Programs » Degree » Mechanical Engineering  
Engineering drawing is the language of engineers! A drawing communicates an idea or design and the best way to learn this course is through practice. The lab work and home assignments are designed to provide you enough practice for learning this course. The following guidelines will enhance the quality of drawings and help in completing the assignments in a timely and tidy manner.
This course studies the fundamentals and models of various types of boilers, boiler mountings and accessories, power transmission elements like gears, clutches, couplings and brakes. and also includer basic knowledge about pump and compressors. This lab gives clear idea about importance and working of this elements of mechanical engineering.
The interdisciplinary field of materials science, also commonly known as materials science and engineering, involves the discovery and design of new materials, with an emphasis on solids. The intellectual origins of materials science stem from the Enlightenment, when researchers began to use analytical thinking from chemistry, physics, and engineering to understand ancient, phenomenological observations in metallurgy and mineralogy. Materials science still incorporates elements of physics, chemistry, and engineering. As such, the field was long thought of as a sub-field of these related fields. In recent years, materials science has become more widely recognized as a specific and distinct field of science and engineering. Many of the most pressing scientific problems humans currently face are due to the limitations of the materials that are available and, as a result, breakthroughs in materials science are likely to have a significant impact on the future of technology.
MP-1 & MP-2& PT
The Manufacturing Processes (MP) Laboratory provides students with the opportunity to study and practice manufacturing processes. This laboratory provides students with experiential learning of the nature and technique of manufacturing processes. Students can set up and operate machines, manufacture parts, measure process variables, and inspect manufactured parts. Student learning from lab experiences is integrated with prior and subsequent learning of other engineering topics such as engineering materials and quality planning and control.
Metrology is a "Science of measurement' . The most important parameter in metrology is the length. Metrology is divided into Industrial Metrology and Medical Metrology under consideration of its application and may be divided into metrology of length and Metrology of time under consideration of its quantity. Metrology is mainly concerned with the following aspects
• Unit of measurement and their standards.
• Errors of measurement.
• Changing the units in the form of standards.
• Ensuring the uniformity of measurements.
• New methods of measurement developing.
• Analyzing this new methods and their accuracy.
• Establishing uncertainty of measurement.
• Gauges designing, manufacturing and testing.
Mechanisms form the basis of any machine and it is an assemblage of rigid bodies so that they move upon each other with definite relative motion.

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.

The set up demonstrates the students about the basic principal of a refrigeration cycle. The test rig is designed for the study of thermodynamics of vapour Compression refrigeration cycle by way of demonstration and experimentation. It has a facility to measure various parameters for experimentation.
The Laboratory of Combustion Engines allows for measuring power, economic and emission characteristics of internal combustion engines in up to the power 230 kW/10000 min-1, or engines up to the power 400 kW/5000 min-1. The laboratory research focuses on applications of alternative fuels for internal combustion engines that are produced from renewable energy sources, especially on questions tackling mixture preparation and combustion, on tuning of engine parameters, on reduction of emissions of internal combustion engines, including reducing noise and vibrations, and on issues of electronic management of the engine.
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: This setup is designed to study the heat transfer in a pin fin. It consists of cylindrical fin fitted to the base in rectangular duct. A blower is provided on one side of duct to conduct experiments under forced convection heat transfer mode. Five thermocouples are embedded along the axis of the cylindrical fin at five different locations and one thermocouple placed in the air stream at the exit of the test section to measure the outlet air temperature. Digital Temperature Indicator is provided to read temperatures distribution along the fin. Test pipe is connected to the delivery side of the blower along with the Orifice to measure flow of air through the pipe. A heater heats one end of fin and heat flows to another end. Heat input to the heater is given through variac. Students will be expected to develop the following skills/understanding upon the successful completion of this experiment.
Are you interested in the way things move? Fluid Power Engineering Technology takes that curiosity and puts it to work. The fluid power industry is one of the fastest growing technologies today. Fluid Power technicians are responsible for researching and designing, fabricating, operating, testing, servicing, and selling fluid power systems. You will work with hand and machine tools, evaluating and adjusting systems for maximum efficiency. At HTC, you will get the hands-on training that prepares you for success, so you are ready for opportunities in industries such as automation, material handling and processing, heavy equipment, plant automation, and fluid power distribution.
Computer-aided drafting (CAD) is the use of computer systems to aid in the creation, modification, analysis, or optimization of a design. CAD software is used to increase the productivity of the designer, improve the quality of design, improve communications through documentation, and to create a database for manufacturing. CAD output is often in the form of electronic files for print, machining, or other manufacturing operations.
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