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International Journal of Applied Research in Mechanical Engineering

Aims & Scope

The International Journal of Applied Research in Mechanical Engineering (IJARME) is a refereed, interdisciplinary journal that publishes theoretical and experimental research, their applications and future trends relevant to various streams of mechanical engineering. The IJARME publishes original research work with special emphasis on research and development in mechanical engineering that contributes significantly to further the knowledge in mechanical engineering and technology. IJARME also provides discussion and the exchange of information on all important aspects of classical and modern mechanical engineering. In addition IJARME covers all sustainable development aspects related with mechanical engineering. The objective of this journal is to reflect the changes in various disciplines in mechanical engineering scenario and provide a platform for future growth. IJARME also invites special issues and guest edited volumes from professors and researchers on various topics of Mechanical Engineering.
Topics to be discussed in this journal include (but are not limited to) the following:
• Aerodynamics and fluid mechanics
• Automation, Mechatronics, and Robotics
• Automotive engineering
• Bioengineering materials, biomechanics and biotribology
• Bulk deformation processes and sheet metal forming
• Composites, ceramics, and polymers processing
• Computational mechanics / FEM modeling and simulation
• Computer-based manufacturing technologies: CNC, CAD, CAM, FMS, CIM
• Concurrent engineering
• Corrosion, Heat treatment, microstructure and materials properties
• Cryogenics
• Dynamic system analysis
• Energy conservation and auditing
• Expert system
• Failure and fracture mechanics
• Friction, wear, tribology, and Surface engineering
• Functionally graded materials, cellular materials
• Heating and ventilation air conditioning system
• High speed machining
• Hydrostatic transmissions and pneumatics
• I.C engines and Turbo machinery
• Kinematics and dynamics of rigid bodies • Lubricants and lubrication
• Machinability and formability of materials
• Manufacturing design for 3r “reduce, reuse, recycling”
• Mechanical micro machining
• Mechanisms and machines
• Medical device manufacturing
• Metal casting, metal joining processes
• Metrology and computer aided inspection
• Micro and nanomechanics
• Modeling, simulation, and optimization
• Multifunctional and smart materials
• Nanomaterials and nanomanufacturing
• Precision engineering
• Product design and development
• Rapid manufacturing technologies and prototyping, remanufacturing
• Recycling systems
• Renewable energies technology
• Reverse engineering
• Sensors for intelligent manufacturing and artificial intelligence
• Soft computing techniques
• Solid mechanics and structural mechanics
• Sustainable and green manufacturing
• Thermodynamics and heat transfer
• Tool condition monitoring
• Traditional and non-traditional machining processes
• Vibration and acoustics