20th BALI World Conference on Advances in “Materials Science & Engineering” (WAMSE-25) Dec. 25-27, 2025 Bali (Indonesia)
WAMSE-25
- URL: https://eaceee.erpub.org/conference/169
- Event Date: 2025-12-25 ~ 2025-12-27
- Submission Date: 2025-12-01
- Organizer: EACEEE
- Location: Bali, Indonesia
Materials Engineering Composite Materials Engineering & Computer Science (General) Materials Engineering Mechanical Engineering Aviation & Aerospace Engineering Power Engineering
Topics of Interest for Submission include, but are Not Limited to:
I. Fundamental Materials Science
Materials Physics: Theory and simulation of material behavior, quantum materials, soft matter physics, condensed matter physics.
Materials Chemistry: Solid-state chemistry, surface chemistry, chemical synthesis of new materials, inorganic and organic materials.
Materials Characterization: Advanced microscopy (TEM, SEM), spectroscopy (XPS, XRD), atomic force microscopy, and other techniques for analyzing material structure and properties.
Computational Materials Science: Machine learning and AI for materials discovery, atomistic simulations, modeling of material behavior, data-driven materials design.
II. Classes of Materials
Metals and Alloys: Metallurgy, light alloys (e.g., aluminum, titanium), high-performance steels, superalloys for extreme environments, metallic glasses.
Ceramics and Glasses: Structural ceramics, functional ceramics, high-temperature ceramics, advanced glass materials, ceramic matrix composites.
Polymers and Biopolymers: Polymer synthesis, polymer composites, plastics and their recycling, elastomers, bioplastics, biodegradable polymers.
Composites: Polymer matrix composites, metal matrix composites, ceramic matrix composites, fiber-reinforced materials, multi-functional composites.
Electronic, Optical, and Magnetic Materials: Semiconductors, spintronics, superconductors, metamaterials, ferroelectrics, photonic crystals, optoelectronic materials.
III. Advanced and Functional Materials
Nanomaterials and Nanotechnology: Nanoparticles, nanotubes (including carbon nanotubes), nanowires, quantum dots, 2D materials (graphene, MXenes, etc.), nanofabrication.
Biomaterials and Nanomedicine: Materials for implants, tissue engineering, drug delivery systems, biosensors, regenerative medicine.
Energy Materials: Materials for batteries (anodes, cathodes, electrolytes), fuel cells, solar cells (photovoltaics), hydrogen storage, thermoelectric materials.
Smart and Responsive Materials: Shape memory alloys, self-healing materials, smart polymers, materials with responsive properties to external stimuli (e.g., temperature, light).
IV. Manufacturing and Processing
Additive Manufacturing (3D Printing): 3D printing of metals, polymers, ceramics, and composites; new materials for additive manufacturing, process optimization, design for additive manufacturing.
Materials Processing: Powder metallurgy, casting, welding, joining, forming, heat treatment, surface engineering and coatings.
Sustainable and Green Materials: Recycling of materials, waste-to-materials conversion, eco-friendly synthesis, materials for a circular economy.
V. Cross-Cutting and Applied Topics
Materials for Aerospace and Automotive: Lightweight structural materials, high-temperature alloys, materials for engines and airframes, crash-resistant materials.
Materials for Construction and Civil Engineering: Sustainable building materials, concrete technology, corrosion resistance, advanced construction composites.
Materials for Electronics and Photonics: Microelectronics, flexible electronics, printed electronics, organic light-emitting diodes (OLEDs).
Artificial Intelligence and Machine Learning in Materials Science: High-throughput computational screening, data-driven discovery of new materials, AI-assisted design and synthesis.
Sustainability and Environmental Impact: Lifecycle analysis of materials, material recycling and management, environmental and health impacts of new materials.
Advanced Manufacturing and Industry 4.0: Digital twins, process monitoring and control using sensors and AI, data analytics in manufacturing.
Failure Analysis and Reliability: Fracture mechanics, fatigue, corrosion, and other forms of material degradation.
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