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Showing posts with label Interview Questions. Show all posts
Showing posts with label Interview Questions. Show all posts

Friday, 24 October 2014

MECHANICAL ENGINEERING TERMS 4

MECHANICAL ENGINEERING TERMS:-

1. Spark Plug: -

 A spark plug is a device used in an internal combustion engine that is, an engine that derives its power via exploding gases inside a combustion chamber to ignite the air-fuel mixture.
 Cars typically have four-stroke gasoline engines, which means there are four strokes, or movements, to the moving parts inside the engine per rotation. Inside each cylinder is a piston, which moves up and down within the cylinder to compress the gas for combustion, and pushes the exhaust gases out after combustion. The piston is operated by an arm that attaches to the crankshaft, a shaft that extends through the bottom of the engine. The piston goes up and down twice during each rotation, hence the four strokes -- up, down, up, down. 
The spark plug is positioned at the top of the cylinder, where the air-fuel ratio is compressed. The tip of the plug sits inside the engine, recessed into the side of the cylinder wall. The other end remains outside the engine and is attached to a wire that is also attached to the distributor.

2. Independent Suspension System :- 

When a vehicle is said to have Independent suspension system it means that the suspension system is set up in such a way as to allow the allow the wheels on the left and right side of the vehicle to move vertically independently of each other while driving on uneven surfaces.
This is achieved by not directly connecting the wheels together on the rigid axle.
In this suspension system the unsprung weight of the vehicle is decreased , softer springs are permissible and front - wheel vibration problems are minimized.

3. Supercharger:- 

A supercharger is an air compressor that increases the pressure or density of air supplied to an
internal combustion engine. This gives each intake cycle of the engine more oxygen, letting it burn more fuel and do more work, thus increasing power.
Power for the supercharger can be provided mechanically by means of a belt, gear, shaft, or chain connected to the engine's crankshaft. When power is provided by a turbine powered by exhaust gas, a supercharger is known as a turbo supercharger typically referred to simply as a turbocharger or just turbo

4. Unsprung Weight:- 

Unsprung weight is an important concept.This is the weight of a vehicles components that is not supported by the suspension system of the vehicle.  The Unsprung weight includes wheels , brakes , tyres , the rear axle assembly and other structural members that are not supported by the springs. 

OR
We can say that all the parts outboard from the suspension springs.
In Formula-1 car , we should say semi-sprung rather than unsprung because each tyre acts as a spring in its own in F-1 car

5. Turboprop Engine:-

A turboprop engine is a type of turbine engine which drives an aircraft propeller using a reduction gear. 
The gas turbine is designed specifically for this application, with almost all of its output being used to drive the propeller attached at the front of the engine.
The engine's exhaust gases do not contain enough energy as compared to a jet engine, to create significant thrust in the propulsion of the aircraft.
The propeller is coupled to the turbine through a reduction gear that converts the high RPM, low torque output to low RPM, high torque. 
Because of improvements in turbojet design, the turboprop, which is less efficient at high speeds, lost much of its importance in the 1960s, though it is still used for relatively short-range aircraft.

6. Ramjet Engine :-

A ramjet, sometimes referred to as a flying stovepipe, or an athodyd which is an abbreviation of Aero thermodynamic duct, is a form of airbreathing jet engine using the engine's forward motion to compress incoming air, without a rotary compressor.

Key Points:-
>Ramjets cannot produce thrust at zero airspeed, thus they cannot move an aircraft from a standstill.

>Ramjets can be particularly useful in applications requiring a small and simple mechanism for high- speed use, such as missiles or artillery shells.




Thursday, 23 October 2014

MECHANICAL ENGINEERING INTERVIEW QUESTIONS

MECHANICAL ENGINEERING  INTERVIEW QUESTIONS :-


1.)What causes hardness in steel ?  How heat treatment alters properties of steel ?

