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1 1 GUJARAT TECHNOLOGICAL UNIVERSITY MSMT DECEMBER 2013 SOLVED QUESTION PAPER ANKITKUMAR BRAHMBHATT 12/20/2013 PARUL INSTITUTE OF ENGINEERING AND TECHNOLOGY DS FIRST SHIFT(MECHANICAL)

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Page 1: Final solved paper msmt 1

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GUJARAT TECHNOLOGICAL UNIVERSITY

MSMT DECEMBER 2013SOLVED QUESTION PAPER

ANKITKUMAR BRAHMBHATT

12/20/2013

PARUL INSTITUTE OF ENGINEERING AND TECHNOLOGY DS FIRST SHIFT(MECHANICAL)

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PARUL INSTITUTE OF ENGINEERING AND TECHNOLOGY DS FIRST SHIFT MECHANICAL

DECEMBER 2013

Q1 ANSWER ANY SEVEN OUT OF TEN 14

1. EXPLAIN PRIMARY AND SECONDARY BONDS.ANSWER:PRIMARY: The inter atomic bonds between atoms is called main or primary. Atoms are remaining joined to each other by electrostatic forces. It is classified according to the type of arrangement of the electrons while the bond is formed.

SECONDARY: The intermolecular bond is called secondary bond. In this bond the molecules are remaining joined with less forces, The main bond is more strong and stable and secondary is weak and less stable.

2. DEFINE1.SPACE LATTICE2.UNITCELLANSWER:Space lattice: During solidification of metal their atoms take up fixed position in a regular pattern, referred as space lattice.Unit Cell: The minimum volume of the crystal which gives an idea of the atomic structure of a metal throughout its volume is called Unit Cell.

3. DRAW UNIT CELL OF BCC AND FCCANSWER:

Fig: BCC and FCC Structure

4. LIST PHYSICAL AND CHEMICAL PROPERTIES OF MATERIALSANSWER:PHYSICAL:lustre,Colour,Dimension,Density,Melting Point,Porosity,Structure.CHEMICAL: Corrosion Resistivity, Chemical Composition,Acidity,Alkalanity.

5. EXPLAIN CONCEPT OF SOLIDIFICATION OF METALANSWER:The solidification of metal starts from the centre of atom called crystal center.The grain growth continue with the solidification. The crystal centre grows more and more and seen at different places in moltern metal as shown.

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Fig: Solidification Of Metal.The regular shape crystal continue to develop with its growth. But with the free growth of different crystals, their growth is restricted by one another giving alteration of their shape.This is seen occurring on the surface where crystal come in contact. The solidification is complex process. Therefore it is difficult to obtain information of primary stage of crystal centre formation.Due to thermal motion of metal atoms its short range can not survive, however with the decrease in temperature, micro volumes of short range go on increasing Attemperature lower than the temperature of solidification atom centre of solidifying metal developes and become stable.

6. DEFINE 1.GRAIN 2.GRAIN BOUNDRY.

ANSWER:

GRAIN: The metal structure formed by the crystal is known as grain.

GRAIN BOUNDRY:Each grain starts from the nucleus so the crystallisation obtained is dependent on the number of nucleus the orientation of the atoms arise from grain to grain. The two hereby grain meet in a surface these surface is known as grain boundary.

7. WHAT IS EQUILIBRIUM DIAGRAM

ANSWER: The temperature composition diagram shows the changes of the structure taking place during the heating and cooling is called as Equilibrium diagram.

On X AXIS: Metal Composition, Y AXIS :Temperature. It is also known as Phase Diagram

Fig: Equilibrium Diagram When any Alloy after heating cooled down then changes taking place in it is shown

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by a curve known as Equilibrium Diagram or Phase Diagram or Constitutional Diagram.

8. DEFINE SOLID SOLUTION AND GIVE EXAMPLES

ANSWER: In liquid stage metal form homogeneous liquid solution, The solid Solution is formed. If Solvent &Solute atoms are of similar size and electron structure, solid solution forms very readily if elements A in B forms solid solution in B by its 10%.

