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A laboratory is a place where scientific research, measurements and experiments are conducted under controlled conditions and/or under the supervision of experts. This is the place from where research starts and ends. Hence no institute can even boast of imparting quality education without full-fledged laboratory set up. This is where we try to find an edge over other institutions. We have well set-up and well-maintained laboratories with latest and most advanced equipments of the present time. All the equipments purchased/installed are procured from reputed brands who even occasionally help in maintaining the accuracy of the instrument/equipment. For example, the metrology and measurements lab has totally been set up by MITUTOYO the top brand of Japan. All the instruments like digital tool maker’s microscope, profile projector, digital measuring instruments like vernier, micrometer, height gauge, screw thread micrometer etc are of such accuracy that are rarely found in any educational institute. Such advanced laboratory equipment has encouraged us to set up an independent calibration center in the campus which will not only enhance the skills of the students but also will cater the need of the local and adjoining industry in addition to being a source of income/fame to the institute
It is difficult for industrial designers to manipulate 3D digital surfaces directly, it is challenging to maintain coherent product branding, and as the industrial design of products is distributed over a design chain, it is difficult to maintain consistent product design intent.
Our goal is to teach such computational tools that allow designers (students) to digitally define and evolve product forms in a more natural manner, provide implicit, intuitive methods for expressing and evolving brand identity, and provide suppliers with mechanisms for overlaying industrial design intent onto subsystems.
Research efforts in the CAD LAB are unified by the theme of empowering product designers through new design methods and design education.
This lab also teaches students to deal with drafting, designing and manufacturing. This lab shows its relevance that how they can use the software’s in drafting, designing and manufacturing. It enhances their knowledge and skill set to upcoming designs in the market. Various tests and analysis can be done on the machine elements for their failure etc.
Course outcomes: The students will be able to
1. Create the different wireframe primitives using parametric representations.
2. Create surface primitives using parametric modeling.
3. Create the different solid primitives using the different representation schemes.
4. Apply geometric transformations on the created wireframe, surface and solid models.
| Sr. No | Name | |
| 1 | Solid Works Software |  |
| 2 | AutoCAD |  |
| 3 | MSC University Structure Bundle Software |  |
| 4 | HP Work Stations |  |
Objective
To provide students a good environment to understand the technology know-how, testing and set-up of modern motor vehicles
To provide facilities for undergraduate final projects and postgraduate research projects
Understand the automobile system and sub-system by disassembly and assembly of the parts.
Develop skill of safe and correct use of hand tools and measuring instruments.
Develop skill of measurement of different dimensions and parameters.
Some of R& D Projects carried out in Automobile Engineering LAB
1. Two Wheel drive motor bike:-
Designed and developed a two wheel drive bike or better called a 2 X 2 bike. This motorcycle is devised out of a 1985 Yamaha 350 Motorbike, using the traction of both the wheels to go on a rugged surface and uphill quiet easily. They have evolved a system using a flexible shaft which can transfer power to the front wheel at some arc
2. Electric Go cart
AUTOMOBILE ENGINEERING EQUIPMENTS
Course Outcomes: After studying this course, students shall be able to:
1. Conduct experiments on scaled down models or on actual size hydraulic machines and evaluate results in terms of unit or specific quantities for comparison purpose.
2. Understand the working of various hydraulic machines (turbines and pumps) and can suggest remedial solutions for various faults.
In Fluid mechanics Lab the students conduct various tests for the properties of the fluid in the laboratory, which offers basic understanding of Fluid and their behaviour.
1. Determination of metacentric height
2. Major and minor losses in the pipes 3.coefficent of discharge. 4. Experiments on venture and orifice meter
Course Outcomes: After studying this course, students shall be able to:
1. Distinguish various type of flows and flow measurement methods and concept of statics and dynamics of liquids.
2. Determine discharge and head loss, hydraulic and friction coefficient, for different types of flow in pipe and open channels.
FLUID MECHANICS EQUIPMENTS
In Strength of Materials Lab the students conduct various tests on a range of materials in the laboratory, which offers basic understanding of material strength.
Materials properties like
• Impact strength • Tensile strength • Compressive strength,
• Torsional strength • Hardness • Modulus etc. are measured through experiments.
Course Outcomes: After studying this course, students shall be able to:
1. Measure the various mechanical properties such as tensile and compressive strength, impact strength, torsion strength and fatigue strength and hardness of brittle and ductile materials.
2. Calculate load carrying capacity of long columns and their buckling strength.
STRENGTH OF MATERIALS EQUIPMENTS
Course Outcomes: After studying this course, students shall be able to:
1. Analyse the microstructure of different ferrous and non-ferrous samples.
2. Explore the effect of heat treatment on various engineering materials by analysing its microstructure and hardness.
MANUFACTURING PROCESSES EQUIPMENTS
Course Outcomes: After studying this course, students shall be able to:
1. Understand the construction and working of IC engines and evaluate their performance.
2. Identify the various types of boilers & condensers.
Course objectives: To provide knowledge about application of conduction, convection and radiation heat transfer concepts to different practical applications.
