Full Official Handbook – Complete Breakdown & Insights (Free PDF)
The field of composite materials is evolving faster than ever before. From aerospace structures to robotics, from biomedical devices to sustainable materials engineering – composites now shape the backbone of next-generation manufacturing and innovation.
To support this global momentum, three of Asia’s most technologically advanced countries – China, Korea, and Japan – came together for one of the most prestigious regional scientific events:
China-Korea-Japan Joint Symposium on Composite Materials 2024
Venue: White Swan Hotel, Guangzhou, China
Organizers:
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Chinese Society for Composite Materials
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Korean Society for Composite Materials
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Japan Society for Composite Materials
This symposium represents decades of collaboration among the three countries, strengthening research ties and contributing to major breakthroughs in advanced materials science, intelligent manufacturing, smart structures, and nanotechnology.
In this post, I am sharing a complete, official PDF handbook of the symposium – a highly valuable resource for engineers, researchers, innovators, and students working in materials science.
This extended article offers:
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A detailed overview of the symposium
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What’s included in the official handbook
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Why this document is extremely valuable for researchers
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A structured summary of the sessions, speakers, and research domains
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Download instructions
You can copy this entire content for your website or LinkedIn.
What Is the China-Korea-Japan Joint Symposium on Composite Materials?
This symposium is one of the most respected academic and scientific events in Asia for composite materials research. It brings together:
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Leading universities
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Top research labs
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Government R&D bodies
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Aerospace and manufacturing companies
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Graduate researchers and PhD scholars
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Material scientists and industrial engineers
The main objective of the event is to share cutting-edge progress, discuss challenges, and build cross-border collaboration in composite materials.
The 2024 event, held in Guangzhou, China, was especially impactful because it highlighted the convergence of nanotechnology, intelligent systems, and advanced manufacturing – showing where the future of composites is heading.
What’s Inside the Official Handbook? (Highly Valuable for Researchers & Students)
The handbook is not just an event schedule; it’s a complete scientific resource.
It includes detailed insights across 25 advanced research fields, expert presentations, session breakdowns, committees, and logistical information. For anyone studying or working in materials science, this document is an excellent reference.
Let’s explore the major components.
1. Complete Event Overview & Introduction
The handbook begins with a comprehensive introduction to the symposium, covering:
Venue Details
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White Swan Hotel, Guangzhou
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Conference rooms and layout
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Breakout session locations
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Facilities for speakers and participants
Organizing Bodies
The symposium was jointly hosted by:
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The Chinese Society for Composite Materials (CSCM)
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The Korean Society of Composite Materials (KSCM)
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The Japan Society for Composite Materials (JSCM)
These three societies are among the most respected institutions in the world in the field of advanced materials.
Purpose of the Symposium
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Strengthening trilateral scientific cooperation
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Sharing new research achievements
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Discussing future trends in composites
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Promoting sustainability and innovation
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Encouraging academic–industry collaboration
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Creating networking opportunities for young researchers
This event represents a long tradition of collaboration between China, Korea, and Japan – three countries with world-leading expertise in composite research.
2. 25 Major Research Topics Covered
A Deep Dive into the Future of Composite Materials**
One of the most valuable parts of the handbook is the complete list of technical tracks. These cover almost every modern research direction in composites and materials engineering.
Below is a detailed breakdown of the 25 advanced themes included:
1. Nanocomposites
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Carbon nanotubes
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Graphene-enhanced structures
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Nanoscale reinforcement technology
2. Smart Materials & Intelligent Structures
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Self-sensing composites
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Shape memory materials
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Adaptive aerospace structures
3. 3D & 4D Additive Manufacturing
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Polymer & metal 3D printing
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Multi-material hybrid printing
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Time-dependent “4D” transformable structures
4. Ceramic Matrix Composites (CMC)
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Ultra-high-temperature materials
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Aerospace engine applications
5. Metal Matrix Composites (MMC)
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High-strength lightweight structures
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Thermal management applications
6. Bio-Inspired & Biomimetic Composites
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Nature-mimicking architectures
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Bio-processing-inspired synthesis techniques
7. Structural Health Monitoring
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Embedded sensors
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Real-time damage detection
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Data-driven structural analytics
8. Multiscale Mechanical Analysis
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Molecular modeling
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Microstructure-level simulations
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Full-scale structural behavior
9. Data-Driven Composite Design
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AI-assisted material design
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Big-data based material optimization
10. Sustainable & Green Composites
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Recyclable resins
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Eco-friendly thermoplastics
11. Aerospace Composite Applications
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Lightweight airframe structures
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Advanced propellers & blades
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Aircraft interior components
12. Robotics & Automated Manufacturing
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Composite-based manipulators
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Automated fiber placement (AFP)
13. Fiber Reinforcement Technologies
14. Polymer Matrix Composites (PMC)
15. Durability & Long-Term Performance
16. Thermal & Electrical Properties
17. Impact & Crashworthiness
18. Hybrid Composites
19. Composite Joints & Interfaces
20. Fatigue & Damage Mechanics
21. Marine Composite Applications
22. High-Performance Carbon Composites
23. Ceramic-Coated Composite Structures
24. Mechanics of Sandwich Structures
25. Industrial & Commercial Composite Applications
This diversity makes the handbook extremely resourceful for any researcher or engineer looking to stay updated with modern composite technology.
