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Plant fiber reinforced composites / / Yan Li, Qian Li
| Plant fiber reinforced composites / / Yan Li, Qian Li |
| Autore | Li Yan |
| Pubbl/distr/stampa | Singapore : , : Springer, , [2022] |
| Descrizione fisica | 1 online resource (229 pages) |
| Disciplina | 910.5 |
| Collana | Engineering Materials |
| Soggetto topico | Fibrous composites |
| ISBN | 981-19-5162-4 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Intro -- Preface -- Brief Introduction -- Contents -- 1 Introduction -- References -- 2 Plant Fibers -- 2.1 Overview of Plant Fibers -- 2.2 Chemical Compositions -- 2.3 Microstructure -- 2.4 Mechanical Properties -- 2.4.1 Mechanical Model for Elementary Fibers -- 2.4.2 Mechanical Model for the Single Plant Technical Fiber -- References -- 3 Manufacture of Plant Fiber Reinforced Composites -- 3.1 Surface Treatment Methods of Plant Fibers -- 3.1.1 Physical Modification of Plant Fibers -- 3.1.2 Chemical Modification of Plant Fibers -- 3.2 Molding Processes of Plant Fiber Reinforced Composites -- 3.2.1 Hot-Press Process -- 3.2.2 Autoclave Process -- 3.2.3 Resin Transfer Molding Process -- 3.2.4 Other Molding Processes -- 3.3 Effects of Processing Parameters on the Mechanical Performances of Plant Fiber Reinforced Composites -- 3.3.1 Effects of Curing Pressure -- 3.3.2 Effects of Processing Temperature -- 3.3.3 Effects of Lumen Structure -- References -- 4 Interface in Plant Fiber Reinforced Composites -- 4.1 Hierarchical Interface Performances and Failure Behaviors of Plant Fiber Reinforced Composites -- 4.2 A Micromechanical Model of Hierarchical Interfaces of Plant Fiber Reinforced Composites -- 4.2.1 Double-Interface Model for Single Sisal Fiber Pull-Out -- 4.2.2 Stress Distribution and Double-Stage Interface Fracture Mechanisms During Single Sisal Fiber Pull-Out Process -- 4.3 An FE Model of Hierarchical Interfaces of Plant Fiber Reinforced Composites -- 4.3.1 Multiple-Interface Model for Single Sisal Fiber Pull-Out -- 4.3.2 Stresses Distributions and Multi-Stage Fracture Mechanisms of SFRCs with Multiple Interfaces -- 4.4 An FE Model of Multi-Layer Interlaminar Fracture Behaviors for Plant Fiber Reinforced Composites -- 4.4.1 Numerical Simulation of Multi-Layer Interlaminar Fracture Behaviors for Laminated SFRCs.
4.4.2 Stresses Distribution and Interface Failure Mechanism on Mode I Interlaminar Fracture of Laminated SFRCs with Multi-Layer Interface -- Appendix A: Coefficient of Single Fiber Pull-Out Model with Double Interfaces -- A.1 Stress Transfer in the Bonded Regions of Processes 1 and 2 -- A.2 Stress Transfer in the Debonded Regions of Processes 1 and 2 -- A.3 Coefficients of Processes 1 and 2 -- References -- 5 Mechanical Properties of Plant Fiber Reinforced Composites -- 5.1 Effects of Lumen Structure on the Mechanical Properties of Plant Fiber Reinforced Composites -- 5.2 Effects of Yarn Twist on the Mechanical Properties of Plant Fiber Reinforced Composites -- 5.2.1 Effects of the Twisting Processing Parameters on the Mechanical Properties of Plant Fibers and Yarns -- 5.2.2 Effects of the Twisting Processing Parameters on the Mechanical Properties of Plant Fiber Reinforced Composites -- 5.3 Mechanical Properties of Plant Fiber Reinforced Composites Modified by Nano Particals -- 5.3.1 Mechanical Properties of Plant Fiber Reinforced Composites Modified by Carbon Nanotubes -- 5.3.2 Interfacial Properties of Plant Fiber Reinforced Composites Modified by Crystalline Nano-Cellulose -- 5.4 Mechanical Properties of Hybrid Plant Fiber Reinforced Composites -- 5.4.1 Effect of Hybrid Ratio on Mechanical Properties of Hybrid Composites -- 5.4.2 Effect of Ply Sequence on Mechanical Properties of Hybrid Composites -- 5.4.3 Interlaminar Properties of Hybrid Composites -- References -- 6 Physical Properties of Plant Fiber Reinforced Composites -- 6.1 Acoustic Properties of Plant Fibers and Their Composites -- 6.1.1 Sound Absorption Properties of Plant Fiber Reinforced Composites -- 6.1.2 Acoustic Performance of Plant Fiber Reinforced Composite Sandwich Structure -- 6.2 Thermal Properties of Plant Fiber Reinforced Composites. 