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東京理科大学 ホーム
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Scopus著者プロファイル
小柳 潤
教授
先進工学部
,
マテリアル創成工学科
ウェブサイト
https://www.tus.ac.jp/ridai/doc/ji/RIJIA01Detail.php?act=nam&kin=ken&diu=67CE
h-index
1843
被引用数
25
h 指数
Pureの文献数とScopusの被引用数に基づいて算出されます
2004
2025
年別の研究成果
概要
フィンガープリント
ネットワーク
研究成果
(159)
類似のプロファイル
(6)
フィンガープリント
Jun Koyanagiが活動している研究トピックを掘り下げます。このトピックラベルは、この研究者の研究成果に基づきます。これらがまとまってユニークなフィンガープリントを構成します。
並べ替え順
重み付け
アルファベット順
Keyphrases
Carbon Fiber Reinforced Plastic
46%
Numerical Simulation
46%
Interfacial Strength
40%
Tensile Strength
35%
Interfacial Debonding
33%
Unidirectional Composites
28%
Cruciform Specimen
25%
Temperature Effect
23%
Single Fiber Composite
21%
Resin
21%
Polymer-matrix Composites
20%
Out-of-plane Deformation
20%
Strain Rate
19%
Epoxy Interface
19%
Carbon Fiber Reinforced Polymer
19%
Carbon Fiber Reinforced Plastic Laminates
19%
Carbon Fiber
19%
Molecular Dynamics Simulation
19%
Tensile Failure
18%
Glass Fibre Reinforced Epoxy
18%
Interface Problem
17%
Finite Element Analysis
17%
Interface Strength
16%
C-C Composites
16%
Electrical Conductivity
16%
CFRP Laminates
15%
Constitutive Equation
15%
Polyaniline (PANi)
15%
Composite Materials
15%
Long-term Durability
14%
Time Dependence
14%
Shear Lag
14%
Periodic Unit Cell
14%
Graphene Oxide
13%
Combined Stress
13%
Digital Image Correlation
13%
Transverse Tensile
13%
Cyclic Loading
13%
Failure Criterion
12%
Stress Distribution
12%
Strain Rate Dependence
12%
Thermal Deformation
12%
Interfacial Failure Criterion
12%
Fiber-matrix Interface
12%
Large Misalignment Angle
12%
Failure Behavior
12%
Fiber Failure
11%
Digital Image Correlation Technique
11%
Tensile Loading
11%
Continuum Damage Mechanics
11%
Engineering
Carbon-Fiber-Reinforced Plastic
68%
Tensiles
56%
Interfacial Debonding
36%
Ultimate Tensile Strength
35%
Finite Element Analysis
29%
Experimental Result
27%
Cruciform Specimen
26%
Single Fiber
26%
Strain Rate
22%
Temperature Dependence
22%
Digital Image Correlation
22%
Stress State
22%
Failure Criterion
21%
Reinforced Plastic
21%
Tensile Test
20%
Plane Deformation
20%
Constitutive Equation
19%
Fiber-Reinforced Polymer
19%
Interface Strength
18%
Good Agreement
16%
Shear Lag Model
16%
Epoxy Composite
14%
Long-Term Durability
14%
Cyclic Loading
14%
Creep
12%
Composite Material
12%
Thermal Deformation
12%
Microscale
12%
Ply Angle
12%
Failure Behavior
12%
Entropy Generation
11%
Carbon Fibre Reinforced Polymer
11%
Shear Lag
11%
Digital Image Correlation Technique
11%
Plastic Deformation
11%
System Protection
11%
Thermal Protection
11%
Failure Mode
11%
Interfacial Energy
10%
Rapid Heating
10%
Correlation Method
10%
Fiber-Reinforced Composite
10%
Fibre Failure
10%
Matrix Interface
10%
Thermal Residual Stress
10%
Dimensional Stability
10%
Cross-Ply Laminate
10%
Damage Mechanics
9%
Moisture Absorption
9%
Fiber Orientation
9%
Material Science
Composite Material
100%
Carbon Fiber
46%
Ultimate Tensile Strength
37%
Debonding
36%
Reinforced Plastic
35%
Carbon Fiber Reinforced Plastics
31%
Finite Element Method
21%
Creep
21%
Polymer Composite
18%
Graphene
18%
Polyaniline
18%
Graphene Oxide
16%
Electrical Conductivity
16%
Composite Material
15%
Fiber Reinforced Material
14%
Glass Fiber
13%
Residual Stress
13%
Epoxy
12%
Carbon Nanotube
11%
Viscoelastic Behavior
11%
Interface Property
11%
Fiber Failure
9%
Plastic Deformation
9%
Strain Rate
9%
Plastic Laminate
8%
Surface (Surface Science)
8%
Thermoplastics
7%
Residual Strength
6%
Composite Films
6%
Density
6%
X-Ray Computed Tomography
6%
Damage Mechanics
6%
Cohesive Zone Model
6%
Shear Strength
5%
Thermal Conductivity
5%
Polyamide
5%
Fatigue Damage
5%
Tensile Loads
5%
Fiber Reinforced Plastics
5%