S.No |
System configuration |
Number of system |
1 |
Windows 10 Pro 64 HP recommends Windows 10 Pro. Intel Core i7 processor Intel Core i7-6700 with Intel HD Graphics 530 (3.4 GHz, up to 4.0 GHz with Intel Turbo Boost, 8 MB cache, 4 cores) Intel H110 Microtower Maximum memory 32 GB DDR4-2133 SDRAM (Transfer rates up to 2133 MT/s) Memory slots 2 DIMM Integrated: Intel HD Graphics 9 Discrete: NVIDIA GeForce GT 720 (2 GB) AMD Radeon R5 320 (1 GB)(Integrated graphics will depend on processor) | 40 |
S.No |
System configuration |
Number of system |
1 |
Windows 10 Pro 64 HP recommends Windows 10 Pro. Intel Core i7 processor Intel Core i7-6700 with Intel HD Graphics 530 (3.4 GHz, up to 4.0 GHz with Intel Turbo Boost, 8 MB cache, 4 cores) Intel H110 Microtower Maximum memory 32 GB DDR4-2133 SDRAM (Transfer rates up to 2133 MT/s) Memory slots 2 DIMM Integrated: Intel HD Graphics 9 Discrete: NVIDIA GeForce GT 720 (2 GB) AMD Radeon R5 320 (1 GB)(Integrated graphics will depend on processor) | 40 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Guarded Plate Apparatus |
To determine thermal conductivity and to identify the given insulation material using guarded plate apparatus |
01 |
2 |
Lagged Pipe Apparatus |
To determine thermal conductivity of the given pipe insulation materials (asbestos and saw dust) using lagged pipe apparatus |
01 |
3 |
Vertical Cylinder Apparatus |
To conduct an experiment on vertical cylinder apparatus and to determine the theoretical heat transfer coefficient and experimental heat transfer coefficient of air under natural / free convection from a vertical cylinder |
01 |
4 |
Inside Tube Apparatus |
To conduct an experiment on inside tube cylinder apparatus and to determine the theoretical heat transfer coefficient and experimental heat transfer coefficient of air flowing inside a circular duct / tube / pipe under forced convection |
01 |
5 |
Composite Wall Apparatus |
To determine thermal conductivity of the given composite wall using composite wall apparatus |
01 |
6 |
Insulating Powder Apparatus |
To determine thermal conductivity of the given insulation powder material using insulating powder apparatus |
01 |
7 |
Pin-Fin Apparatus |
To conduct an experiment on pin-fin apparatus and to determine the heat transfer rate, efficiency and effectiveness of pin-fin in natural / forced convection mode |
01 |
8 |
Stefan Boltzmann Apparatus |
To determine Stefan Boltzmann constant using Stefan Boltzmann apparatus |
01 |
9 |
Emissivity Measurement Apparatus |
To determine emissivity of a grey surface using emissivity measurement apparatus |
01 |
10 |
Parallel / Counter Flow Heat Exchanger Apparatus |
To conduct a heat transfer test on the given heat exchanger apparatus in parallel / counter flow arrangement and to determine the heat transfer rate, overall heat transfer co-efficient and effectiveness of the heat exchanger |
01 |
11 |
Refrigeration (R12) Test Rig |
To conduct a performance test on the given refrigeration test rig and to determine its theoretical coefficient of performance and actual coefficient of performance |
01 |
12 |
Air-Conditioning Test Rig |
To conduct a performance test on the given air-conditioning test rig and to determine its theoretical coefficient of performance and actual coefficient of performance |
01 |
13 |
Reciprocating Air Compressor Set Up |
To conduct performance test on a two stage reciprocating air compressor and to draw the characteristic curves of a two stage reciprocating air compressor |
01 |
14 |
Refrigeration (HC) Test Rig |
To conduct a performance test on the given refrigeration test rig and to determine its theoretical coefficient of performance and actual coefficient of performance |
01 |
15 |
Cooling Tower Set Upapparatus |
To conduct a performance test on the cooling tower and to determine its effectiveness, cooling capacity and make up water requirement |
01 |
16 |
Four Stroke Single Cylinder Diesel Engine (Kirloskar Make) |
To conduct performance and heat balance test on the given engine & to draw the performance curves. |
01 |
17 |
Multi Cylinder (Twin) Four Stroke Diesel Engine. (Kirloskar Make) |
To conduct performance and heat balance test on the given engine & to draw the performance curves. |
01 |
18 |
Two Stroke Single Cylinder Petrol Engine (Bajaj Make) |
To conduct performance test on the given engine & to draw the performance curves. |
01 |
19 |
Cleave land Flash & Fire Point |
To determine the flash point of given oil by flash point apparatus. |
01 |
20 |
Redwood Viscometer |
To determine the viscosity of diesel using redwood viscometer at different temperatures |
01 |
21 |
Saybolt Viscometer |
To determine viscosity of the given oil using Say Bolt Viscometer at different temperatures expressed in terms of Say bolt seconds. |
01 |
22 |
Single Cylinder Four Stroke Petrol Engine : Cut Section Model |
To draw port timing diagram for a given 4 stroke petrol engine |
01 |
23 |
Single Cylinder Four Stroke Diesel Engine : Cut Section Model |
To draw valve timing diagram for given engine and calculate different periods. |
01 |
24 |
Four Stroke Single Cylinder Petrol Engine : (Enfield Make) |
To conduct performance test on the given engine & to draw the performance curves. |
01 |
25 |
Multi Cylinder Four Stroke Petrol Engine (ISUZU Make) |
To Conduct Performance Test, Morse Test & to draw heat balance on given multi cylinder engine to find the overall efficiency of the engine |
01 |
26 |
Orsat Gas Analyzer Apparatus |
To determine the composition of the carbon dioxide, oxygen, nitrogen and carbon monoxide. |
01 |
27 |
Air Blower Test Rig |
To determine the performance analysis and to plot the various curves for blower. |
01 |
28 |
Slow Speed Horizontal Diesel Engine (Ruston Make) |
To conduct performance and heat balance test on the given engine & to draw the performance curves. |
01 |
29 |
Four Stroke High Speed Diesel Engine (Greeves Make) |
01 |
|
30 |
Two Stroke Cut Section Model : Petrol Engine |
To draw port timing diagram for a given 2stroke petrol engine |
01 |
31 |
Single Cylinder Four Stroke Diesel Engine : (Texvel Make) |
To conduct performance test on the given engine & to draw the performance curves. |
01 |
32 |