E.g Brass: Copper & Zinc,Steel:Iron & Carbon,Monel:Nickel&Copper,Au-Ag:Gold & Silver, Sterling Silver: Silver & Copper.

9. WHAT IS COOLING CURVE AND DRAW COOLING CURVE OF METAL & COMPOUND.

ANSWER:

Fig:Cooling Curve For Pure Metal10. WRITE PROPERTIES OF SOLID SOLUTION.

ANSWER: : Properties

• Thermal &Electrical properties are reduced due to formation of solid solution.

• The strength and hardness of all the alloy metals increases due to solid solution

• Solid solution reduces the ductility &malleability of the alloys.

• The density, specific heat &heat distribution get changed according to the proportions of alloying elements.

• By changing the proportion of the alloying element, there is no possibility to change the stiffness any more.

• Solid solution alloys exhibit differential freezing.

• Solid solution are conductors but not as the pure metals on which they are based.

• The Constituents of the solid solution cannot be detected by the microscope.

• It is simply a solution in the solid state consisting of atoms combimned in one type of space lattice.

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Q2 (A)STATE LEVER RULE AND EXPLAIN IT.03

ANSWER: On basis of phase Diagram No Of phase, and Composition Of phase can be calculated .

Fig:Phase Diagram

lever rule is very important in two phase system to calculate the percentage of phase presenttwo lines are drawn and point is obtained which is between liquidus and solidus line G E H

Solid Phase Percentage=GE/GH*100 Liquid Phase Percentage=EH/GH*100

OR

(A)DRAW TTT DIAGRAM AND ITS APPLICATION

ANSWER:

Fig: TTT Equilibrium Diagram

The many heat treatment process of steel have reaction condition so far removed from equilibrium hence iron carbon Eqm diagram is of only limited use for steels cools under non Eqm condition.

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It shows only the phase and resulting microstructure corresponds to Eqm condition. Its usefulness is to fix Austenizing temperature and predicting the phase obtained at given temperature and percentage.

(B)DRAW NEAT SKETCH OF IRON CARBON DIAGRAM 09

ANSWER:

Fig: Iron Carbon Diagram.

OR

(B) LIST AT LEAST SIX INFORMATION FROM AN EQUILIBRIUM DIAGRAM

ANSWER:

• System: Part of the substance which is completely separated from the surrounding.

• Component: Basic chemical substance, whose mass is constant and which can be used to form a chemical mixture.

• Phase: The part of material system uniformly mixed physically.

• Constituent:The part of multiphase mixture which can be identified separately.

• Liquidus:The locus of temperature at which solidification is complete. below solidus only solids are stable.

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• Solidus:The locus of temperature of a transformation at which solidification starts.

• Solvent: The major element of a sold solution.

• Solute: The minor element of a solid solution.

• When an alloy after heating ,cooled down then the changes taking place in it is shown by a curve known as “Equilibrium Diagram” known as Phase Diagram. It is graphical description of the alloy system.

• The system shows the Melting points and Freezing points of all its alloy.

• Temperature, Pressure of Element& Proportion of the constituent are the major factors in this equilibrium diagram with the help of variation the equilibrium diagram is constructed.

(C)WHAT IS HEAT TREATMENT PROCESS?LIST TYPES OF FURNACES. 04

ANSWER: The Entire heat treatment process depends upon following three important principle

a. Phase transformation during heating

b. Structural changes during cooling due to different cooling rates.

c. Effect of carbon content and other alloying elements.

Definition of Heat treatment Process

• It is sequential process of heating and cooling the steel component to get desired combination of properties in the component.

Fig: Basic Of Heat Treatment

• Heating Component at higher temperature called austenitizing temperature, during which the previous structure of steel is converted in to Austenite phase.