Ans: The shape and distribution of the carbides in the iron determines the hardness of the steel. Carbides can be dissolved in austenite is the basis of the heat treatment of steel. If steel is heated above the A critical temperature to dissolve all the carbides, and then cooled, suitable cooling through the cooling range will produce the desired size and distribution of carbides in the ferrite, imparting different properties.

2.)What is the difference between streamline body and bluff body ?

Ans: In streamline body the shape is such that separation in flow occurs past the nearmost part of the body so that wake formed is small and thus friction drag is much greater than pressure drag. In bluff body the flow gets separated much ahead of its rear resulting in large wake and thus pressure drag is much greater than the friction drag.

3.)Define hydraulically efficient channel cross section.

Ans: The shape of such section is that which produces minimum wetted perimeter for a given area of flow and carries maximum
flow.

4.)What is the difference between alpha iron, delta iron and gamma iron ?

Ans: The bcc form of iron exists between room temperature and 910°C, and between 1400°C and the melting point at 1539°C. The lower temperature form is known as "alpha"-iron and the higher temperature form as "delta"-iron. The face-centered cubic form existing between 910°C and 1400°C is referred to as "gamma-iron".



5.)Explain the difference between the points of inflexion and contraflexure.

Ans: At points of inflexion in a loaded beam the bending moment is zero and at points of contraflexure in loaded beam the bending moment changes sign from increasing to decreasing

6.)What do you understand by eutectic ?

Ans: It is mechanical mixture of two or more phases which solidify simultaneously from the liquid alloy.

7.)Under what condition a convergent divergent nozzle required ?

Ans: When pressure ratio is greater than critical pressure ratio.

8.)What is the difference between isotropic material and homogeneous material ?

Ans: In homogeneous material the composition is same throughout and in isotropic material the elastic constants are same in all directions.


9.)What do you understand by catenary cable ?

Ans: A cable attached to the supports and carrying its own weight.

10.)What is the difference between basic hole and basic shaft ?

Ans: A basic hole is one whose lower deviation is zero and in case of basic shaft the upper deviation is zero.

11.)Why should a chain drive be used over a belt or rope driven drive? State pro`s and con`s?

The advantages of using a chain drives are:
  •  In a chain drive no slip occurrence takes place.
  •  The chains take less space as compared to rope or belts as they are made of metal and offer much strength.
  •  The chain drives can be used at both short and long ranges and they offer a high level of transmission efficiency.
  •  Chain drives can transmit more load and power as compared to belts.
  •  A very high speed ratio can be maintained in one step of chain drives. 


Some of the cons of using a chain drive are:
  •  The cost of producing chain drives is higher as compared to that of belts.
  •  The chain drives must be serviced and maintained at regular intervals and henceforth their cost of ownership is high comparatively.


12.)Briefly explain the advantages of Cycloidal and Involute gears?

The advantages of the Cycloidal gears are as follows: 
  •  Having a wider flank as compared to Involute gears they are considered to have more strength and hence can withstand further load and stress.
  •  The contact in case of cycloidal gears is between the concave surface and the convex flank. This results in less wear and tear.
  •  No interference occurs in these types of gears.


The advantages of Involute gears are as follows:
  •  The primary advantage of involute gears is that it allows the changing of the centre distance of a pair without changing the velocity ratio. 
  •  The pressure angle remains constant from start to end teeth, this results in less wear and smooth running of the gears.
  •  The involute gears are easier to manufacture as they can be generated in a single curve ( the face and flank )


13.)What is Sentinel Relief Valve? 

Ans. It’s a special type valve system. The valve will open when exhaust casing pressure is excessive (high). The valve warns the operator only; it is not intended to relieve the casing pressure. 

14.)What is the difference between Specification,Codes, Standards?

Ans. Specification is describing properties of any type of materials. Code is procedure of acceptance and rejection criteria. 
Standard is accepted values and compare
other with it.

15.) What is difference between Welding and Brazing? 