Wind Tunnel |
To measure the pressure distribution at various angles and to determine the drag co-efficient of the wing. |
01 |
33 |
Single Cylinder Four Stroke Diesel Engine (Hydraulic Dynamometer Loading) |
To conduct performance and heat balance test on the given engine & to draw the performance curves.. |
01 |
34 |
Single Cylinder Four Stroke Petrol Engine (Eddy Current Dynamometer Loading) |
To conduct performance and heat balance test on the given engine & to draw the performance curves.. |
01 |
35 |
Computerized Research Engine Test Set up. |
This Engine is used for research purpose. |
01 |
36 |
Automotive Exhaust Gas Analyzer |
The exhaust gas test rig is used to analyze the amount of particulate matter present in exhaust gas. |
01 |
37 |
Steam Turbine Test Rig |
To study the working of steam turbine |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Guarded Plate Apparatus |
To determine thermal conductivity and to identify the given insulation material using guarded plate apparatus |
01 |
2 |
Lagged Pipe Apparatus |
To determine thermal conductivity of the given pipe insulation materials (asbestos and saw dust) using lagged pipe apparatus |
01 |
3 |
Vertical Cylinder Apparatus |
To conduct an experiment on vertical cylinder apparatus and to determine the theoretical heat transfer coefficient and experimental heat transfer coefficient of air under natural / free convection from a vertical cylinder |
01 |
4 |
Inside Tube Apparatus |
To conduct an experiment on inside tube cylinder apparatus and to determine the theoretical heat transfer coefficient and experimental heat transfer coefficient of air flowing inside a circular duct / tube / pipe under forced convection |
01 |
5 |
Composite Wall Apparatus |
To determine thermal conductivity of the given composite wall using composite wall apparatus |
01 |
6 |
Insulating Powder Apparatus |
To determine thermal conductivity of the given insulation powder material using insulating powder apparatus |
01 |
7 |
Pin-Fin Apparatus |
To conduct an experiment on pin-fin apparatus and to determine the heat transfer rate, efficiency and effectiveness of pin-fin in natural / forced convection mode |
01 |
8 |
Stefan Boltzmann Apparatus |
To determine Stefan Boltzmann constant using Stefan Boltzmann apparatus |
01 |
9 |
Emissivity Measurement Apparatus |
To determine emissivity of a grey surface using emissivity measurement apparatus |
01 |
10 |
Parallel / Counter Flow Heat Exchanger Apparatus |
To conduct a heat transfer test on the given heat exchanger apparatus in parallel / counter flow arrangement and to determine the heat transfer rate, overall heat transfer co-efficient and effectiveness of the heat exchanger |
01 |
11 |
Refrigeration (R12) Test Rig |
To conduct a performance test on the given refrigeration test rig and to determine its theoretical coefficient of performance and actual coefficient of performance |
01 |
12 |
Air-Conditioning Test Rig |
To conduct a performance test on the given air-conditioning test rig and to determine its theoretical coefficient of performance and actual coefficient of performance |
01 |
13 |
Reciprocating Air Compressor Set Up |
To conduct performance test on a two stage reciprocating air compressor and to draw the characteristic curves of a two stage reciprocating air compressor |
01 |
14 |
Refrigeration (HC) Test Rig |
To conduct a performance test on the given refrigeration test rig and to determine its theoretical coefficient of performance and actual coefficient of performance |
01 |
15 |
Cooling Tower Set Upapparatus |
To conduct a performance test on the cooling tower and to determine its effectiveness, cooling capacity and make up water requirement |
01 |
16 |
Four Stroke Single Cylinder Diesel Engine (Kirloskar Make) |
To conduct performance and heat balance test on the given engine & to draw the performance curves. |
01 |
17 |
Multi Cylinder (Twin) Four Stroke Diesel Engine. (Kirloskar Make) |
To conduct performance and heat balance test on the given engine & to draw the performance curves. |
01 |
18 |
Two Stroke Single Cylinder Petrol Engine (Bajaj Make) |
To conduct performance test on the given engine & to draw the performance curves. |
01 |
19 |
Cleave land Flash & Fire Point |
To determine the flash point of given oil by flash point apparatus. |
01 |
20 |
Redwood Viscometer |
To determine the viscosity of diesel using redwood viscometer at different temperatures |
01 |
21 |
Saybolt Viscometer |
To determine viscosity of the given oil using Say Bolt Viscometer at different temperatures expressed in terms of Say bolt seconds. |
01 |
22 |
Single Cylinder Four Stroke Petrol Engine : Cut Section Model |
To draw port timing diagram for a given 4 stroke petrol engine |
01 |
23 |
Single Cylinder Four Stroke Diesel Engine : Cut Section Model |
To draw valve timing diagram for given engine and calculate different periods. |
01 |
24 |
Four Stroke Single Cylinder Petrol Engine : (Enfield Make) |
To conduct performance test on the given engine & to draw the performance curves. |
01 |
25 |
Multi Cylinder Four Stroke Petrol Engine (ISUZU Make) |
To Conduct Performance Test, Morse Test & to draw heat balance on given multi cylinder engine to find the overall efficiency of the engine |
01 |
26 |
Orsat Gas Analyzer Apparatus |
To determine the composition of the carbon dioxide, oxygen, nitrogen and carbon monoxide. |
01 |
27 |
Air Blower Test Rig |
To determine the performance analysis and to plot the various curves for blower. |
01 |
28 |
Slow Speed Horizontal Diesel Engine (Ruston Make) |
To conduct performance and heat balance test on the given engine & to draw the performance curves. |
01 |
29 |
Four Stroke High Speed Diesel Engine (Greeves Make) |
01 |
|
30 |
Two Stroke Cut Section Model : Petrol Engine |
To draw port timing diagram for a given 2stroke petrol engine |
01 |
31 |
Single Cylinder Four Stroke Diesel Engine : (Texvel Make) |
To conduct performance test on the given engine & to draw the performance curves. |
01 |
32 |
Wind Tunnel |
To measure the pressure distribution at various angles and to determine the drag co-efficient of the wing. |
01 |
33 |
Single Cylinder Four Stroke Diesel Engine (Hydraulic Dynamometer Loading) |
