Additive Manufacturing of Polymer Composites : Technologies, Materials, and Applications (Woodhead Publishing Series in Composites Science and Engineering)

Vanaei, Hamid Reza/ Ahmadifar, Mohammad/ Vanaei, Saeedeh

Woodhead Publishing（2026/10発売）

• 製本 Paperback:紙装版/ペーパーバック版／ページ数 230 p.
• 言語 ENG
• 商品コード 9780443452901

Full Description

Additive Manufacturing of Polymer Composites: Technologies, Materials, and Applications provides a comprehensive and multidisciplinary exploration of the intersection between additive manufacturing (AM) and polymer matrix composites (PMCs). Its primary objective is to bridge the knowledge gap between AM technologies and polymer composites, delivering an integrated perspective that encompasses fundamental principles, material selection, process optimization, technological advancements, and emerging applications. The book's timely significance is highlighted by the rapidly evolving use of AM to fabricate lightweight, high-performance composites for sectors such as aerospace, automotive, medical devices, and industrial tooling. It covers new developments such as smart composites, 4D printing, and AI-driven process optimization—areas not yet fully addressed in the current literature. The book's content structure follows a logical progression: it begins with a foundational overview of AM and PMCs, explores materials and their properties, examines technological processes and process parameter optimization, and then addresses advanced characterization, quality control, and applications. Future perspectives, including sustainability, smart materials, and digital innovations, are also included. Key themes include material-process integration, quality assurance, sustainability, and the application of AM-PMCs in complex engineering contexts.

Contents

1. Introduction
1.1. General aspects of polymer matrix composites
1.2. Additive manufacturing processes for polymer matrix composites
1.3. Advantages and challenges of additive manufacturing for polymer matrix composites
2. Fundamentals of additive manufacturing for polymer matrix composites
2.1. Polymer matrix composites
2.1.1. Definition, structure, and properties of polymer matrix composites
2.1.2. Types of polymer matrixes
2.1.3. Types of reinforcements
2.1.4. Relevant properties for additive manufacturing
2.2. Overview of additive manufacturing technologies
2.3. Key additive manufacturing technologies for polymer matrix composites
2.3.1. Extrusion-based processes
2.3.2. Photopolymerization processes
2.3.3. Powder-based processes
2.3.4. Emerging processes
2.4. Technology comparison: quality, cost, and performance considerations
3. Materials, characterization, and applications of additive manufacturing for polymer matrix composites
3.1. Materials for additive manufacturing of polymer matrix composites
3.1.1. Polymer matrices: common thermoplastics, high-performance polymers, and thermosets
3.1.2. Reinforcements: macroscale and nanoscale
3.1.3. Multi-material combinations and co-printing
3.2. Characterization of additively manufactured polymer matrix composites
3.2.1. Mechanical properties
3.2.2. Thermal analysis
3.2.3. Microstructural and interfacial quality
3.2.4. Environmental resistance and chemical stability
3.3. Applications of additively manufactured polymer matrix composites
3.3.1. Aerospace: lightweight and complex structures
3.3.2. Automotive: performance- and weight-optimized components
3.3.3. Medical: customized prosthetics, orthotics, and implants
3.3.4. Electronics: housings, smart devices, and sensors
3.3.5. Industrial: tooling, jigs, and prototypes
4. Challenges and limitations in additive manufacturing of polymer matrix composites
4.1. Material compatibility challenges
4.2. Limitations in part size and complexity
4.3. Potential defects: porosity, anisotropy, surface quality
4.4. Durability and fatigue behavior of additively manufactured polymer matrix composite parts
4.5. Environmental considerations: sustainability and recycling
5. Optimization of additive manufacturing for polymer matrix composites
5.1. Influence of printing parameters (temperature, speed, orientation)
5.2. Effect of reinforcements on the quality of printed objects
5.3. Strategies to enhance mechanical and thermal properties
5.4. Control of porosity and interfacial quality
6. Future perspectives
6.1. Development of novel smart composites for additive manufacturing
6.2. Integration of sensors into printed parts
6.3. Multiscale additive manufacturing and 4D printing
6.4. Future outlooks for machines and processes: automation and optimization through artificial intelligence
6.5. Standardization and certification for additively manufactured polymer matrix composites