Course Outcomes: After undergoing this course, students shall be able to:
1. Design and fabricate the experimental setups related to heat transfer phenomena.
2. Measure and analyse different heat transfer parameters.
3. Apply finite difference methods to solve simple heat transfer problems.
HEAT TRANSFER EQUIPEMENTS
The student will be able to:
1. Demonstrate the use of instruments for measuring linear (internal and external), angular dimensions and surface roughness. 2. Identify proper measuring instrument and know requirement of calibration, errors in measurement etc.
3. Apply analytical and experimental methods to make measurements and to find and correct defects in measurement systems.
Course Outcomes: –
• The students understand the significance of Management in their Profession.
• The various Management Functions like Planning, Organizing, Staffing, Leading, aspects are learnt in this course.
• Understand the complexities associated with management in the organizations and integrate the learning in handling these complexities.
• Demonstrate the roles, skills and functions of management.
Automation in Manufacturing Equipment
Course Outcomes:
1. Conduct and analyze the experimental data of performance of vapour compression refrigeration system in domestic refrigerator and water cooler.
2. Conduct and analyze the experimental data of performance of Electrolux Refrigerator.
3. Conduct the performance of window type room air conditioner and system.
4. Analyze the industrial set up for the working and use of vapour compression refrigeration system in cold storage.
Course Objectives: To introduce the students for hand on practice to perform the experiment and evaluate the experimental record pertaining to refrigeration cycles of various refrigeration systems. To impart the students with training of interfacing the theoretical and practical skills. Refrigeration and Air Conditioning and its primary components such as evaporators, condensers, capillary tubes, expansion valve etc.
REFREGERATION AND AIR CONDIITONING EQUIPMENT
Course Outcomes: After studying this course, students shall be able to:
1. Analyse the microstructure of different ferrous and non-ferrous samples.
2. Explore the effect of heat treatment on various engineering materials by analysing its microstructure and hardness.
Material Science Equipment
Equipment’s for R & I Lab
| S. N. | Machine Name | Types of Services |
| 1. | UTM (60 ton) | Ø Tensile test Ø Compression test Ø Bending test Ø Buckling test
|
| 2. | Profile test (profile projector) PJ-A3000 Series Ø Protractor Screen Ø Measurement upto Ø 315 Ø Angle Range 360 0 Ø Magnification upto 10 times | Measurement& inspection of: Ø Rectangular coordinate measurement. Ø Comparison with an overlay chart. Ø Angle measurement.
|
| 3. | SJ-301 Surface Roughness tester Ø It has maximum measuring range of 14000µ Ø It can capable of measuring surface roughness with various standards ISO & ANSI etc. Ø Stylus travel range 12.5mm | IT can measure Ø Arithmetic mean deviation of the profile, Ra. Ø Root means square deviation of the profile, Rq Ø Maximum height of the profile, Ry
|
| 4 | Wear & Friction Monitor-TR-20LE | Ø Specimen pin Size 3 to 12mm dia in steps of 2mm, 20 to 33mm long Ø Ball diameter: 10mm Ø Wear Disc (diameter × thickness) Ø 165 × 8 mm, En 31 hardened to 62 HRC-2 No’s Ø Wear Track Diameter: Min:50mm & max: 100mm Ø Normal Load: Min :5 N, Max: 200N ( LC = 1N) Ø Disc speed: Min :200rpm Max: 2000rpm (LC=1rpm) Frictional Force: Min 0 To Max 200N (LC=0.1N) Ø Wear: 0 micron to 2000 micron (LC=1 micron)
|
| 5 | Microhardness Tester Model HV-1000B
| Specifications: • Max. Height of the specimen: 75 mm • Max. Width of the specimen: 95mm · Depth of throat : 110mm · Dwelling time of test force : 5 to 99 seconds · Optical system : Objective lens: 10X(observation), 40X( measurement) · Ocular lens : 10X · Total magnification ratio : 100X ( Observation) , 400X · Range of measurement : 200 micrometer · Resolution : .125 micrometer • Test Forces : 10 , 25, 50, 100, 200, 300, 500, 1000) gf · Dimension of the XY Table : 100 — 100 mm • Movement Field of the XY Table: 25 — 25mm • Weight : 53Kg |
| 6 | Tool Maker’s Microscope
| Specifications: · XY Range : 100×50mm · Effective area of table : 150×92mm · Max. work piece height: 107mm · Max. work piece weight : 5kg · Total magnification : 30X · Transmitted illumination: Light source- Tungsten bulb (24V,2W) Green filter, Light intensity adjustable · Reflected illumination: Light source- Tungsten bulb (24V,2W) Green filter, Light intensity adjustable |
DAVIET – Kabir Nagar, Jalandhar -144008 Punjab, India