To conduct performance and heat balance test on the given engine & to draw the performance curves.. |
01 |
34 |
Single Cylinder Four Stroke Petrol Engine (Eddy Current Dynamometer Loading) |
To conduct performance and heat balance test on the given engine & to draw the performance curves.. |
01 |
35 |
Computerized Research Engine Test Set up. |
This Engine is used for research purpose. |
01 |
36 |
Automotive Exhaust Gas Analyzer |
The exhaust gas test rig is used to analyze the amount of particulate matter present in exhaust gas. |
01 |
37 |
Steam Turbine Test Rig |
To study the working of steam turbine |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Whirling Shaft |
Determines critical speeds of shafts with concentrated loads.. |
01 |
2 |
Longitudinal Vibration of spring mass system |
Determines natural Frequency and verification of Laws of springs-Damping coefficient determination. |
01 |
3 |
Torsional Vibration equipment |
Determines torsional natural frequency of single and Double Rotor systems.- Undamped and Damped Natural frequencies. |
01 |
4 |
Dynamic Balancing machine |
Balancing of rotating masses. Balancing of reciprocating masses. |
01 |
5 |
Measurement of Temperature (Radiation Pyrometer) |
For measurement of Temperature |
01 |
6 |
Prony brake dynamometer system |
A loading device |
01 |
7 |
Rope brake dynamometer |
A loading device |
01 |
8 |
Eddy current dynamometer |
A loading device | 01 |
9 |
Speed measurement demonstration system |
Determination of critical speeds of shafts with concentrated loads. |
01 |
10 |
Motorized gyroscope |
Studies gyroscopic effect and couple |
01 |
11 |
Universal Governor(Watt, Porter, Proell & Hartnell) |
Determines range sensitivity, effort etc., for Watts, Porter, Proell, and Hartnell Governors. |
01 |
12 |
Cam Analysis |
Cam profile drawing, Motion curves and study of jump phenomenon |
01 |
13 |
Vib - Lab |
Determines Vibration of Equivalent Spring mass system - undamped and damped vibration. |
01 |
14 |
Vibration pickup accelerometer |
Determination of transmissibility ratio using vibrating table. |
01 |
15 |
Skotch yoke model |
Converts linear motion of a slider into rotational motion. |
01 |
16 |
Spur gear model |
Study of gear parameters. |
01 |
17 |
Epicyclic gear train |
Experimental study of velocity ratios of simple, compound, Epicyclic and differential gear trains. |
01 |
18 |
Gear pump model |
Study of gear parameters. |
01 |
19 |
Crank and connecting rod |
Kinematics of Four Bar, Slider Crank, Crank Rocker, Double crank, Double rocker, Oscillating cylinder Mechanisms.. |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Whirling Shaft |
Determines critical speeds of shafts with concentrated loads.. |
01 |
2 |
Longitudinal Vibration of spring mass system |
Determines natural Frequency and verification of Laws of springs-Damping coefficient determination. |
01 |
3 |
Torsional Vibration equipment |
Determines torsional natural frequency of single and Double Rotor systems.- Undamped and Damped Natural frequencies. |
01 |
4 |
Dynamic Balancing machine |
Balancing of rotating masses. Balancing of reciprocating masses. |
01 |
5 |
Measurement of Temperature (Radiation Pyrometer) |
For measurement of Temperature |
01 |
6 |
Prony brake dynamometer system |
A loading device |
01 |
7 |
Rope brake dynamometer |
A loading device |
01 |
8 |
Eddy current dynamometer |
A loading device | 01 |
9 |
Speed measurement demonstration system |
Determination of critical speeds of shafts with concentrated loads. |
01 |
10 |
Motorized gyroscope |
Studies gyroscopic effect and couple |
01 |
11 |
Universal Governor(Watt, Porter, Proell & Hartnell) |
Determines range sensitivity, effort etc., for Watts, Porter, Proell, and Hartnell Governors. |
01 |
12 |
Cam Analysis |
Cam profile drawing, Motion curves and study of jump phenomenon |
01 |
13 |
Vib - Lab |
Determines Vibration of Equivalent Spring mass system - undamped and damped vibration. |
01 |
14 |
Vibration pickup accelerometer |
Determination of transmissibility ratio using vibrating table. |
01 |
15 |
Skotch yoke model |
Converts linear motion of a slider into rotational motion. |
01 |
16 |
Spur gear model |
Study of gear parameters. |
01 |
17 |
Epicyclic gear train |
Experimental study of velocity ratios of simple, compound, Epicyclic and differential gear trains. |
01 |
18 |
Gear pump model |
Study of gear parameters. |
01 |
19 |
Crank and connecting rod |
Kinematics of Four Bar, Slider Crank, Crank Rocker, Double crank, Double rocker, Oscillating cylinder Mechanisms.. |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Pneumatic trainer Kit |
Actuation of single and double acting cylinder using 3/2 , 5/2 DCV ,AND Gate and OR Gate Operated by Push button and Hand Lever valve |
01 |
2 |
Electro pneumatic trainer Kit |
Actuation of single Acting and double acting cylinder using single solenoid and Double solenoid valves operated by electrical push buttons,SPDT,Timers |
01 |
3 |
Electro pneumatic trainer Kit with PLC |
Continuous reciprocation of cylinder using timer counter programmed by VERSAPRO software(Ladder Diagram) |
01 |
4 |
PLC/RTA Hydraulic Linear actuation system Trainer |
Study of Characteristics of Hydraulic system and finding out of speed Vs Discharge, Force Vs Discharge |
01 |
5 |
Servo controller for open and closed loop system |
Control of servo motor for open loop and closed loop system using PLC and LABVIEW software |
01 |
6 |
PID controller with interfacing |
Control of parameters of shaft speed and temperature with P, PI, PID Control modes |
01 |
7 |
DC motor speed control module |
Study of characteristics of DC motor and controlling speed of motor using PID controller |
01 |
8 |
Temperature control system |
Control of temperature of the system using PID controller |
01 |
9 |
Microprocessor controlled Stepper motor |
Rotation of stepper motor controlled by microprocessor program |
01 |
10 |
Multi-process Station |
Study of control of process parameters like flow, pressure and temperature of the system using LABVIEW software interfaced by Data Acquisition System |
01 |
11 |
Hydraulic simulation software(HYDROSIM) |
Simulation of Hydraulic system using DCV's and flow control valves |