Ans. In Welding concentrated heat (high temperature) is applied at the joint of metal and fuse together. In Brazing involves significantly lower temperatures and does not entail the melting of base metals. Instead, a filler metal is melted and forced to flow into the joint through capillary action.

16.)On what basis can sliding contact bearings be classified? Explain?

Sliding contact bearings can be classified on the basis of the thickness of the lubricating agent layer between the bearing and the journal. They can be classified as follows:
  •  Thick film bearings: These type of bearings have their working surface separated by a layer of the lubricant. They are also known as hydrodynamic lubricated bearings.

  •  Thin film bearings: In this type of bearings the surfaces are partially in direct contact with each other even after the presence of a lubricant. The other name for such type of bearings is boundary lubricated bearings.

  •  Zero Film Bearings: These type of bearings as their name suggests have no lubricant present between the contact layers.

  •  Externally or hydrostatically pressurized lubricated bearings: These bearings are able to without any relative motion support steady loads



17.)How does nitrous oxide help an engine perform better?

We know about how sodium chlorate acts as a way to store oxygen. You release the oxygen in sodium chlorate by heating it. It turns out that nitro­us oxide (N20) works exactly the same way. When you heat nitrous oxide to about 570 degrees F (~300 C), it splits into oxygen and nitrogen. So the injection of nitrous oxide into an engine means that more oxygen is available during combustion. Because you have more oxygen, you can also inject more fuel, allowing the same engine to produce more power. Nitrous oxide is one of the simplest ways to provide a significant horsepower boost to any gasoline engine.
Nitrous oxide has another effect that improves performance even more. When it vaporizes, nitrous oxide provides a significant cooling effect on the intake air. When you reduce the intake air temperature, you increase the air's density, and this provides even more oxygen inside the cylinder.
The only problem with nitrous oxide is that it is fairly bulky, and the engine needs a lot of it. Like any gas, it takes up a fair amount of space even when compressed into a liquid. A 5-liter engine running at 4,000 rotations per minute (rpm) consumes about 10,000 liters of air every minute (compared to about 0.2 liters of gasoline), so it would take a tremendous amount of nitrous oxide to run a car continuously. Therefore, a car normally carries only a few minutes of nitrous oxide, and the driver uses it very selectively by pushing a button.

18.)Why does a car's engine get hot when it is running?

A car's engine is not efficient.
The engine works by converting chemical energy in the form of fuel to the mechanical energy (work) that drives the wheels and makes the car move.
But only about 20 to 30 percent of the chemical energy is actually converted to mechanical energy. What happens to the remaining 70 to 80%?
It gets converted to heat.
In fact, thermodynamics tells us that we cannot convert the fuel completely into work. This is the result of the famous Second Law of Thermodynamics


19.) What is the difference between drum brakes and disc brakes?

In Drum brakes a hollow drum is attached to the wheel of the vehicle called the hub and inside that hollow hub two break linings or shoes are fixed , with a mechanism of pushing them towards the inner surface of the hub and when we apply break pedal to stop the vehicle, the break shoes apply the force against the inner surface of the drum and stops the vehicle. It is of two types one is mechanical and the other is hydraulic based and in the hydraulic system 'Break fluid ' is used. 

In case of Disc brakes there is a metal disk made up of high quality metal is fixed to the wheel having both the side of the disk fully polished and there are break shoes holding on both the side of the disk in opposite direction and when the break is applied both the break shoes press against the disc and hold together the disk tightly resulting in the immediate stop of the vehicle. 

Disc brakes perform better in wet weather, because centrifugal force tends to fling water off the brake disc and keep it dry, whereas drum brakes will collect some water on the inside surface where the brake shoes contact the drums.

The disk breaks are also visible outer side of the vehicle and the drum brakes are built inside the hub

20.)Why do disc brake pads have holes?

Today's modern disc brakes were holed either with drilling or slotting. The reason for providing these holes in the disc brakes are as follows :-

(1.) To lessen the heat generation due to friction. The holes help the escape of heat.