• Holding the steel at austenitizing temperature for some time period so that formation of homogenous austenite can occur throughout the entire cross section of the part.

TEMP

TIME

ROOM TEMP

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• Cooling back the part which is having homogenous austenitic structure to the room temperature at a particular cooling rate depending upon the properties required.

• Reheating of component to a higher temperature but lower than lower critical temperature and cooling again this is an optional process and performed if required.

OR

(C)EXPLAIN ANNEALING PROCESS. 04

ANSWER: Annealing

• Heating the steel to austenite phase and then cooling slowly through the transformation range. Slow cooling is generally achieved in a closed furnace by switching off the supply to the furnace.

Fig:Types Of Anneling

Purpose Of Annealing:

• To produce the desired microstructure having mechanical.physical,and other properties as per the requirement.

• To reduce hardness and soften the steel

• To relieve the internal stress.

• To restore the ductility and thereby facilitate further cold working

• To improve Machinability.

• To refine and make homogeneous structure by reducing structural in homogeneities

• To create complete stable structure.

• Increase or restore toughness.

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(D)EXPLAIN INDUCTION HARDENING. 04

ANSWER: Induction Hardening

• Parts are heated by induction heating.

• High frequency induction current is used.

• Required current is produced by using motor generator set with spark gas oscillator or tube oscillator.

• Frequency of 1000-1000C/s.

Fig: Induction Hardening Process

• The gap oscillator can generate the current having frequency of 100000 to 400000 C/s.

• When Current of required frequency is passed through induction coil, magnetic lines will pass through the part surface, due to that AC current will induce in the surface which cause hysteresis loss in it and as a result of that parts get heated.

• The induced current travels along the surface of the part. For Quenching ,water is sprinkled on the parts through the voids of inductor block & coil.

• This contain 0.35-0.55%c can be done. The induction hardening process is used for the parts like camshafts,Gears,Cranckshaft,axles,and other automobile parts and tractor parts.

OR

(D)WRITE SHORT NOTE ON FLAME HARDENING

ANSWER: Flame Hardening:

• This process is used for hardening stell,dye,gears,tappet screw,rocker arms and valves. This is the process of obtaining wear resistant layer on the tough core by heating the parts using gas torch.

• This process is utilized for the parts containing 0.4 % to 0.6% C.The surface is heated by the oxy acetylene flame. By heating for sufficient time the temperature of the part

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is raised above AC3 temperature and thereafter fast quenching is done. The surfaces of large size parts can be hardened is an advantage of this process.

Fig: Flame Hardening

• Heating cycle is less,which cause scaling. A fixed temperature can not be maintained is the disadvantage of this process.

• The parts are also damaged due to overheating or cracks are formed in it.

Q3 (A) DRAW LINE DIAGRAM OF METALLURGICAL MICROSCOPE.03

ANSWER:

Fig: line Diagram Of Metallurgical Microscope

OR(A)STATE THE STEPS OF PREPARING A MICRO SPECIMEN I N SEQUENCE.

ANSWER:

1) To examine the internal details % structure of the metal specimen of 1cm,size should be prepared.

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2) The surface of the specimen should be prepared by filing & grinding for grinding the specimen use emery paper of grades 1 and 0.after grinding on one emery paper. This will clear the scratches from the surface by grinding.

3) After Completing the rough grinding using grade 1 emery paper, fine grinding should be done by using 0,00,000,0000 emery papers. If zero grade fine emery papers are not available then used equivalent emery papers of 200grit,320 grit,400 grit and ,600 grit for the purpose of polishing.

4) The disc covered with shifon velvet containing diamond dust or dimontine should be rotated. On this rotating disc the final polishing of the surface of specimen should be done.

5) After final polishing of specimen obtain its surface like mirror and free from scratches.

6) he specimen surface should be immersed in etching reagent to make the grain boundaries visible. Without etching usually specimen can not be seen under the microscope. Etching imparts unlike appearances to the metal constituents and thus makes metal structure apparent under the microscope. Before etching the specimen should be thoroughly washed in running water.Innerse the polished surface in the etching reagent or by rubbing the polished surface gently with a cotton swab wetted with the etching reagent.