05 |
12 |
Pneumatic simulation software(PNEUMOSIM) |
Simulation of pneumatic system using DCV's and flow control valves AND GATE, OR GATE\ |
05 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Pneumatic trainer Kit |
Actuation of single and double acting cylinder using 3/2 , 5/2 DCV ,AND Gate and OR Gate Operated by Push button and Hand Lever valve |
01 |
2 |
Electro pneumatic trainer Kit |
Actuation of single Acting and double acting cylinder using single solenoid and Double solenoid valves operated by electrical push buttons,SPDT,Timers |
01 |
3 |
Electro pneumatic trainer Kit with PLC |
Continuous reciprocation of cylinder using timer counter programmed by VERSAPRO software(Ladder Diagram) |
01 |
4 |
PLC/RTA Hydraulic Linear actuation system Trainer |
Study of Characteristics of Hydraulic system and finding out of speed Vs Discharge, Force Vs Discharge |
01 |
5 |
Servo controller for open and closed loop system |
Control of servo motor for open loop and closed loop system using PLC and LABVIEW software |
01 |
6 |
PID controller with interfacing |
Control of parameters of shaft speed and temperature with P, PI, PID Control modes |
01 |
7 |
DC motor speed control module |
Study of characteristics of DC motor and controlling speed of motor using PID controller |
01 |
8 |
Temperature control system |
Control of temperature of the system using PID controller |
01 |
9 |
Microprocessor controlled Stepper motor |
Rotation of stepper motor controlled by microprocessor program |
01 |
10 |
Multi-process Station |
Study of control of process parameters like flow, pressure and temperature of the system using LABVIEW software interfaced by Data Acquisition System |
01 |
11 |
Hydraulic simulation software(HYDROSIM) |
Simulation of Hydraulic system using DCV's and flow control valves |
05 |
12 |
Pneumatic simulation software(PNEUMOSIM) |
Simulation of pneumatic system using DCV's and flow control valves AND GATE, OR GATE\ |
05 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Compression testing machine |
Compression Testing Machine is a hydraulic, electrically operated unit, designed for conducting compression tests on concrete and metal specimens up to 20 cm. Diameter (or width and depth) and 30 cm, in height and also rocks and various other materials. |
01 |
2 |
Rockwell hardness testing machine |
The Rockwell hardness machine utilizes steel ball and indicates hardness by determining the depth of penetration of the indenter under a known load. |
01 |
3 |
Brinell hardness testing machine |
Brinell hardness testing machine which has a hardened steel ball (indenter) is pressed into test specimen under standardized load. Brinell hardness tests are used to determine hardness of metallic materials, to check quality level of products, for uniformity of samples of metals, for uniformity of results of heat treatment. |
01 |
4 |
Spring test machine with compression and tension attachment |
Spring testing machine enable load deflection tests of tension and compression springs to be carried out accurately and quickly. To determine the stiffness of the spring and strain energy stored in it. |
01 |
5 |
Impact testing machine |
The Impact testing machine is used to find the resistance to failure of a material to a suddenly applied force. The test measures the impact energy, or the energy absorbed prior to fracture. The available impact testing machines are: Charpy Test Izod Test |
01 |
6 |
Torsion testing machine |
Torsion Testing Machine is used for conducting torsion and twist on various metal wires, tubes, sheet materials. |
01 |
7 |
Universal tensile testing machine |
A Universal Testing Machine(UTM) also known as a materials testing machine and it can be used to test the tensile strength ,compressive strength and to draw stress Vs strain diagram. |
01 |
8 |
Hydraulic mounting press |
Hydraulic mounting press is used to prepare the metallographic sample to identify the structure of metals in the microscope. |
01 |
9 |
Inverted metallurgical microscope |
It is to examine the microscopic structures that affect the behaviour of metals (Thin plates, foils and sheets) using Metal plus software and to estimate the grain size, nodularity, phase volume fraction of the given specimen. A well manufactured material can be made more resistant to virtually any source of potential failure, including corrosion, for the use of metals and alloys in manufacturing and engineering. |
01 |
10 |
Muffle furnace |
A muffle furnace is a furnace with an externally heated chamber, the walls of which radiantly heat the contents of the chamber, so that the material being heated has no contact with the flame. It is used to test the characteristics of materials at extremely high and accurate temperatures. |
01 |
11 |
Universal wood testing machine |
It is used for conducting variety of tests including Compression (Parallel-to-Grain), Shear Strength, Hardness (Janka Ball Test), Cleavage, Static Bend, Plywood Grips, Nail/Screw withdrawal Test and many other tests on Wood etc., |
01 |
12 |
Hydraulic Press 20 Ton capacity |
To draw the formability limit diagram ,to find strain hardening exponent, to carry out cold extrusion process, to carry out sheet metal operations. |
01 |
13 |
Rolling Mill |
To study the cold rolling processes. |
01 |
14 |
Fatigue Testing |
To find out fatigue failure of the materials and their endurance limit after'N' Number of cycles |
01 |
15 |
Erichsen Cupping test |
To find the formability of sheet metals |
01 |
16 |
Planetary Ball mill |
01 |
|
17 |
Polishing Machine |
To polish the metallic samples so as to enable them to keep under metallurgical microscopic examination |
01 |
18 |
Metallurgical microscope |
To study the microscopic evaluation of the metallic materials. |
01 |
19 |
Micro Vickers hardness Tester |
To examine the Micro Vickers hardness number of the given plates, sheets, foils under the load of 10gmf-20Kgf. |
01 |
20 |
Brinell Microscope |
To measure the indentation at its largest diameter against the reticle scale. Use this measurement and convert to its Brinell Hardness Number (BHN) |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Compression testing machine |