(2.) The second reason is gas build up.This is not a problem in new disc brakes but the material used in the older disc brakes caused gases to build up.

(3.) The third reason is water. The water enter the pads surface and cause slippery.

So having drilled holes on a brake rotor makes it easy for heat , gas and water to be quickly moved away from the rotor surface , keeping the brake performance strong.


MECHANICAL ENGINEERING TERMS 3

MECHANICAL ENGINEERING TERMS:-


1.)LEAF SPRING – A spring made up of a series of flat steel plates of graduated length, assembled one on top of another.

2.)LEVEL CONTROL (automatic) – A suspension system which compensates for variations in load in the rear of the car, positioning the rear at a predesigned level regardless of load.

3.)LIMITED SLIP DIFFERENTIAL – A differential allowing unequal torques to be delivered to the axle shafts.

4.)LINKAGE POWER STEERING – A type of power steering in which the power steering units (power cylinder and valve) are an integral part of the steering linkage.

5.)LORD LEVELING SYSTEM– A system used to level a vehicle that is heavily loaded.


6.)MECHANICAL BRAKES– Brakes operated by mechanical linkage (cables and levers) between the brake pedal and the brakes at the car wheels.

7.)METALLIC BRAKE LINING – A lining having metallic properties used to provide high temperature braking efficiency.

8.)PNEUMATIC TYRES – Tyres that are filled with air to the required pressure.

9.)POWER BOOSTER – A device used to increase the drivers brake pedal force going to the master cylinder, without an accompanying increase in pedal travel.

10.)POWER STEERING – A device that uses hydraulic pressure to multiply the drivers effort as he turns the steering wheel so that less steering effort is required.

11.)SYNCHROMESH – A device in the transmission that synchronizes gears about to be meshed so that there will not be any gear clash. Also called SYCHRONIZER.

12.)TACTILE SENSOR – A sensor that allows the vehicle operator to feel when a certain condition is reached. Disc brake pads are made to vibrate when worn to the point where replacement is necessary and this vibration is felt in the brake pedal.

13.)THROWOUT BEARING – Bearing operated by the clutch linkage used to disengage the clutch.


14.)TIE RODS – In the steering system, the rods that link the pitman arm to the steering knuckle arms.

15.)TILT STEERING WHEEL – A type of steering wheel which can be tilted at various angles, due to a flex joint in the steering shaft.

16.)TRIPLE POINT JOINT – A universal joint using bearings on three axes to maintain a constant plane of drive, making it a constant velocity joint.

17.)TUBED TYRE– Inside the tyre, there is an endless tube fitted with a valve. Air is forced through the valve and is retained inside the tube under pressure. The air acts as the cushioning medium.

18.)TUBELESS TYRE – A tyre that has the air sealed between the rim and tyre and does not use an inner tube.

19.)TWO DISC CLUTCH – A clutch having two friction discs for additional holding power used in heavy duty equipment.

20.)UNIVERSAL JOINT – The part of the drive line assembly that allows for a change in angle of the drive line as the vehicle goes over bumps.

Monday, 22 September 2014

MECHANICAL ENGINEERING TERMS 2

MECHANICAL ENGINEERING TERMS:-


1.)GEAR – A wheel with teeth that engage or mesh with teeth of another wheel.

2.)GEAR BOX– A unit which has a series of gears and shafts to vary the speed of the gearbox output shaft compared to the engine speed. This in turn increases the torque and thereby improves acceleration of the vehicle.

3.)GEAR RATIO – The ratio of the number of teeth on two gears to mesh with each other.

4.)HANDLING– The ease of maneuvering a vehicle without slipping or skidding.

5.)HYDRAULIC BRAKE – A brake system using hydraulic fluid, piston and cylinders to provide extremely high pressure for brake application.

