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July 3rd, 2014, 08:17 AM
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Jindal Steel Power Limited (JSPL) Graduate Engineer Trainee (GET) exam syllabus of Mechanical Engineering
I want to give the Jindal Steel Power Limited (JSPL) Graduate Engineer Trainee (GET) exam and for that I want to get the Jindal Steel Power Limited (JSPL) Graduate Engineer Trainee (GET) exam syllabus of Mechanical Engineering so can you provide me that? As you want to get the Jindal Steel Power Limited (JSPL) Graduate Engineer Trainee (GET) exam syllabus of Mechanical Engineering so here is the information of the same for you: Syllabus for Applied Mechanics and Design Engineering Mechanics • Free body diagrams and equilibrium • Kinematics and dynamics of particles and of rigid bodies in plane motion • Trusses and frames • Virtual work Theory of Machines • Critical speeds of shafts • Displacement • Dynamic analysis of slider-crank mechanism • Effect of damping • Free and forced vibration of single degree of freedom systems • Gear trains and flywheels • Resonance • Velocity and acceleration analysis of plane mechanisms • Vibration isolation • Vibrations Strength of Materials • Stress-strain relationship and elastic constants • Euler’s theory of columns • Shear force and bending moment diagrams • Mohr’s circle for plane stress and plane strain • Strain energy methods Design • Failure theories • Design for static and dynamic loading • Fatigue strength and the S-N diagram • Principles of the design of machine elements Syllabus for Fluid Mechanics and Thermal Sciences Fluid Mechanics • Bernoulli’s equation • Boundary layer • Control-volume analysis of mass, momentum and energy • Differential equations of continuity and momentum • Elementary turbulent flow • Fluid acceleration • Fluid properties • Viscous flow of incompressible fluids Heat-Transfer • Dimensionless parameters in free and forced convective heat transfer • Effect of turbulence • Heat exchanger performance • LMTD and NTU methods • Modes of heat transfer • Radiative heat transfer, black and grey surfaces, shape factors and network analysis • Thermal boundary layer • Various correlations for heat transfer in flow over flat plates and through pipes Thermodynamics • Analysis of thermodynamic cycles related to energy conversion • Behavior of ideal and real gases • Calculation of work and heat in ideal processes • Carnot cycle • Irreversibility and availability • Thermodynamic system and processes • Zeroth, First and Second laws of thermodynamics Applications • I.C. Engines • Power Engineering • Refrigeration and air-conditioning • Turbomachinery Syllabus for Manufacturing and Industrial Engineering Engineering Materials • Heat treatment • Stress-Strain diagrams for engineering materials • Structure and properties of engineering materials Metal Casting • Riser and gating design • Design considerations • Design of patterns, moulds and cores • Solidification and cooling Joining • Adhesive bonding • Design considerations in welding • Physics of welding, brazing and soldering Forming • Fundamentals of hot and cold working processes • Load estimation for bulk and sheet metal forming processes • Plastic deformation and yield criteria • Principles of powder metallurgy Machining and Machine Tool Operations • Economics of machining • Mechanics of machining • Principles of design of jigs and fixtures • Principles of non-traditional machining processes • Principles of work holding • Single and multi-point cutting tools • Tool geometry and materials • Tool life and wear Metrology and Inspection • Alignment and testing methods • Comparators • Form and finish measurement • Gauge design • Interferometry • Limits, fits and tolerances • Linear and angular measurements • Tolerance analysis in manufacturing and assembly Computer Integrated Manufacturing • Basic concepts of CAD/CAM and their integration tools Production Planning and Control • Aggregate production planning • Forecasting models • Materials requirement planning • Scheduling Inventory Control • Deterministic and probabilistic models • Safety stock inventory control systems Operations Research • Assignment • Linear programming • Network flow models • PERT and CPM • Simple queuing models • Simplex and Duplex method • Transportation Last edited by Neelurk; May 16th, 2020 at 03:36 PM. |
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