Compression Testing Machine is a hydraulic, electrically operated unit, designed for conducting compression tests on concrete and metal specimens up to 20 cm. Diameter (or width and depth) and 30 cm, in height and also rocks and various other materials. |
01 |
2 |
Rockwell hardness testing machine |
The Rockwell hardness machine utilizes steel ball and indicates hardness by determining the depth of penetration of the indenter under a known load. |
01 |
3 |
Brinell hardness testing machine |
Brinell hardness testing machine which has a hardened steel ball (indenter) is pressed into test specimen under standardized load. Brinell hardness tests are used to determine hardness of metallic materials, to check quality level of products, for uniformity of samples of metals, for uniformity of results of heat treatment. |
01 |
4 |
Spring test machine with compression and tension attachment |
Spring testing machine enable load deflection tests of tension and compression springs to be carried out accurately and quickly. To determine the stiffness of the spring and strain energy stored in it. |
01 |
5 |
Impact testing machine |
The Impact testing machine is used to find the resistance to failure of a material to a suddenly applied force. The test measures the impact energy, or the energy absorbed prior to fracture. The available impact testing machines are: Charpy Test Izod Test |
01 |
6 |
Torsion testing machine |
Torsion Testing Machine is used for conducting torsion and twist on various metal wires, tubes, sheet materials. |
01 |
7 |
Universal tensile testing machine |
A Universal Testing Machine(UTM) also known as a materials testing machine and it can be used to test the tensile strength ,compressive strength and to draw stress Vs strain diagram. |
01 |
8 |
Hydraulic mounting press |
Hydraulic mounting press is used to prepare the metallographic sample to identify the structure of metals in the microscope. |
01 |
9 |
Inverted metallurgical microscope |
It is to examine the microscopic structures that affect the behaviour of metals (Thin plates, foils and sheets) using Metal plus software and to estimate the grain size, nodularity, phase volume fraction of the given specimen. A well manufactured material can be made more resistant to virtually any source of potential failure, including corrosion, for the use of metals and alloys in manufacturing and engineering. |
01 |
10 |
Muffle furnace |
A muffle furnace is a furnace with an externally heated chamber, the walls of which radiantly heat the contents of the chamber, so that the material being heated has no contact with the flame. It is used to test the characteristics of materials at extremely high and accurate temperatures. |
01 |
11 |
Universal wood testing machine |
It is used for conducting variety of tests including Compression (Parallel-to-Grain), Shear Strength, Hardness (Janka Ball Test), Cleavage, Static Bend, Plywood Grips, Nail/Screw withdrawal Test and many other tests on Wood etc., |
01 |
12 |
Hydraulic Press 20 Ton capacity |
To draw the formability limit diagram ,to find strain hardening exponent, to carry out cold extrusion process, to carry out sheet metal operations. |
01 |
13 |
Rolling Mill |
To study the cold rolling processes. |
01 |
14 |
Fatigue Testing |
To find out fatigue failure of the materials and their endurance limit after'N' Number of cycles |
01 |
15 |
Erichsen Cupping test |
To find the formability of sheet metals |
01 |
16 |
Planetary Ball mill |
01 |
|
17 |
Polishing Machine |
To polish the metallic samples so as to enable them to keep under metallurgical microscopic examination |
01 |
18 |
Metallurgical microscope |
To study the microscopic evaluation of the metallic materials. |
01 |
19 |
Micro Vickers hardness Tester |
To examine the Micro Vickers hardness number of the given plates, sheets, foils under the load of 10gmf-20Kgf. |
01 |
20 |
Brinell Microscope |
To measure the indentation at its largest diameter against the reticle scale. Use this measurement and convert to its Brinell Hardness Number (BHN) |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Gear pump Setup |
To evaluate the characteristics of Gear pump. Consisting of Gear pump, Supply tank and Measuring tank, Energy meter, Pressure gauge, Vacuum gauge and controlling valves. |
01 |
2 |
Kaplan turbine Setup |
This equipment is designed for giving the visual demonstration of working of kaplan turbine.Also to study performance characteristics.Consisting of Centrifugal pump [20hp], Supply tank, Venturimeter, Pressure tappings, Manometer setup, Pressure gauge, Vacuum gauge, Tachometer and controlling valves. |
01 |
3 |
Reciprocating pump Setup |
To evaluate the characteristics of Double acting reciprocating pump.Consisting of reciprocating pump, Supply tank, Energy meter, Pressure gauge, Vacuum gauge and controlling valves. |
01 |
4 |
Pelton wheel Setup |
This equipment is designed for giving the visual demonstration of working of a pelton turbine. Also to study performance characteristics, effect of discharge, velocity of impinging water on turbine, of a pelton wheel turbine.Consisting of Centrifugal pump[15hp], Supply tank, Venturimeter, Pressure tappings, Manometer setup, Pressure gauge, Vacuum gauge , Tachometer and controlling valves. |
01 |
5 |
Francis turbine Setup |
This equipment is designed for giving the visual demonstration of working of a francis turbine.Also to study performance characteristics. Consisting of Centrifugal pump [15hp], Supply tank, Venturimeter, Pressure tappings, Manometer setup, Pressure gauge, Vacuum gauge, Tachometer and controlling valves. |
01 |
6 |
Submergible pump Setup |
To evaluate the characteristics of Submergible pump. Consisting of Submergible pump, Supply tank, Energy meter, Pressure gauge and controlling valves. |
01 |
7 |
Rotameter Setup |
To calibrate Rota meter at different flow rate and to draw Discharge graph & Error graph. Consisting of Rotameter, Water storage tank, Sump tank and Controlling Valves |
01 |
8 |
Pipe Flow analysis Setup |
Comparing friction factor for different types of pipes at pressure tapings of 3m apart. Consisting of Centrifugal pump, Manometer Setup, Sump tank, Delivery tank, Pressure tappings and Controlling valves. |