6.)HYDRAULIC CLUTCH – A clutch that uses hydraulic pressure to actuate the clutch. Used in heavy duty equipment and where the engine is away from the drivers compartment so that it would be difficult to use mechanical linkages.

7.)HYDRAULIC CONTROL VALVES – A system of valves that senses driving conditions and automatically shifts the transmission.

8.)HYPOID GEARS – Drive pinion and ring gears whose shape allows them to mesh off centre.

9.)INDEPENDENT SUSPENSION – A type of suspension system in which each wheel is independently supported by a spring. A suspension that allows up and down movement of one wheel without affecting the opposite wheel.

10.)INNER TUBE (tyre) – The inside rubber tube assembled in the tyre casing, it maintains the air at sufficient pressure to inflate the casing and adequately support the vehicle weight.

11.)FLUID FLY WHEEL– A liquid coupling used to transmit the engine effort (torque) to a clutch and transmission. This coupling is always a major part of the engine flywheel.

12.)FORWARD CONTROL TRUCK– has the engine either in or below the driver’s cabin.

MECHANICAL ENGINEERING TERMS 1

13.)FORWARD EFFICIENCY – is the ratio of the amount of driver input torque which is available at the wheels to turn the same to the total amount of input torque from the driver at the steering wheel.

14.)FOUR WHEEL DRIVE– Some cross country vehicles (Jeeps) have this arrangement. In this case, the engine power is transmitted to all the four wheels of the vehicle. The main advantage of this arrangement is the entire vehicle weight is available for traction.

15.)FRAME – The assembly of metal structural parts and channel sections that forms the base and supports the engine and body and is supported by the vehicle wheels.

16.)EMERGENCY BRAKE– is the hand brake, operated by a lever, is used when the vehicle is left parked and prevents the vehicle from moving. The hand brake can be applied to stop the vehicle when the service brake fails.

17.)EPICYCLIC GEAR– In the epicyclic gearing, at least one gear not only rotates about its own axis, but also rotates about some other axis.

18.)FADE (brake) – A condition that occurs when there is little braking effect with full brake pedal force.

19.)FINAL DRIVE – The final gear reduction between the engine and the drive wheels.

20.)FIXED CALIPER DISC BRAKES – Disc brakes using a caliper which is fixed in position and cannot move.

MECHANICAL ENGINEERING TERMS 1

MECHANICAL ENGINEERING TERMS:-



1.)DRAGSTER – Car especially built for drag racing.

2.)DRAG WHEEL – Special steering wheel used on some dragsters. Often consists of cross bar spoke and portion of rim on each end.

3.)DRIVE LINE or DRIVE TRAIN – Propeller shaft, universal joints etc. connecting transmission output shaft to axle pinion gear shaft.


4.)DROP CENTRE RIM – Centre section of rim being lower than two outer edges. This allows bead of tyre to be pushed into lower area on one side while the other side is pulled over and off the flange.

5.)DROPPED AXLE – Front axle altered so as to lower the frame of the vehicle. Consists of bending axle downward at outer ends (solid front axle).

6.)DOUBLE LEADING BRAKE – A drumbrake assembly with both front shoes self energized during forward wheel rotation.


7.)DOUBLE REDUCTION AXLE– In the double reduction or tripple reduction type final drive, the required speed reduction is obtained in two or more steps. This enables higher torque to be available at the road wheels. In heavy duty and off highway vehicles, multiple reduction is used. 

8.)DOUBLE TRAILING BRAKE – A drum brake assembly with both shoes self energized during rearward wheel rotation only.

9.)DRAG – To accelerate a vehicle from standing start, over course one fourth mile in length. Also used by some drivers when referring to challenging another driver to an acceleration race.

10.)DRAG LINK – A steel rod connecting pitman arm to one of steering knuckles. On some installations, drag link connects pitman arm to a centre idler arm.

11.)DIFFERENTIAL LOCK– The differential lock grips one or both of the side gears to the differential case. This prevents their rotation on the pins. This enables a larger torque to be transmitted to the gripping wheel than that to the slipping wheel.


