujita Natsuko Kudo Shun Abe MJ Mohammad Fikry Jun Koyanagi | 2023/11/8 |
Effect of overlap joint position on strength of composite interlaminar reinforcement for fused filament fabrication 3D printer | Composites Part C: Open Access | Aiko Fujii Jumpei Kajimoto Jun Koyanagi Yusuke Maruyama Hideyuki Kajita | 2023/7/1 |
New crack front enrichment for XFEM modeling | International Journal of Solids and Structures | Huachao Deng Bo Yan Xiaomin Zhang Yongqiang Zhu Jun Koyanagi | 2023/7/1 |
Improved XFEM for 3D interfacial crack modeling | Mechanics of Materials | Huachao Deng Bo Yan Jun Koyanagi | 2023/11/1 |
Finite element model for simulating entropy-based strength-degradation of carbon-fiber-reinforced plastics subjected to cyclic loadings | International Journal of Fatigue | Jun Koyanagi Asa Mochizuki Ryo Higuchi VBC Tan TE Tay | 2022/12/1 |