01 |
9 |
Centrifugal pump Setup |
To evaluate the characteristics of centrifugal pump and study the build-up of stage pressures. Consisting of Centrifugal pump, Sump tank, Energy meter, Pressure gauge, Vacuum gauge and controlling valves. |
01 |
10 |
Orifice meter Setup |
To determine the Co-efficient of discharge for Orificemeter at different flow rates. Consisting of Centrifugal pump, Orificemeter, Manometer Setup, Sump tank and Delivery tank, Pressure Tappings and Controlling Valves |
01 |
11 |
Venturimeter Setup |
To determine the Co-efficient of discharge for Venturimeter at different flow rates. Consisting of Centrifugal pump, Venturimeter, Manometer Setup, Sump tank and Delivery tank, Pressure Tappings and Controlling Valves |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Gear pump Setup |
To evaluate the characteristics of Gear pump. Consisting of Gear pump, Supply tank and Measuring tank, Energy meter, Pressure gauge, Vacuum gauge and controlling valves. |
01 |
2 |
Kaplan turbine Setup |
This equipment is designed for giving the visual demonstration of working of kaplan turbine.Also to study performance characteristics.Consisting of Centrifugal pump [20hp], Supply tank, Venturimeter, Pressure tappings, Manometer setup, Pressure gauge, Vacuum gauge, Tachometer and controlling valves. |
01 |
3 |
Reciprocating pump Setup |
To evaluate the characteristics of Double acting reciprocating pump.Consisting of reciprocating pump, Supply tank, Energy meter, Pressure gauge, Vacuum gauge and controlling valves. |
01 |
4 |
Pelton wheel Setup |
This equipment is designed for giving the visual demonstration of working of a pelton turbine. Also to study performance characteristics, effect of discharge, velocity of impinging water on turbine, of a pelton wheel turbine.Consisting of Centrifugal pump[15hp], Supply tank, Venturimeter, Pressure tappings, Manometer setup, Pressure gauge, Vacuum gauge , Tachometer and controlling valves. |
01 |
5 |
Francis turbine Setup |
This equipment is designed for giving the visual demonstration of working of a francis turbine.Also to study performance characteristics. Consisting of Centrifugal pump [15hp], Supply tank, Venturimeter, Pressure tappings, Manometer setup, Pressure gauge, Vacuum gauge, Tachometer and controlling valves. |
01 |
6 |
Submergible pump Setup |
To evaluate the characteristics of Submergible pump. Consisting of Submergible pump, Supply tank, Energy meter, Pressure gauge and controlling valves. |
01 |
7 |
Rotameter Setup |
To calibrate Rota meter at different flow rate and to draw Discharge graph & Error graph. Consisting of Rotameter, Water storage tank, Sump tank and Controlling Valves |
01 |
8 |
Pipe Flow analysis Setup |
Comparing friction factor for different types of pipes at pressure tapings of 3m apart. Consisting of Centrifugal pump, Manometer Setup, Sump tank, Delivery tank, Pressure tappings and Controlling valves. |
01 |
9 |
Centrifugal pump Setup |
To evaluate the characteristics of centrifugal pump and study the build-up of stage pressures. Consisting of Centrifugal pump, Sump tank, Energy meter, Pressure gauge, Vacuum gauge and controlling valves. |
01 |
10 |
Orifice meter Setup |
To determine the Co-efficient of discharge for Orificemeter at different flow rates. Consisting of Centrifugal pump, Orificemeter, Manometer Setup, Sump tank and Delivery tank, Pressure Tappings and Controlling Valves |
01 |
11 |
Venturimeter Setup |
To determine the Co-efficient of discharge for Venturimeter at different flow rates. Consisting of Centrifugal pump, Venturimeter, Manometer Setup, Sump tank and Delivery tank, Pressure Tappings and Controlling Valves |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Center Lathe |
A lathe is a machine tool that rotates the work piece on its axis to perform various operations such as cutting, sanding, knurling, drilling, or deformation, facing, turning, with tools that are applied to the work piece to create an object with symmetry about an axis of rotation |
14 |
2 |
Capstan and Turret Lathe |
The turret lathe is a form of metalworking lathe that is used for repetitive production of duplicate parts, which by the nature of their cutting process are usually interchangeable. |
01 |
3 |
Shaper |
A shaper is a type of machine tool that uses linear relative motion between the work piece and a single-point cutting tool to machine a linear tool path. Its cut is analogous to that of a lathe, except that it is (archetypally) linear instead of helical. |
03 |
4 |
Radial Drilling |
A radial arm drill press is a large geared head drill press in which the head can be moved along an arm that radiates. A vise may be used with a radial arm drill press , but more often the work piece is secured directly to the table or base, or is held in a fixture. |
02 |
5 |
Centre Cylindrical Grinding |
The cylindrical grinder is a type of grinding machine used to shape the outside of an object.The cylindrical grinder can work on a variety of shapes, however the object must have a central axis of rotation. This includes but is not limited to such shapes as a cylinder, an ellipse, a cam, or a crankshaft. |
1 |
6 |
Centre less Grinding |
In-feed centerless grinding is used to grind work pieces with relatively complex shapes, such as an hourglass shape. Before the process begins, the work piece is loaded manually into the grinding machine and the regulating wheel is moved into place. |
1 |
7 |
Vertical Milling |
Milling machines are very versatile. They are usually used to machine flat surfaces, but can also produce irregular surfaces. They can also be used to drill, bore, cut gears, and produce slots. The type of milling machine most commonly found in student shops is a vertical spindle machine with a swiveling head. |
1 |
8 |
Horizontal Milling |
The Horizontal Milling Machine is a very robust and sturdy machine. A variety of cutters are available to removed/shape material that is normally held in a strong machine vice. This horizontal miller is used when a vertical miller is less suitable |
01 |
9 |
Gear Hobbing |
