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東京理科大学 ホーム
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Molecular Dynamics Simulation Considering Covalent Bond Dissociation for Lignin-based Composite Materials
Mayu Morita,
Yutaka Oya
, Nobuhiko Kato, Kazuki Mori,
Jun Koyanagi
マテリアル創成工学科
研究成果
:
Conference article
›
査読
1
被引用数 (Scopus)
概要
フィンガープリント
フィンガープリント
「Molecular Dynamics Simulation Considering Covalent Bond Dissociation for Lignin-based Composite Materials」の研究トピックを掘り下げます。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
Lignin
100%
Molecular Dynamics Simulation
100%
Side Chain
100%
Composite Materials
100%
Covalent Bond
100%
Bond Dissociation
100%
Lignin Composites
100%
Polyethylene Glycol
80%
Epoxy Polymer
60%
Interfacial Stability
40%
Toughness
20%
Hydrogen Bonds (H-bonds)
20%
Young's Modulus
20%
Wood
20%
Radial Distribution Function
20%
Entanglement
20%
Structural Materials
20%
Polymer Chain
20%
Attracting Attention
20%
Functional Groups
20%
Epoxy Resin
20%
Stress-strain Relationship
20%
Biomaterials
20%
Calculation Results
20%
Mechanical Characteristics
20%
Material Characteristics
20%
Molecular Scale
20%
Derived Material
20%
Naturally-derived
20%
Transportation Vehicle
20%
Graphene Sheets
20%
Simulation Algorithm
20%
Functionalized Graphene
20%
Bio-based Composites
20%
Carbon Neutrality
20%
Uniaxial Tensile Test
20%
Thermosetting Polymers
20%
Tensile Analysis
20%
Epoxy-functionalized
20%
Interface Stability
20%
Engineering
Covalent
100%
Side Chain
100%
Composite Material
100%
Young's Modulus
25%
Graphene
25%
Tensile Test
25%
Structural Materials
25%
Molecular Scale
25%
Functional Group
25%
Radial Distribution
25%
Polymer Chain
25%
Strain Relationship
25%
Entanglement
25%
Graphene Sheet
25%
Material Characteristic
25%
Bio-Based Material
25%
Simulation Algorithm
25%
Material Science
Covalent Bond
100%
Composite Material
100%
Lignin
100%
Polyethylene Glycol
66%
Epoxy
66%
Graphene
33%
Composite Material
33%
Hydrogen Bonding
16%
Young's Modulus
16%
Building Material
16%
Thermoset Plastics
16%