12.)DIRECT ACTING SHOCK ABSORBER – Type of shock absorber which shortens or lengthens in action. Also called telescopic shock absorber.

13.)DIRECT DRIVE – Such as high gear when crankshaft and drive shaft revolve at same speed.

14.)DOUBLE LEADING SHOE – A drum brake having two leading shoes and no trailing shoes. Each shoe has its own actuating mechanism and pivot.


15.)DOUBLE PISTON CALIPER – A hydraulic brake caliper with two pistons and provision for applying hydraulic pressure equally to both pistons. The caliper body is fixed solidly.

16.)DASH BOARD – Part of body containing driving and control instruments, switches etc.

17.)DEAD AXLE – Axle that does not rotate or deliver power but merely forms a base upon which wheels may be mounted.

18.)DEDION – Rear axle set up in which driving wheels are attached to the frame by a central pivot. Differential unit is bolted to frame and is connected to the driving wheels by drive axles.


19.)DEPENDENT SUSPENSION – Wheel connected through an axle member so that movement of one wheel moves the other wheel.

20.)DIFFERENTIAL – A mechanism between axles that permit one wheel to turn at a different speed than the other while transmitting power from the drive shaft to the wheel axles, when the vehicle is negotiating a turn.

Wednesday, 17 September 2014

100 MECHANICAL ENGINEERING INTERVIEW QUESTION AND ANSWER

 100 Mechanical Engineering Interview Question and Answers http://upseexam.blogspot.com/

1. What is the difference between scavenging and
supercharging?

Ans: Scavenging is process of flushing out burnt gases
from engine cylinder by introducing fresh air in the
cylinder before exhaust stroke ends. Supercharging is
the process of supplying higher mass of air by
compressing  the  atmospheric  air.

2. What are the names given to constant temperature,
constant pressure, constant volume, constant internal
energy, constant enthalpy, and constant entropy
processes?

2. Ans: Isothermal, isochoric, isobaric, free expression,
throttling  and  adiabatic  processes  respectively.

3. In a Rankine cycle if maximum steam pressure is
increased keeping steam temperature and condenser
pressure same, what will happen to dryness fraction of
steam after expansion ?Ans: It will decrease.

4. Why entropy change for a reversible adiabatic process
is  zero?

Ans: Because there is no heat transfer in this process.

5. What are two essential conditions of perfect gas?
Ans: It satisfies equation of state and its specific heats
are  constant.

6. Enthalpy and entropy are functions of one single
parameter.  Which  is  that?

Ans:  Temperature.

100 Mechanical Engineering Interview Question and Answers http://upseexam.blogspot.com/
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100 Mechanical Engineering Interview Question and Answers http://upseexam.blogspot.com/

7. Why rate of condensation is higher on a polished
surface  compared  to  rusty  surface?

Ans: Polished surface promotes drop wise condensation
and  does  not  wet  the  surface.

8. How much resistance is offered to heat flow by drop
wise  condensation?

Ans:  Nil

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9. What is the relationship between COP of heating and
cooling?

Ans: COP of heating is one (unity) more than COP of
cooling.

10. How much is the work done in isochoric process?

Ans:  Zero.

11. When maximum discharge is obtained in nozzle?
Ans:  At  the  critical  pressure  ratio.

1. Under what condition the work done in reciprocating
compressor  will  be  least?

Ans: It is least when compression process approaches
isothermal. For this purpose, attempts are made to cool
the  air  during  compression.

13. What is the difference between stalling and surging

100 Mechanical Engineering Interview Question and Answers http://upseexam.blogspot.com/
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100 Mechanical Engineering Interview Question and Answers http://upseexam.blogspot.com/

in  rotary  compressions?

Ans: Stalling is a local phenomenon and it occurs when
How breaks away from the blades. Surging causes
complete breakdown of flow and as such it affects the
whole  machine.