7) After etching again wash the specimen thoroughly and allow it to dry.

8) Now the specimen can be said ready to be studied under microscope.

(B) CLASSIFICATION OF FERROUS METAL 03

ANSWER:

Fig: Classification Of Ferrous Material

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OR

(B)EXPLAIN FLOW DIAGRAM FOR THE PRODUCTIO N OF IRON AND STEEL.03

ANSWER:

Fig: Flowsheet Of Iron and Steel Production.

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(C)STATE PROPERTIES AND USE OF MALLEABLE CAST IRON. 04

ANSWER:

Table: Properties and Use of MCI

OR

Properties Uses

Its Yield Strength is more In rail road

Its core of thermal expansion is less.

In agricultural tools.

Wear resistance In hardware of electric lines.

Absorbs Vibrations In chain links of conveyors.

It is cheap To manufacture gear case

It is tough metal In yoke of universal joints.

It can be Heat treated To improve differential housings

Its ductility is good In automobile cranck shafts.

Have good Machining Properties, Hence It can be Machined Very Easily.

To improve crankshaft sockets

To manufacture the hub of the wagon wheels.

To manufacture hinges and locks.

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(C)DEFINE ALLOY STEEL.STATE THE REASON OF ALLOYING STEEL. 04

ANSWER:

By adding in plain carbon steel,the elements like nickel,Chromium,Mangenese,Cobalt,Tungsten,Vanadium,Silicon,Aluminium,the steelproduced is known as Alloy Steel.By adding these elements the properties of plain carbon steel increses.

The main constituents of plain carbon steel are iron& carbon.The properties of carbon steels are directly related to the percentage of carbon present.The presence of other elements such as Mn,Si,S,P do not have an appriciable effect on the properties of carbon steel.Alloy steel is the steel to which elements other than carbon are added in sufficient amount to produce improvement in properties.

The common added elements include Ni,Co,Cu,Al,and B.Each element confers certain quality upon the steel to which it is added.They may be used seperately or in combination to produce desired properties in steel.The compositional and structural changes produced by alloying elements changes and improves the physical,Mechanical,properties of the iron and steel.In general alloy steel can provide better strength,Ductility & Toughness,That can not be obtained in PCS.

Reasons:

1) The alloying elements by mixing in solid solution improves the strength of the steel.

2) They increase the hardness.

3) Increases the high heat capacity.

4) Increases the depth of hardness.

5) The fatigue and creep resistance increases.

6) The machinability is improved.

7) It increases the weld ability.

8) Improves Magnetic Properties.

9) Improves Castability.

10) Obtains heat resistance properties.

11) Refines the Grain and microstructure.

12) Promotes Graphite Formation.

13) Increases the rate of cutting.

14) Increases or Decreases the critical points to stabilise the austenite.

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(D)STATE THE APPLICATION AND PROPERTIES OF GCI. 04

ANSWER:

Table: Application and Properties Of GCI

OR

(D)GIVE DESIGNATION OF STEEL (A)C15(B)T90(C)80 T 11(D)25 Cr 4 Mo 2G 04

ANSWER:

C 15 Carbon steel containing ,Avg 0.15% Carbon.

T 90 Unalloyed Tool Steel T=Tool,90=Carbon Content 0.9%

80 T 11: 80Carbon 0.8%,T =Tool Steel,11 Sulphur 0.11%

Properties Uses

Its Yield Strength is more In rail road

Its core of thermal expansion is less.

In agricultural tools.

Wear resistance In hardware of electric lines.

Absorbs Vibrations In chain links of conveyors.

It is cheap To manufacture gear case

It is tough metal In yoke of universal joints.

It can be Heat treated To improve differential housings

Its ductility is good In automobile cranck shafts.