Hobbing is a machining process for gear cutting,cutting splines, and cutting sprockets on a hobbing machine, which is a special type of milling machine. The teeth or splines are progressively cut into the workpiece by a series of cuts made by a cutting tool called a hob. |
01 |
10 |
Slotting Machine |
Slotting machines generally utilize vertically mounted cutting tools, but can have horizontal or angled blades fixed to a vertical ram. |
01 |
11 |
Planer |
A planer is a type of metalworking machine tool that uses linear relative motion between the workpiece and a single-point cutting tool to cut the work piece.A planer is similar to a shaper, but larger, and with workpiece moving, whereas in a shaper the cutting tool moves. |
01 |
12 |
Tool Grinder |
A grinding machine, often shortened to grinder, is any of various power tools or machine tools used for grinding, which is a type of machining using an abrasive wheel as the cutting tool. Each grain of abrasive on the wheel's surface cuts a small chip from the workpiece via shear deformation. |
01 |
13 |
Bench Grinder |
A bench grinder is a type of bench top grinding machine used to drive abrasive wheels.A pedestal grinder is a larger version of a bench grinder that is mounted on a pedestal, which is bolted to the floor. These types of grinders are commonly used to hand grind cutting tools and perform other rough grinding. |
01 |
14 |
Lathe Tool Dynamometer |
Lathe Tool Dynamometer is a cutting force measuring instrument used to measure the cutting forces coming on the tool tip on the Lathe Machine. The sensor is designed in such a way that it can be rigidly mounted on the tool post, and the cutting tool can be fixed to the sensor directly. |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
Center Lathe |
A lathe is a machine tool that rotates the work piece on its axis to perform various operations such as cutting, sanding, knurling, drilling, or deformation, facing, turning, with tools that are applied to the work piece to create an object with symmetry about an axis of rotation |
14 |
2 |
Capstan and Turret Lathe |
The turret lathe is a form of metalworking lathe that is used for repetitive production of duplicate parts, which by the nature of their cutting process are usually interchangeable. |
01 |
3 |
Shaper |
A shaper is a type of machine tool that uses linear relative motion between the work piece and a single-point cutting tool to machine a linear tool path. Its cut is analogous to that of a lathe, except that it is (archetypally) linear instead of helical. |
03 |
4 |
Radial Drilling |
A radial arm drill press is a large geared head drill press in which the head can be moved along an arm that radiates. A vise may be used with a radial arm drill press , but more often the work piece is secured directly to the table or base, or is held in a fixture. |
02 |
5 |
Centre Cylindrical Grinding |
The cylindrical grinder is a type of grinding machine used to shape the outside of an object.The cylindrical grinder can work on a variety of shapes, however the object must have a central axis of rotation. This includes but is not limited to such shapes as a cylinder, an ellipse, a cam, or a crankshaft. |
1 |
6 |
Centre less Grinding |
In-feed centerless grinding is used to grind work pieces with relatively complex shapes, such as an hourglass shape. Before the process begins, the work piece is loaded manually into the grinding machine and the regulating wheel is moved into place. |
1 |
7 |
Vertical Milling |
Milling machines are very versatile. They are usually used to machine flat surfaces, but can also produce irregular surfaces. They can also be used to drill, bore, cut gears, and produce slots. The type of milling machine most commonly found in student shops is a vertical spindle machine with a swiveling head. |
1 |
8 |
Horizontal Milling |
The Horizontal Milling Machine is a very robust and sturdy machine. A variety of cutters are available to removed/shape material that is normally held in a strong machine vice. This horizontal miller is used when a vertical miller is less suitable |
01 |
9 |
Gear Hobbing |
Hobbing is a machining process for gear cutting,cutting splines, and cutting sprockets on a hobbing machine, which is a special type of milling machine. The teeth or splines are progressively cut into the workpiece by a series of cuts made by a cutting tool called a hob. |
01 |
10 |
Slotting Machine |
Slotting machines generally utilize vertically mounted cutting tools, but can have horizontal or angled blades fixed to a vertical ram. |
01 |
11 |
Planer |
A planer is a type of metalworking machine tool that uses linear relative motion between the workpiece and a single-point cutting tool to cut the work piece.A planer is similar to a shaper, but larger, and with workpiece moving, whereas in a shaper the cutting tool moves. |
01 |
12 |
Tool Grinder |
A grinding machine, often shortened to grinder, is any of various power tools or machine tools used for grinding, which is a type of machining using an abrasive wheel as the cutting tool. Each grain of abrasive on the wheel's surface cuts a small chip from the workpiece via shear deformation. |
01 |
13 |
Bench Grinder |
A bench grinder is a type of bench top grinding machine used to drive abrasive wheels.A pedestal grinder is a larger version of a bench grinder that is mounted on a pedestal, which is bolted to the floor. These types of grinders are commonly used to hand grind cutting tools and perform other rough grinding. |
01 |
14 |
Lathe Tool Dynamometer |
Lathe Tool Dynamometer is a cutting force measuring instrument used to measure the cutting forces coming on the tool tip on the Lathe Machine. The sensor is designed in such a way that it can be rigidly mounted on the tool post, and the cutting tool can be fixed to the sensor directly. |
01 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
BENCH VICE |
Carpentary Purpose |
33 |
2 |
BENCH GRINDER |
Carpentary Purpose |
01 |
3 |
TRY SQUARE |
Carpentary Purpose |
36 |
4 |
RIP SAW |
Carpentary Purpose |
38 |
5 |
TENON SAW |
Carpentary Purpose |
05 |
6 |
MARKING GUAGE |
Carpentary Purpose |
04 |
7 |
FIRMER CHISEL |
Carpentary Purpose |
47 |
8 |
MORTISE CHISEL |
Carpentary Purpose |
35 |
9 |
METAL JACK PLANE |
Carpentary Purpose |