3. Plenary Speakers – World-Class Experts Shaping the Future of Materials Science
The 2024 symposium invited four globally renowned scientists, each presenting groundbreaking research.
🔹 Prof. Yiu-Wing Mai
Topic: Carbonaceous Nanofillers for High-Performance Composites
A pioneer in the field of fracture mechanics and nanocomposite technologies.
🔹 Prof. Ilkwon Oh
Topic: Wearable Haptic Interfaces with Auxetic Structures
His research focuses on smart structures, auxetic materials, and human–machine interaction.
🔹 Prof. Zhengyi Fu
Topic: Bioprocessing-Inspired Material Synthesis
A leader in sustainable materials and bio-inspired processing.
🔹 Prof. Asami Nakai
Topic: Sustainable Thermoplastic Composite Manufacturing
Renowned for advancing recyclable and eco-friendly composite materials.
These experts provided essential insights into the future direction of the global composite industry.
4. Comprehensive 2-Day Programme Schedule
The official handbook includes a full two-day detailed schedule, including:
Plenary Sessions
These are high-level keynote talks from the four invited experts.
Parallel Technical Sessions
Multiple rooms with topic-specific presentations running simultaneously.
Keynote, Invited, and Regular Presentations
Each session features:
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Keynote speakers
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International researchers
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Emerging scholars
Presentation Timelines & Room Allocations
If you’re a researcher, this section is extremely valuable for understanding:
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Active research domains
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Ongoing investigations
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Regional and global trends
5. Organizing Committees & Academic Contributors
The handbook lists 200+ scientists, professors, and industry leaders from China, Korea, and Japan who organized or contributed to the conference.
These include experts from:
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Top national universities
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Aerospace research centers
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National laboratories
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Industrial innovation institutes
This makes the handbook a great reference for networking and identifying potential research collaborators.
6. Venue Layout, Transportation & Logistics
The handbook also includes helpful travel information:
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Hotel layout
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Floor maps
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Nearby transport systems
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Session locations
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Registration counters
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Social event arrangements
This will be extremely useful for those planning to attend future symposiums.
Who Should Download This Handbook?
This resource is particularly valuable for:
PhD Students & Researchers
Looking for new research topics, literature references, or breakthrough ideas.
Engineers & Industry Innovators
Working in:
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Aerospace
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Robotics
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Manufacturing
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Smart structures
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Mechanical design
Academics & Professors
Preparing course modules, lectures, or supervising student research.
Industrial R&D Professionals
Interested in product development, high-performance materials, and next-gen composites.
Sustainability Researchers
Exploring recyclable, eco-friendly material innovations.
Why This PDF is Extremely Useful
Most conferences don’t openly share their full handbook or programme details. Having access to this document means:
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You understand the latest global trends
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You can identify top research labs in Asia
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You get access to high-impact topics
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You discover future-ready innovations
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You stay updated with cutting-edge materials technology
This is a rare opportunity to explore highly technical content without attending the event.
Download the Official Handbook (Free)
You can download the complete symposium handbook PDF from the attachment provided in this post.
It’s free to use for study, research inspiration, academic writing, and general knowledge.
Final Words
The China–Korea–Japan Joint Symposium on Composite Materials 2024 represents the shared commitment of three advanced nations toward the future of composite innovation. The official handbook captures the best research, the brightest minds, and the emerging trends that will define the next decade of materials science.
If you’re in engineering, research, or advanced manufacturing, this PDF is one of the most valuable references you can explore.
Feel free to download it, study it, and share it with your colleagues or research group.
