The Global Journal of Materials Science and Engineering is a peer-reviewed journal. The goal of this journal is to provide a platform for academicians, researchers, and practitioners all over the world to promote, share, and discuss various new issues and developments in all areas of Materials Science and Engineering. Manuscripts are subject to a rigorous and fair peer-review process. It covers all the following areas but is not limited to.
Smart Materials
Materials for Space, Self-Healing Materials, Nanocarbon Materials, Composites, and Nanoceramics Conducting and conjugated polymers, electrochromic materials, liquid crystals, inorganic-organic hybrids, molecular-level smart materials, biomaterials, electrochemistry, catalyst materials, materials for energy conversion and storage devices and systems, the science and applications of primary and secondary batteries, fuel cells, and super capacitors
Powder Metallurgy and Particulate Technology
Metallic Particulate Materials, PM Tool Materials, Hard Materials, Powder Composites, and Novel Powder-Based Materials
Surface Engineering & Coatings Technology
Biocompatible Coating, Ceramic Coating, Coatings For The Food Industry, Coatings For Optical Applications, Steel Erosion, Corrosion Resistant Coatings, CVD (Chemical Vapour Deposition) Deposited Coatings, Decorative Coatings, Electro-Deposited Coatings, Ion And Electron Beam Deposited Coatings, Laser Cladding, Magnetic Coatings, Multilayer Coatings, Hard And Wear Resistant Coating
Fusion And Fission Materials
Fission Reactor Materials, Including Fuels, Cladding, Core Structures, Pressure Vessels, Coolant Interactions With Materials, Moderator And Control Components; Fission Product Behaviour; Materials Aspects Of The Entire Fuel Cycle; Materials Aspects Of The Actinides And Their Compounds; Performance Of Nuclear Waste Materials; Immobilisation Of Wastes; Fusion Reactor Materials, Including First Walls, Blankets, Insulators And Magnets; Neutron and charged particle radiation effects in materials, including defects, transmutations, microstructures, phase changes, and macroscopic properties; interaction of plasmas, ion beams, electron beams, and electromagnetic radiation with materials; and diffusion in materials.
The Materials and Technology
Cement, Concrete Reinforcement, Bricks and Mortars, Additives, Corrosion Technology, Ceramics, Timber, Steel, Polymers, Glass Fibres, Recycled Materials and By-Products, Ealants, Adhesives, Chemical Engineering
Mathematical Modeling-Simulation Study of Materials
Diffusion in Materials, Fusion and Fission Materials, Smart Materials, Nanomaterials, Surface Engineering and Coatings Technology, and Properties
A | |
Advanced Materials and Smart Structures | Magnetic properties |
Acoustics | Manufacturing Processes |
Acoustics and Noise Control | Material characterization |
Additive manufacturing | Material Engineering |
Aerodynamics | Materials characterization |
Aerodynamics and Aeroelasticity | Materials design |
B | Materials processing |
Biomechanics Automotive Engineering | Materials properties |
Biomaterials | Materials Science |
Biomechanics | Materials synthesis |
Biomechanics and Biomaterials | Materials testing |
C | Mechanical properties |
Computational Mechanics | Mechanics of Nanomaterials |
Ceramics | Mechatronics |
Characterization techniques (e.g. microscopy, spectroscopy, diffraction) | Metallurgy |
Coatings and thin films | Metals |
Composite materials | Micro Electro Mechanical Systems (MEMS) |
Composites | Multibody Dynamics |
Compressible Flows | N |
Computational and Experimental Mechanics | Nanotechnology |
Computational Fluid Dynamics (CFD) | Nonlinear Dynamics |
Corrosion | Nanomaterial Engineering |
Corrosion and wear | Nanomaterials |
Crystallography | Nanostructures |
D | Nanotechnology |
Damage Identification and Non-Destructive Evaluation (NDE) | Noise Control |
Dynamic Instability and Buckling | Nonlinear Dynamics |
Dynamics | O |
E | Optical materials |
Electrical Properties | Optical properties |
Electronic materials | Plasticity Mechanics |
Electronic properties | P |
Energy materials | Polymers |
Engineering Materials | R |
F | Recycling |
Flows in Porous Media | Rheology |
Fluid Dynamics | S |
Fluid-Structure Interaction | Semiconductors |
Fracture and Damage Mechanics | Smart materials |
Fracture Geomechanics | Structural Dynamics |
G | Structural Dynamics and Control |
Geomechanics and Mechanics of Granular Materials | Structural materials |
H | Surface coatings |
Heat and Mass Transfer | Surface engineering |
Heat and Mass Transfer | Surface Engineering and Contact Mechanics |
I | Surface Science |
Impact and Multibody | Sustainable materials |
L | T |
Life cycle assessment | Thermal properties |
M | Thermal properties. |
Manufacturing Process | Thin films |
Materials characterization | Transport Phenomena |
Mathematical modelling in Mechanical engineering | V |
Mechanical engineering education Plasticity | Vibrations |
Magnetic materials |