11 |
10 |
WOOD RAPS FLAT FILE |
Carpentary Purpose |
05 |
11 |
WOOD RAPS ROUND FILE |
Carpentary Purpose |
05 |
12 |
CLAW HAMMER |
Carpentary Purpose |
01 |
13 |
GIMLET |
Carpentary Purpose |
01 |
14 |
OIL STONE |
Carpentary Purpose |
02 |
15 |
MALLET |
Carpentary Purpose |
25 |
16 |
STEEL RULE |
Carpentary Purpose |
36 |
17 |
PART CHISEL |
Carpentary Purpose |
17 |
18 |
MITRE SQUARE |
Carpentary Purpose |
04 |
19 |
OIL CAN |
Carpentary Purpose |
01 |
20 |
BRADAWL |
Carpentary Purpose |
01 |
21 |
MALLET |
Carpentary Purpose |
20 |
22 |
METAL JACK PLANE |
Carpentary Purpose |
14 |
23 |
BOSCH 13MM DRILLING MACHINE |
Carpentary Purpose |
01 |
24 |
Jack Planner 12" |
Carpentary Purpose |
10 |
25 |
Carpentry Vice 8" |
Carpentary Purpose |
05 |
26 |
Rib Saw 12" |
Carpentary Purpose |
05 |
27 |
Bench Grinding Machine |
Carpentary Purpose |
01 |
28 |
Wooden Flat File 12" |
Carpentary Purpose |
05 |
29 |
Firmer Chisel |
Carpentary Purpose |
05 |
30 |
Hacksaw Frame |
Carpentary Purpose |
05 |
31 |
ELECTRO WELD WELDING TRANFORMERS WITH ACCESSORIES |
Welding Purpose |
01 |
32 |
TIG"WELDING SET UP |
Welding Purpose |
01 |
33 |
MIG 'WELDING SET UP |
Welding Purpose |
01 |
34 |
12" EXHAUST FAN |
Welding Purpose |
01 |
35 |
WELDING MACHINE 450 AMPS |
Welding Purpose |
03 |
36 |
14" CUT OFF MACHINE WITH 1.5 HP MOTOR |
Welding Purpose |
01 |
37 |
APRON (SIGLE PIECE) |
Welding Purpose |
10 |
38 |
WELDING TONG |
Welding Purpose |
10 |
39 |
LEATHER HAND GLOVES |
Welding Purpose |
10 |
40 |
WIRE BRUSH M.S |
Welding Purpose |
10 |
41 |
CHIPPING HAMMER |
Welding Purpose |
10 |
42 |
EARTH CLAMP |
Welding Purpose |
05 |
43 |
WELDING SHIELD WITH GLASS |
Welding Purpose |
10 |
44 |
WELDING HOLDER |
Welding Purpose |
05 |
45 |
Arc Welding Machine 450 Amps |
Welding Purpose |
02 |
46 |
Welding black glass |
Welding Purpose |
10 |
47 |
Number Punch |
Welding Purpose |
05 |
48 |
PIPE VICE 4" |
Plumbing Purpose |
07 |
49 |
PIPE VICE 2" |
Plumbing Purpose |
03 |
50 |
BENCH VICE |
Plumbing Purpose |
11 |
51 |
PIPE WRENCH |
Plumbing Purpose |
14 |
52 |
DIE HOLDER |
Plumbing Purpose |
03 |
53 |
HACK SAW FRAME |
Plumbing Purpose |
03 |
54 |
DIE HOLDER SPANNER |
Plumbing Purpose |
02 |
55 |
DIES(1 INCH) |
Plumbing Purpose |
03 |
56 |
DIES( 1/2 INCH) |
Plumbing Purpose |
02 |
57 |
DIES( 3/4 INCH) |
Plumbing Purpose |
01 |
58 |
T JOINT 1 INCH |
Plumbing Purpose |
01 |
59 |
1/2 INCH CHECK VALVE |
Plumbing Purpose |
22 |
60 |
1/2 INCH NON RETURN VALVE |
Plumbing Purpose |
18 |
61 |
TAP |
Plumbing Purpose |
18 |
62 |
FLAGE FITTING PIPE |
Plumbing Purpose |
13 |
63 |
GATE VALVE |
Plumbing Purpose |
17 |
64 |
1 INCH REDUCER |
Plumbing Purpose |
01 |
65 |
I INCH COUPLING |
Plumbing Purpose |
01 |
66 |
FOOT VALVE |
Plumbing Purpose |
01 |
67 |
BALL VALVE |
Plumbing Purpose |
01 |
68 |
FINISH FILE |
Plumbing Purpose |
10 |
69 |
PIPE VICE 4" |
Plumbing Purpose |
10 |
S.No |
Name of the equipment |
Description of the equipment |
Quantity |
1 |
BENCH VICE |
Carpentary Purpose |
33 |
2 |
BENCH GRINDER |
Carpentary Purpose |
01 |
3 |
TRY SQUARE |
Carpentary Purpose |
36 |
4 |
RIP SAW |
Carpentary Purpose |
38 |
5 |
TENON SAW |
Carpentary Purpose |
05 |
6 |
MARKING GUAGE |
Carpentary Purpose |
04 |
7 |
FIRMER CHISEL |
Carpentary Purpose |
47 |
8 |
MORTISE CHISEL |
Carpentary Purpose |
35 |
9 |
METAL JACK PLANE |
Carpentary Purpose |
11 |
10 |
WOOD RAPS FLAT FILE |
Carpentary Purpose |
05 |
11 |
WOOD RAPS ROUND FILE |
Carpentary Purpose |
05 |
12 |
CLAW HAMMER |
Carpentary Purpose |
01 |
13 |
GIMLET |
Carpentary Purpose |
01 |
14 |
OIL STONE |
Carpentary Purpose |
02 |
15 |
MALLET |
Carpentary Purpose |
25 |
16 |
STEEL RULE |
Carpentary Purpose |
36 |
17 |
PART CHISEL |
Carpentary Purpose |
17 |
18 |
MITRE SQUARE |
Carpentary Purpose |
04 |
19 |
OIL CAN |
Carpentary Purpose |
01 |
20 |
BRADAWL |
Carpentary Purpose |
01 |
21 |
MALLET |
Carpentary Purpose |
20 |
22 |
METAL JACK PLANE |
Carpentary Purpose |
14 |
23 |
BOSCH 13MM DRILLING MACHINE |
Carpentary Purpose |
01 |
24 |
Jack Planner 12" |
Carpentary Purpose |
10 |
25 |
Carpentry Vice 8" |
Carpentary Purpose |
05 |
26 |
Rib Saw 12" |
Carpentary Purpose |
05 |
27 |
Bench Grinding Machine |
Carpentary Purpose |
01 |
28 |
Wooden Flat File 12" |
Carpentary Purpose |
05 |
29 |
Firmer Chisel |
Carpentary Purpose |
05 |
30 |
Hacksaw Frame |
Carpentary Purpose |
05 |
31 |
ELECTRO WELD WELDING TRANFORMERS WITH ACCESSORIES |
Welding Purpose |
01 |
32 |
TIG"WELDING SET UP |
Welding Purpose |
01 |
33 |
MIG 'WELDING SET UP |
Welding Purpose |
01 |
34 |
12" EXHAUST FAN |
Welding Purpose |
01 |
35 |
WELDING MACHINE 450 AMPS |
Welding Purpose |
03 |
36 |
14" CUT OFF MACHINE WITH 1.5 HP MOTOR |
Welding Purpose |
01 |
37 |
APRON (SIGLE PIECE) |
Welding Purpose |
10 |
38 |
WELDING TONG |
Welding Purpose |
10 |
39 |
LEATHER HAND GLOVES |
Welding Purpose |
10 |
40 |
WIRE BRUSH M.S |
Welding Purpose |
10 |
41 |
CHIPPING HAMMER |
Welding Purpose |
10 |
42 |
EARTH CLAMP |
Welding Purpose |
05 |
43 |
WELDING SHIELD WITH GLASS |
Welding Purpose |
10 |
44 |
WELDING HOLDER |
Welding Purpose |
05 |
45 |
Arc Welding Machine 450 Amps |
Welding Purpose |
02 |
46 |
Welding black glass |
Welding Purpose |
10 |
47 |
Number Punch |
Welding Purpose |
05 |
48 |
PIPE VICE 4" |
Plumbing Purpose |
07 |
49 |
PIPE VICE 2" |
Plumbing Purpose |
03 |
50 |
BENCH VICE |
Plumbing Purpose |
11 |
51 |
PIPE WRENCH |
Plumbing Purpose |
14 |
52 |
DIE HOLDER |
Plumbing Purpose |
03 |
53 |
HACK SAW FRAME |
Plumbing Purpose |
03 |
54 |
DIE HOLDER SPANNER |
Plumbing Purpose |
02 |
55 |
DIES(1 INCH) |
Plumbing Purpose |
03 |
56 |
DIES( 1/2 INCH) |
Plumbing Purpose |
02 |
57 |
DIES( 3/4 INCH) |
Plumbing Purpose |
01 |
58 |
T JOINT 1 INCH |
Plumbing Purpose |
01 |
59 |
1/2 INCH CHECK VALVE |
Plumbing Purpose |
22 |
60 |
1/2 INCH NON RETURN VALVE |
Plumbing Purpose |
18 |
61 |
TAP |
Plumbing Purpose |
18 |
62 |
FLAGE FITTING PIPE |
Plumbing Purpose |
13 |
63 |
GATE VALVE |
Plumbing Purpose |
17 |
64 |
1 INCH REDUCER |
Plumbing Purpose |
01 |
65 |
I INCH COUPLING |
Plumbing Purpose |
01 |
66 |
FOOT VALVE |
Plumbing Purpose |
01 |
67 |
BALL VALVE |
Plumbing Purpose |
01 |
68 |
FINISH FILE |
Plumbing Purpose |
10 |
69 |
PIPE VICE 4" |
Plumbing Purpose |
10 |