35th ISTANBUL International Conference on Advanced Materials and Sustainable Infrastructure (IAMSI-26) scheduled on April 2-4, 2026 Istanbul (Türkiye)

IAMSI-26


Materials Engineering Composite Materials Materials Engineering



Call for Papers: IAMSI-26



 



Full Articles/ Reviews/ Shorts Papers/ Abstracts are welcomed in the following research fields.



Advanced Materials and Sustainable Infrastructure



I. Sustainable & Low-Carbon Structural Materials



This section focuses on reducing the embodied carbon and improving the longevity and performance of primary construction materials.





  • A. Low-Carbon Cementitious Systems





    • Geopolymer Cements (Alkali-Activated Materials)




    • Calcined Clay Cements (e.g., LC3)




    • Carbon Capture and Utilization (CCU) in Concrete Production




    • Alternative Binders (e.g., magnesium-based cements)






  • B. Bio-Based and Renewable Materials





    • Mass Timber (Glulam, CLT, NLT) and Engineered Wood Products




    • Bamboo Composites and Structural Systems




    • Myco-Materials (Fungus-based building materials)




    • Bio-Adhesives and Bio-Plastics for Construction






  • C. Recycled and Circular Materials





    • Recycled Aggregate Concrete (RAC)




    • Waste-to-Material Conversion (e.g., using fly ash, slag, glass)




    • Construction and Demolition (C&D) Waste Management




    • Modular and Design for Disassembly (DfD) Materials







II. Smart, Adaptive, and Self-Healing Materials



This category deals with materials that can interact with their environment to improve durability, monitor performance, and adapt to stress.





  • A. Self-Healing Materials





    • Micro-Encapsulation Technology for Crack Repair in Concrete




    • Vascular Networks and Autonomous Healing Systems




    • Self-Repairing Asphalt and Road Surfaces






  • B. Smart Sensors and Monitoring Integration





    • Integrated Fiber Optic Sensors (FOS) for Strain/Temperature




    • Piezoelectric Materials for Structural Health Monitoring (SHM)




    • Wireless Sensor Networks (WSN) embedded in materials






  • C. Adaptive and Phase-Change Materials





    • Phase-Change Materials (PCMs) for Thermal Regulation in Buildings




    • Shape Memory Alloys (SMAs) for Seismic Dampening and Restoration




    • Electro/Thermochromic Materials for Smart Windows







III. Energy Infrastructure Materials and Systems



This area focuses on materials crucial for generating, storing, and efficiently transporting sustainable energy.





  • A. Advanced Materials for Energy Generation





    • Perovskites and Tandem Solar Cells for High-Efficiency Photovoltaics




    • High-Performance Materials for Wind Turbine Blades (e.g., Carbon Fiber Composites)




    • Solid Oxide Fuel Cell (SOFC) Materials






  • B. Materials for Energy Storage





    • Solid-State Electrolytes for Next-Generation Batteries




    • Graphene and Carbon Nanotubes for Supercapacitors




    • Advanced Materials for Hydrogen Storage (Metal Hydrides)






  • C. Efficient Transmission and Grids





    • High-Temperature Superconductors (HTS) for Power Transmission




    • Advanced Dielectrics for Grid Insulators




    • Smart Grid Materials and Components







IV. Resilient and Protective Materials



This focuses on materials engineered to withstand extreme conditions, environmental decay, and natural hazards.





  • A. Materials for Corrosion and Degradation Control





    • High-Performance Coatings and Thin Films




    • Graphene and Nanomaterial Coatings for Enhanced Barrier Properties




    • Self-Cleaning and Photocatalytic Materials (e.g., $\text{TiO}_2$ coatings)






  • B. Fire and Extreme Event Resistance





    • Intumescent and Fire-Retardant Coatings




    • Ultra-High Performance Concrete (UHPC) for Blast Resistance




    • Ballistic and Impact-Resistant Composites






  • C. Water and Wastewater Infrastructure





    • Advanced Filtration Membranes (e.g., Nanofiber and Graphene Oxide Membranes)




    • Corrosion-Resistant Piping Materials (e.g., reinforced polymers)




    • Materials for Desalination Technologies







V. Life Cycle and Economic Analysis



This category addresses the necessary analytical framework for evaluating the sustainability and feasibility of advanced materials.





  • A. Life Cycle Assessment (LCA)





    • Methodology for Material Environmental Impact Quantification




    • Cradle-to-Grave and Cradle-to-Cradle Analysis




    • Embodied Energy and Embodied Carbon Calculations






  • B. Techno-Economic Analysis (TEA)





    • Cost-Benefit Analysis of Advanced Material Adoption




    • Return on Investment (ROI) for Durable and Self-Healing Infrastructure






  • C. Policy, Standards, and Regulations





    • Development of Performance-Based Material Standards




    • Green Building Certification Systems (e.g., LEED, BREEAM)




    • Incentives and Policies for Sustainable Procurement





Event Promotion

The 3rd International Conference on Sustainability: DEVELOPMENTS & INNOVATIONS (ICSDI 2026)
2026-02-08 ~ 2026-02-12
The 15th Asia-Pacific Conference on Transportation and the Environment (APTE 2026)
2026-07-08 ~ 2026-07-10

Journal Promotion

Acta Koreana (Acta Koreana)
Acta Via Serica (AVS)
Journal of Information Processing Systems (JIPS)
Journal of Internet Computing and Services (KSII - JICS)
Membrane and Water Treatment (MWT)
Wind and Structures, An International Journal (Wind and Structures)

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