Call for Abstract

23rd World Congress on Structural Materials and Materials Science, will be organized around the theme “Revamping Innovations in Materials Science Research”

Structural Materials Congress 2018 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Structural Materials Congress 2018

Submit your abstract to any of the mentioned tracks.

Register now for the conference by choosing an appropriate package suitable to you.

  • Track 1-1Atomic and Nano Structures
  • Track 1-2Micro and Macro Structures
  • Track 1-3Crystallography and Bonding Properties
  • Track 1-4Materials Synthesis and processing
  • Track 2-1Functional inorganic materials
  • Track 2-2Nanomaterials
  • Track 2-3Thermodynamics and Kinetics
  • Track 3-1Advanced Materials Design and Processing
  • Track 3-2Biomaterials
  • Track 3-3Electronic and Photonic Materials
  • Track 3-4Nanoscale Materials and Nanotechnology
  • Track 3-5Soft Materials and Polymers
  • Track 4-1Metals
  • Track 4-2Ceramics
  • Track 4-3Polymers
  • Track 4-4Semiconductors
  • Track 6-1Waste Management Technologies
  • Track 6-2Sensing and Detecting Methods
  • Track 6-3Characterizing Laser Materials
  • Track 6-4Nanostructured Materials
  • Track 7-1Sustainability
  • Track 7-2Source reduction
  • Track 7-3Innovation
  • Track 7-4Green building and Green chemistry
  • Track 8-1Residual stress and strain analysis
  • Track 8-2Functionality of applied materials
  • Track 8-3Coatings and thin films characterization
  • Track 8-4Earth science and related materials
  • Track 9-1Heterogeneous Catalytic Nanomaterials
  • Track 9-2Methods for Preparation
  • Track 9-3Carbon Nanotube Bioconjugates
  • Track 10-1Nano-particles characterization
  • Track 10-2Chemical and phase analysis in novel materials
  • Track 10-3Bio catalytic Nano-systems
  • Track 10-4Magnetically Induced Hyperthermia for Biomedical Applications
  • Track 11-1Crystallography
  • Track 11-2Tomography for 3D characterization
  • Track 11-3Investigation of catalysis processes
  • Track 12-1Materials in Industry
  • Track 12-2Microtechnology
  • Track 12-3Crystallography Metallurgy
  • Track 12-4Biomaterials
  • Track 12-5Tribology and Ceramography
  • Track 12-6Glass Science
  • Track 13-1Matrix
  • Track 13-2Synthetic polymers
  • Track 13-3Natural polymers
  • Track 13-4Cells and Regulators
  • Track 14-1Bio-Inspired Magnetic Nanoparticles
  • Track 14-2Nanoparticles for Bioimaging
  • Track 14-3Biomedical Applications of Dendrimer Porphyrin
  • Track 14-4Polymeric Nanoparticles in Cancer Therapy
  • Track 15-1The random-walk model
  • Track 15-2Simulation of finite systems
  • Track 15-3Electronic structure methods
  • Track 15-4Interatomic potentials
  • Track 15-5Molecular dynamics
  • Track 16-1Molecular interactions
  • Track 16-2Time dependence
  • Track 16-3Rigid rotation
  • Track 16-4Molecular dynamics
  • Track 17-1Nanocomposites Layered compounds
  • Track 17-2Synthesis of Nanocomposites
  • Track 17-3Polymers Nanocomposites
  • Track 17-4Metals and ceramics Nanocomposites
  • Track 18-1Benefits of 2D Materials
  • Track 18-22D materials beyond Graphene
  • Track 18-32D Topological Materials
  • Track 18-4Chemical functionalization of Graphene
  • Track 19-1Metal forming
  • Track 19-2Modeling and simulation
  • Track 19-3Foundry technology
  • Track 19-4Metallurgical machinery and automation
  • Track 19-5Hydrometallurgy
  • Track 19-6Environmental protection
  • Track 20-1Mechanics of materials
  • Track 20-2Micro and macro materials characterisation
  • Track 20-3Contact, friction and mechanics of discrete systems
  • Track 20-4Elemental analysis
  • Track 20-5Structural analysis