14. Why the electric motor of a fan with backward
curved blades is never got overloaded under any
condition?

Ans: The maximum power is consumed at about 70%
of maximum flow in case ‘of fan with backward blades.
For higher flow, power consumption gets lower.

15. Why the work per kg of air flow in axial flow
compressor is less compared to centrifugal compressor
for  same  pressure  ratio?

Ans: Isentropic efficiency of axial flow compressor is
higher.

16. What is the name given to portion of thermal energy
to  be  necessarily  rejected  to  environment?

Ans:  Energy.

17.  What  is  pitting?  How  it  is  caused?

Ans: Non uniform corrosion over the entire metal
surface, but occurring only in small pits is called pitting.
It is caused by lack of uniformity in metal.

18.  What  is  caustic  embrittlement?

Ans: It is the actual physical change in metal that makes
it extremely brittle and filled with minute cracks. It
occurs particularly in the seams of riveted joints and
around  the  rivet  holes.

19. Which impurities form hard scale and which
impurities  soft  scale?

Ans: Sulphates and chlorides of lime and magnesium
form hard scale, and carbonates of lime and magnesium
form  soft  scale.

20. What is the difference between hard water and soft
water?

Ans: Hard water contains excess of scale forming
impurities and soft water contains very little or no scale
forming  substances.

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50 Mechanical Engineering Interview Question and Answer

Mechanical engineering interview question and answer http://upseexam.blogspot.in/

1. What is the difference between Critical Speed and Whirling Speed?
Ans. In Solid mechanics, in the field of rotor dynamics, the critical speed is the theoretical angular velocity which excites the natural frequency of a rotating object, such as a shaft, propeller or gear. As the speed of rotation approaches the objects natural frequency, the object begins to resonate which dramatically increases system vibration. The resulting resonance occurs regardless of orientation. Whirling Speed is due to the unbalanced forces acting on a rotating shaft.

2. How a Diesel Engine Works as Generator?
Ans. Diesel engine is a prime mover, for a generator, pump, and for vehicles etc. generator is connected to engine by shaft. Mostly in thermal power plat, there is an engine is used to drive generator to generate power.

3. Explain Second Law of Thermodynamics?
Ans. The entropy of the universe increases over time and moves towards a maximum value.

4. Compare Brayton Cycle and Otto Cycle?
Ans. The heat addition and rejection processes in Otto cycle are of constant volume, whereas in Brayton cycle, they are of constant pressure. Otto  cycle  is  the  ideal  cycle  for  spark  ignition  engines. Brayton cycle is the ideal cycle for gas power turbines.

5. What is the purpose of Scrapper Ring?
Ans. Scrap the excess lube oil from the cylinder walls. There by preventing oil from entering combustion zone.


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50 Mechanical Engineering Interview Question and Answer

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Tuesday, 16 September 2014

Automobile Engineering Interview Question and Answer

Automobile engineering interview question and answer http://upseexam.blogspot.in/

Automobile Engineering Interview Question and Answer


1. Explain the reason that why big tyres are used in rear of vehicles.
Large tyres provide larger surface area touching the ground, thus providing the more pulling power. Basically tractors have larger rear tyres because tractors don’t have to operate at higher speeds, thus getting the same ground speed with larger tyres. Moreover gear ratios don’t have to be as high as b/c of the tyres.

100 MECHANICAL ENGINEERING INTERVIEW QUESTION AND ANSWER


2. What is kingpin offset? State some of its application.
The kingpin offset is the part, basically called as pivot used in the steering of the vehicles. This offset helps in rotating of the steering and thus it’s very useful in steering mechanism of the cars.
Applications: This is also used to measure scrub radius with the help of geometric parameters of wheel plane above and below ground level. 
It provides directional stability to the vehicles when it i combined with the caster.

50 Mechanical Engineering Interview Question and Answer


3. Explain the basic difference between BS2 and BS3 engine.



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Automobile Engineering Interview Question and Answer