6.2.1 Thermal Conductivity of Plant Fiber Reinforced Composites -- 6.2.2 Theoretical Model of Thermal Conductivity of Plant Fiber Reinforced Composites -- 6.3 Dielectric Properties of Plant Fiber Reinforced Composites -- 6.4 Damping Properties of Plant Fiber Reinforced Composites -- 6.5 Flame Retardant Properties of Plant Fiber Reinforced Composites -- 6.5.1 Effect of Flame Retardant DOPO on Flame Retardancy of Plant Fiber Reinforced Composites -- 6.5.2 Effect of Flame-Retardant Modification on Mechanical Properties of Plant Fiber Reinforced Composites -- References -- 7 Durability Properties of Plant Fiber Reinforced Composites -- 7.1 Hydrothermal Aging of Plant Fiber Reinforced Composites -- 7.1.1 Water Absorption Behaviors of Plant Fiber Reinforced Composites -- 7.1.2 Mechanical Properties of Plant Fiber Reinforced Composites Under Hydrothermal Aging Conditions -- 7.1.3 Hydrothermal Aging Mechanisms of Plant Fiber Reinforced Composites -- 7.2 UV Aging of Plant Fiber Reinforced Composites -- 7.2.1 Effect of UV Aging on the Mechanical Properties of Plant Fiber Reinforced Composites -- 7.2.2 UV Aging Mechanisms of Plant Fiber Reinforced Composites -- 7.3 Mould Aging of Plant Fiber Reinforced Composites -- 7.3.1 Effect of Mould Aging on the Mechanical Properties of Plant Fiber Reinforced Composites -- 7.3.2 Exploration on Improving the Antibacterial Properties of Plant Fiber Reinforced Composites -- References -- 8 Life Cycle Assessment of Plant Fiber Reinforced Composites -- 8.1 Overview of LCA Methodologies -- 8.1.1 Definition and Technical Framework for LCA -- 8.1.2 Development of LCA Methodologies -- 8.2 LCA of Plant Fiber Reinforced Composites -- 8.2.1 Purpose and Scope -- 8.2.2 Functional Unit -- 8.2.3 Life Cycle Inventory Analysis -- 8.2.4 Life Cycle Impact Assessment -- 8.2.5 Results and Interpretation of Life Cycle Impact Assessment. 8.3 Comparison of LCA of Glass Fiber Reinforced Composites with Plant Fiber Reinforced Composites -- 8.3.1 Results and Comparisons of Characteristic Assessment -- 8.3.2 Results and Comparisons of Normalized and Weighted Assessment -- References -- 9 Applications of Plant Fiber Reinforced Composites -- References. |
| Record Nr. | UNINA-9910616360703321 |
Li Yan
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| Singapore : , : Springer, , [2022] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Private Education in China : Achievement and Challenge / / by Haitao Zhou, Qiang Liu, Jing Tian, Qian Li
| Private Education in China : Achievement and Challenge / / by Haitao Zhou, Qiang Liu, Jing Tian, Qian Li |
| Autore | Zhou Haitao |
| Edizione | [1st ed. 2018.] |
| Pubbl/distr/stampa | Singapore : , : Springer Nature Singapore : , : Imprint : Springer, , 2018 |
| Descrizione fisica | 1 online resource (XIX, 216 p. 44 illus.) |
| Disciplina | 371.2 |
| Collana | Perspectives on Rethinking and Reforming Education |
| Soggetto topico |
School management and organization
Education and state Teachers - Training of Learning, Psychology of Organization and Leadership Educational Policy and Politics Teaching and Teacher Education Instructional Psychology |
| ISBN |
9789811044090
9811044090 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Chapter 1 Private Education and the Tale of Two Sectors -- Chapter 2 Private Education Development at a Glance Since 2003 -- Chapter 3 The Legal Person's Classification Registration and the Ownership of Property in Chinese Private Education -- Chapter 4 The Ownership of Property Rights of Chinese Private Institutions -- Chapter 5 Chinese Private Education Public Financial Assistance -- Chapter 6 Governance System of Private Schools -- Chapter 7 Rights and Interests Guarantee of Private School Teachers -- Chapter 8 New Reality: Supporting and Regulating Nongovernmental Forces in Education Sectors. |
| Record Nr. | UNINA-9910299516803321 |
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Zhou Haitao
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| Singapore : , : Springer Nature Singapore : , : Imprint : Springer, , 2018 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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