Prof. S S Joshi

Areas Of Expertise

• Computer aided modelling of machining processes
• Machining of composite materials
• Manufacturing engineering
• Micro-machining and nano-machining
• Surface integrity and mechanical characterisation,,High-speed Milling
• Superalloys,Mechanical seals
• Primary Coolant Pumps
• ELR mechanism,Nano-Polishing
• Single Crystal Semi-Spherical Cavity
• Micrometallic Fluidic Structures,Micromachining
• Artificial Neural Networks (ANN)
• Composites
• Machining
• Modeling
• Surface finish
• Anode erosion
• Cathode erosion
• Electro discharge machining (EDM)
• Micro-EDM
• Non-conventional machining
• Plasma
• Single spark model
• Analytical model
• Cutting forces
• Face-milling
• Milling cutter
• Self-propelling insert
• Magnetic Abrasive Finishing
• Material Removal
• Response Surface Method
• Surface finish
• Surface roughness
• Rotary tools
• Self-propelled tools
• Taguchi method
• Metal matrix composites
• Surface integrity
• Wiper insert
• High-speed turning
• Inconel 718
• Superalloy
• Surface roughness
• Debris inclusion
• Single-spark
• Spark erosion
• Analysis of means (AOM)
• Analysis of variance (ANOVA)
• Micro-EDM drilling
• Micro-holes
• Oversize
• Taguchi methods
• Abrasion
• CFD simulation
• Electrochemical grinding
• Material removal rate
• Micro-ECG
• Artificial Neural Networks
• Metal matrix composites design of experiments
• Degree of work hardening
• Edge geometry
• Microhardness
• residual stress
• High-speed machining
• Oblique cutting
• Ploughing forces
• Size-effect
• Specific shearing energy
• Erosion rate
• Microwire-EDM
• Multi-spark erosion
• Single-spark erosion
• Temperature distribution
• Chip-tool interface friction
• Metal-cutting friction
• Three-body friction
• Two-body friction
• Chip formation
• Effective shear angle
• MMCs
• Size and volume fraction of reinforcement
• Cutting edge geometry
• Cutting forces
• Machining
• Metal matrix composites
• Surface roughness
• Aluminum-matrix composites
• Machinability
• Particle
• Hot machining
• Wiper inserts
• Ball-end milling
• Chip dimensions
• High-speed
• Systems
• Array of micro-rods
• Dimensional analysis
• Reverse micro-EDM
• Taguchi method-based analysis
• Dimensional accuracy
• Dry EDM
• Single discharge
• Tool wear rate