Motto: Perfect numbers like perfect men are very rare
Mechanical Engineering is based upon its three building blocks i.e. Design Engineering, Manufacturing Engineering and Thermal Engineering. Tools, techniques, processes, controls and equipments have undergone enormous changes for achieving efficiency, higher productivity, better quality, easy maintenance. Development in Electronics, Computer Science and Mechanical Engineering has lead to their fusion and development of a spectrum of new technologies, addressing Mechanical Engineering as mechatronics. Therefore, to meet the requirements of appropriately trained manpower in Mechanical Engineering & for dynamically changing technology Mechanical Engineering Faculty encourages its students to take up challenging tasks.
Therefore, to meet the requirements of appropriately trained manpower in Mechanical Engineering & for dynamically changing technology Mechanical Engineering Faculty encourages its students to take up challenging tasks.
We have Gyroscope, Steering Mechanism, Automatic transmission system, Bell crank lever, Can analysis apparatus, Combined and belt friction apparatus, Differential gear
Objectives of this Theory of Machines lab are to impart practical knowledge on design and analysis of mechanisms for the specified type of motion in a machine. With the study of rigid bodies motions and forces for the transmission systems, machine kinematics and dynamics can be well understood.
Demonstration exercises are provided with wide varieties of transmission element models to understand machine kinematics. Various experiments with governors, gyroscopes, balancing machines and universal vibration facilities are available to understand machine dynamics.
Understanding of how materials behave like they do, and why they differ in properties was only possible with the atomistic understanding allowed by quantum mechanics. The development of this science allowed designing materials and provided a knowledge base for the engineering applications.
Objective is to give a broad understanding of common materials related to mechanical engineering with an emphasis on the fundamentals of structure-property-application relationships.
Students learn about the variety of materials used by engineers in the design and construction of machines. They also find out about the material properties important to construction. This lab includes torsion testing machine, universal testing machine etc.
In this laboratory, students will have the opportunity to apply loads to various materials under different equilibrium conditions. The student will perform tests on materials in tension, compression, torsion, bending, and impact. These conditions and/or constraints are designed to reinforce classroom theory by having the student perform required tests, analyze subsequent data, and present the results in a professionally prepared report. The machines and equipment used to determine experimental data include universal testing machines, torsion equipment, spring testing machine, compression testing machine, impact tester, hardness tester, etc. Data will be collected using Dial indicators, extensometers, strain gages and strain indicator equipment, as well as load and strain readouts on the machinery and graphing capabilities to print relevant plots for analysis.
In this Lab students learn about the discharge and flow through various apparatus. We have Reynolds Apparatus, Bernoulli's Apparatus, Orifice & Notch Apparatus, Venturi-meter Apparatus, and Loss due to friction in pipe lines.
This lab introduces student practical knowledge of behavior of fluids which they are earlier studied by using mathematical equations. It involves study of various properties of the fluid, such as velocity, pressure, density and temperature, as functions of space and time. Fluid mechanics is the branch of physics which deals with the properties of fluids, namely liquids and gases, and their interaction with forces.
The lab is equipped with different flow measuring set-ups such as venturimeter, orifice-plate, pitot tube, rotometer etc., where students can visualize the basic theory of working of the flow meter. The lab also has Reynolds's setup, free-forced vortices setup, flow over open channel and impact of jet set-up, where students can fortify their theoretical knowledge.
Steam Generation and Power focuses how electricity is generated in thermal power plants. This lab covers study of various equipments like high and low pressure boilers with mountings and accessories, condenses, Impulse and reaction turbines, Cooling towers, heaters, air compressors, economizers, different cycles of power generation and efficiency.
Intro to Manufacturing Technology is a broad exploratory course that introduces students to the manufacturing industry. Though handsāon activities students will learn how manufactures use technology to change raw materials into finished products. The course will include: a brief history of manufacturing, social impacts, types of manufacturing production, design processes, properties of materials, manufacturing processes, safe use of tools and equipment, free enterprise and marketing principles, and career exploration.
The I.C. Engine lab is equipped with the apparatus like morse test, single cylinder petrol engine, single cylinder diesel engine, four cylinder diesel engine and the various apparatus related to the automobile system.
This lab is regarding internal combustion engines and their performance, parts and recent advancements. Some of the experiments which are performed by students are performance studies of both C.I. and S.I. engines, studies on the calorific values, exhaust gas characteristics, extensive studies of bio-diesel with both engines, types of air compressors, ignition system etc.
We have Francisturbine test rig, Pelton wheel turbine test rig, Kaplan Turbine, Hydraulic Ram, Gear pump test rig, Centrifugal pump etc.
Hydraulics and fluid mechanics, or the study of liquids, is an important area for Mechanical Engineers. Whether designing a steam engine, or working on a pump or turbine, Mechanical Engineers need to know how the water or liquid is going to move or operate. This allows them to create and maintain important machines that power our everyday world.
Fluid Machines Lab covers study of different hydraulic machines like various turbines, pumps, torque convertor, hydraulic ram etc
Heat Transfer laboratory provides fundamental and industrial knowledge about modes of heat transfer, like conduction, convection and radiation, and their application. Heat Transfer Lab consists of the following equipments. Pin Fin Apparatus, Heat transfer through extended surface, Heat transfer in natural convection, Heat transfer in a pin fin under forced convection, measurement of thermal conductivity etc
In this lab the students can perform experiments on the A C test rig, refrigerator test rig, Ice Plant test rig, cooling tower test rig and also studies on various systems and sub systems related to refrigeration and air conditioning.
In this Lab students are asked to perform the various experiments related to different mode of heat transfer through various sections and geometries.
In this lab the students can perform experiments on the A C test rig, refrigerator test rig, Ice Plant test rig, cooling tower test rig and also studies on various systems and sub systems related to refrigeration and air conditioning.
In this Lab students are asked to perform the various experiments related to different mode of heat transfer through various sections and geometries.
we have software of solid works in our cad cam lab. In this software students can design drawing and analysis the machine components of various machines. CAD/CAM (computer-aided design and computer-aided manufacturing) refers to computer software that is used to both design and manufacture products.
CAD is the use of computer technology for design and design documentation. CAD/CAM applications are used to both design a product and program manufacturing processes, specifically, CNC machining. CAM software uses the models and assemblies created in CAD software to generate tool paths that drive the machines that turn the designs into physical parts. CAD/CAM software is most often used for machining of prototypes and finished parts.
A control system is a system that is designed to control some physical quantity (temperature, pressure, speed, airplane heading, etc.)In order to control a physical quantity, and control system must sense (measure) that physical quantity (controlled variable, output of the system, etc.). Thus, a control system will have some sort of sensor or measuring device that is used to measure the value of whatever it is you are trying to control. In effect, that measurement gives you information about how well you are doing in keeping the physical variable where you want it to be.
Each shop is spacious enough for the students to work comfortably. Workshop provides the students with hands-on experience on the machines. In workshop we have Lathe machine, milling machine, drilling machine, shaper & planner machine etc. Mechanical Engineering Workshop is a place where students acquire knowledge on the operation of various processes involved in manufacturing and production. The Workshop Practice course makes students competent in handling practical work in engineering environment. Workshop is the center of learning about engineering Materials, manufacturing practices, equipments, tools and safety precaution to be observed in manufacturing operations.
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