Mechanical Engineering

Automotive Systems Virtual Lab
Developed by : Dr. A R Mohanty, Email: amohanty@mech.iitkgp.ernet.in, Institute : Indian Institute of Technology, Kharagpur

New Link Automotive Systems Lab
Computer Integrated Manufacturing Systems
Developed by: Dr. Shankha Deb, Email: sankha.deb@mech.iitkgp.ernet.in, Institute: Indian Institute of Technology, Kharagpur

New Link of Computer Integrated Manufacturing Systems Lab
Structural Characterization of Materials Lab
Developed by : Dr. S Das, Email: sdas@metal.iitkgp.ernet.in, Institute: Indian Institute of Technology Kharagpur

New link of Structural Characterization of Materials Lab || Virtual Lab Class & Remote Access Facility || Production and Measurements of X-rays || Phase Identification by XRD || Indexing of Powder Patterns || Estimation of Precise Lattice Parameter of Cubic Crystals || Determination of Retained Austenite in Quenched Steel || Measurement of Residual Stress by X-ray diffraction || Quantitative X-ray analysis using Rietveld Refinement || Evaluation Quiz for XRD || High Resolution Imaging with SEM || Effect of beam energy on SEM imaging || Charging effect on non conducting sample and its elimination || Powder sample preparation for SEM analysis || Back Scattered Electron Imaging || Fracture surface analysis by SEM || EDS analysis || Effect of Current Density on the Nucleation and Growth of Crystal Facets during Electrodeposition || Compositional and Morphological analysis of Meteorite samples || Case Study with SEM: Morphological analysis of disperse protein sample || Case Study with SEM: Morphological analysis of Nickel foams || Case Study with SEM: Formation of alpha titanium phase in beta titanium grains || Evaluation Quiz for SEM || Atomic Force Microscopy || Surface topography of a metallic sample in contact mode using Atomic Force Microscopy || Surface topography of a metallic sample in non contact mode using Atomic Force Microscopy || Surface topography of a metallic sample in using Scanning Tunnelling Microscopy. || Surface topography of a metallic sample in using Magnetic Force Microscope || Surface topography of a ceramic sample using Atomic Force Microscopy || Compositional Mapping using LFM || Surface roughness analysis of metallic sample in contact mode/non-contact mode using Atomic Forc || High Resolution AFM Imaging of Carbon Nanotubes coated with Sn-Based Material || Evaluation Quiz for AFM
Mechanisms and Robotics lab
Developed by Dr. C S Kumar, Email: kumar@mech.iitkgp.ernet.in, Institute: Indian Institute of Technology, Kharagpur

New Link of Mechanisms and Robotics Lab || KGP-50 || THE FOURBAR MECHANISM || THE SLIDER CRANK MECHANISM || INVERSE KINEMATICS OF A 6R ROBOT || FORWARD KINEMATICS OF A 4R ROBOT || CONTROL OF 6DOF ROBOT PUMA 560 IN REAL TIME || FORWARD KINEMATICS OF A 6R ROBOT
Kinematics & Dynamics of Mechanisms
Developed by : Dr. Kingshook Bhattacharyya, Email: king@mech.iitkgp.ernet.in, Institute : Indian Institute of Technology Kharagpur

New Link of Kinematics and Dynamics of Mechanisms Laboratory
Model Based Fault detection lab
Developed by : Dr. Mihir Sarangi , Institute : Indian Institute of Technology Kharagpur

New Link of Model Based Fault Detection Lab
Robotics and Control Systems Simulation Laboratory
Developed by : Dr. C.S.Kumar , Institute : Indian Institute of Technology Kharagpur

New Link of Virtual Lab on Robotics and Control || FORWARD KINEMATICS OF A 4R ROBOT || FORWARD KINEMATICS OF A 6R ROBOT || INVERSE KINEMATICS OF A 6R ROBOT || CONTROL OF ONE DEGREE OF FREEDOM REVOLUTE TYPE ROBOT ARM WITH DC MOTOR || OPEN LOOP CHARACTERISTICS OF DC MOTOR || CLOSED LOOP CHARACTERISTICS OF DC MOTOR PROPORTIONAL CONTROL || CLOSED LOOP CHARACTERISTICS OF DC MOTOR PD CONTROL || CLOSED LOOP CHARACTERISTICS OF DC MOTOR PI CONTROL || CLOSED LOOP CHARACTERISTICS OF DC MOTOR PID CONTROL[CONTINUOUS TIME] || CLOSED LOOP CHARACTERISTICS OF DC MOTOR PID CONTROL[DISCRETE TIME]
Mechanical Systems and Signal Processing
Developed by : Dr. Amiya Mohanty , Institute : Indian Institute of Technology Kharagpur

New Link of Mechanical Systems and Signal Processing Lab || Mechanical Systems and Signal Processing
Virtual Laboratory on Mine Ventilation
Developed by : Dr. D Chakravarty, Institute: Indian Institute of Technology Kharagpur

New Link of Mine Ventilation Lab || Calibration of Inclined Tube Manometer by the use of Askania Minimeter || Familiarization with Assmann Psychrometer and Estimation of Psychrometric Properties of Mine || Establishment of the Relationship between Kata Cooling Power and Air Velocity || Determination of Shock Pressure Loss in Presence of Tub and Estimation of Drag coefficient. || Determination of Frictional Co-efficient of Mine Airways || Determination of method factor for a duct. || Calibration of Orifice Plate || Precise Traversing in a Duct using Pitot Tube || Performance Evaluation of Mine Evasee Present in a Ventilation System || Fan Rating Test
Virtual Lab for multiphase flow
Developed by : Dr. P.K.Das , Institute : Indian Institute of Technology Kharagpur

New Link of Multiphase Flow Lab
Rotating Machinery Fault Simulation
Developed by : Dr V.N.A.Naikan, Institute: Indian Institute of technology Kharagpur

New Link of Rotating Machinery Fault Simulation Lab || Machinery Soft-Foot || Diagnosis of Shaft Misalignment and its Effects || Static Balancing Studies of Rotary Systems || Oil Whirl Monitoring || Mechanical Looseness || Bearing Defects of Various Types || Sympathetic Vibrations and its Effects || Effects of Bent Shafts on Rotor Performance || Effect of Static Unbalance on Design Reliability
Virtual Laboratory for Simulation and Gaming
Developed by : Dr. B. Mahanty, Institute : Indian Institute of Technology Kharagpur

New Link of Simulation and Gaming Lab || Dynamics of quality fluctuations of an electronic product in a buyer's market || Simulation of auction markets || An illustration of Monte-Carlo Simulation in project invesments || Decision making in Production Distribution Systems using simulation || Simulation of organizational procurement || Modeling inventory decisions through simulation || Supply chain coordination through contracts || Demonstration of bullwhip effect in multi-echelon supply chain || A simulation model to illustrate limits to growth system archetype || Modeling supply chain risks using simulation
Laser Based Flow Diagnostics Laboratory
Developed by : Dr. P. K. Panigrahi , Institute : Indian Institute of Technology Kharagpur

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