World Conference on Advances in Materials Science & Engineering WAMSE on December 25-27, 2025 in Bali, Indonesia - Conference Index

World Conference on Advances in Materials Science & Engineering WAMSE on December 25-27, 2025 in Bali, Indonesia

World Conference on Advances in Materials Science & Engineering (WAMSE) December 25, 2025 - Bali, Indonesia

20th BALI World Conference on Advances in “Materials Science & Engineering” (WAMSE-25) scheduled on Dec. 25-27, 2025 Bali (Indonesia) is for the engineers, practitioners, scientists, researchers, scholars, and students from all around the world and it also includes the industry people to present ongoing research activities, and hence to foster research relations between Academia and industry. The conference is being organized by Emirates Research Publication (ERPUB) operting under Pilares D Elegancia LDA (Portugal). This conference provides opportunities for the delegates to share new ideas and application experiences face to face, to establish business or research relations and to find global partners for future collaboration. All the submitted conference papers will be peer reviewed by the program/technical committees of the Conference. 

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.

Name: EARET
Website: http://earet.org

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