• Track 1: Functional, Smart and Advanced Materials
• Track 2: Advanced Manufacturing and Processing Technologies
• Track 3: Modelling, Simulation and AI in Materials & Manufacturing
• Track 4: Mechanical, Functional and Performance Properties
• Track 5: Sustainable Materials and Circular Manufacturing
• Track 6: Fabrication and Synthesis of Functional Materials
• Track 7: Energy Storage and Conversion Devices
• Track 8: Biosensors and Bio-Integrated Materials
• Track 9: Ferrites, Magnetic Nanomaterials, and Spintronic Applications

Track 1: Functional, Smart and Advanced Materials

• Ferrous and Non-ferrous Materials
• Composites and Hybrid Materials
• Nanomaterials and Nanostructured Materials
• Functional and Smart/Intelligent Materials
• Polymeric, Ceramic and Biomaterials
• Thin Films and Coatings
• Mechanical Behaviour, Fracture and Reliability
• Materials Characterization and Properties
• Sensors, Actuators and Active Materials
• Energy Storage and Energy Harvesting Materials
• Quantum Materials and Metamaterials
• Electronic, Optical and Magnetic Materials

Track 2: Advanced Manufacturing and Processing Technologies

• Conventional and Non-Conventional Machining
• Hybrid and Advanced Finishing Processes
• Surface Engineering and Coatings
• Forming, Joining and Welding Technologies
• Additive Manufacturing and 3D Printing
• Laser and Micro-Machining
• Microwave and Advanced Materials Processing
• Bio-manufacturing and Sustainable Manufacturing

Track 3: Modelling, Simulation and AI in Materials & Manufacturing

• Computational Materials Science
• Modelling and Simulation of Processes
• Finite Element and Numerical Techniques
• AI, Machine Learning and Optimization
• CAD/CAM/CAE and Digital Manufacturing
• Process Monitoring and Control
• Tribology and Multiphysics Modelling
• MEMS and Nanomechanics

 Track 4: Mechanical, Functional and Performance Properties

• Fracture, Fatigue and Damage Mechanics
• Tribology and Wear Behaviour
• Corrosion and Environmental Degradation
• Creep and High-Temperature Behaviour
• Interfaces and Interphases
• Structural Integrity and Reliability
• Functional, Electrical and Magnetic Properties

Track 5: Sustainable Materials and Circular Manufacturing

• Sustainable and Green Materials
• Life Cycle Assessment and Lifecycle Engineering
• Circular Economy and 6R Strategies
• Recycling, Recovery and Remanufacturing
• Energy-Efficient Manufacturing Systems
• Low-Carbon Processing Technologies
• Resource Optimization and Waste Minimization
• Sustainable Design and Eco-friendly Processes

Track 6: Fabrication and Synthesis of Functional Materials

• Advanced synthesis techniques for functional materials
• Thin film deposition and coating technologies
• Powder metallurgy and sintering
• Chemical, electrochemical and sol-gel methods
• Nanofabrication and microfabrication
• Scalable and industrial fabrication routes
• Process–structure–property relationships
• Fabrication of multifunctional and hybrid materials

Track 7: Energy Storage and Conversion Devices

• Battery Materials and Technologies (Li-ion, Na-ion, Solid-state)
• Supercapacitors and Hybrid Storage Systems
• Hydrogen Storage Materials
• Fuel Cells and Electrochemical Systems
• Materials for Solar and Energy Harvesting Devices
• Thermal Energy Storage
• Performance, Safety and Degradation Studies
• Next-generation energy storage materials

Track 8: Biosensors and Bio-Integrated Materials

• Nanomaterials for biosensing (CNTs, graphene, MXenes)
• Electrochemical, optical, and piezoelectric biosensors
• Wearable and implantable biosensors
• Lab-on-chip and microfluidic sensing platforms
• AI-assisted biosensing and signal processing
• Point-of-care diagnostics and healthcare monitoring
• Flexible and printable biosensor materials
• Bio-interface engineering and surface functionalization
• Environmental and food safety biosensors
• Smart biosensing systems for IoT applications

Track 9: Ferrites, Magnetic Nanomaterials, and Spintronic Applications

• Spinel ferrites and hexaferrites
• Magnetic nanoparticles and nanocomposites
• Ferrites for EMI shielding and microwave absorption
• Soft ferrites for power electronics and transformers
• Magnetic materials for sensors and actuators
• Multiferroic and magnetoelectric materials
• Ferrites in biomedical applications (hyperthermia, drug delivery)
• Thin films and ferrite coatings
• Ferrites for energy harvesting and storage
• Computational modeling and magnetic characterization