Have good Machining Properties, Hence It can be Machined Very Easily.

To improve crankshaft sockets

To manufacture the hub of the wagon wheels.

To manufacture hinges and locks.

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25 Cr 4 Mo 2 G 04: Carbon content 0.25%,Cr 4 Chromium Content 4%,Mo 2 Molybdenum

Content 0.2%,G hardenability of this steel is guaranteed.

Q4 (A)WRITE PROPERTIES OF COPPER. 03

ANSWER:

1) It is having Shining Yellowish red colour.

2) It is anti corrosive metal.

3) Density is 8.9 gm/cm3.

4) It is Good Conductor of Heat and Electricity.

5) Melting point is 1083°C.

6) It is having FCC Crystal Structure.

7) Machinability is very good.

8) It can be easily welded.

9) It is easy to cast.

10) It can be hot and cold worked.

11) Tensile strength 180-200 N/mm2

12) Hardness is 30-40 B.H.N

13) If annealed we can get elongation up to 50-60%.

OR

(A)STATE APPLICATION OF ALLUMINIUM IN ENGINEERING STATING REASON FOR ITS SELECTION.03

ANSWER:

1) Good Corrosion Resistance: Marine application, Window corner casting, Water jug manufacturing.

2) Castablity,Chemical Resistance,Machining and Welding Properties:Air and Water Cooled Cylinder Block Manufacturing.

3) Good Mechanical Properties, Best Corrosion Resistance, Good Machinability: Aircraft casting, Marine Fittings, Mining Equipments.

4) Low Heat Expansion Rate: Internal Combustion Engine Piston Manufacturing.

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5) Good Castability

(B)WHICH REQUIREMENT OF BEARING METAL CAN MINIMIZE THE FAILURE?04

ANSWER:

1) By using the metal having good compressive strength at working temperature.

2) Can protect oil film on bearing surface.

3) Low coefficient of friction with shaft.

4) Having good thermal conductivity for the heat which is generated due to friction between bearing and shaft.

5) Corrosion resistant.

6) Having good plasticity under the action of bearing load which can distribute uniform load.

7) Anti seizure properties.

8) Vibration and Shock resistance.

9) long service life.

10) Bearing material should be soft than the shaft material so that no friction between bearing and shaft.

OR

(B)CLASSIFICATION OF INSULATING MATERIALS AND STATE THEIR PROPERTIES. 04

ANSWER:

HEAT RESISTANT: Asbestos, Glass wool,Gasket,Thermocole,Polyurethroform(PUF),Cork.

Insulating

Materials

Heat Resistant

Electrical Resistant

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ELECTRICAL RESISTANT:Glass,Mica,Ceramic,Asbestos,Resin,Rubber.

HEAT AND ELECTRICAL INSULATING PROPERTIES:

HEAT: It is capable of enduring high temperatures, Capable of preventing Heat Loss, Tensile strength is more, Resistance to acid and fumes, It is resistance to mosture,Shockresistance properties is good.

ELECTRICAL: Higher Dielectric Strength, It is not a moisture absorbing material, There is no change in the shape at higher temperatures,cheaper,Specific resistance is more, Stableagainst chemical attack, Mechanical strength is more.

Properties

Asbestos: Colour are grey, white and brown, Resistant to Acid and Base, Resistant to Heat, Sound, and Electricity, Die electric and material strength are good.

Glass wool: Material is good heat resistant, Less effect of chemical, Tensile strength is more, Can bare high temperatures.

Polyurethroform(PUF):It is used an alternative to the glass wool. It is considered as compact and high thermal insulator, Used in refrigerator wall .

Gasket: It can endure high temperature,Nioprene cement can be used up to temperatures of 200°c,Cu gasket used in automobile.

Glass: Inorganic resistant material, Main Constituent is silica, It has best insulating properties, It has good die electric strength.

Mica: It is crystalline material having HCP, It can be device in to thin layers, Good Die electric and Mechanical Strength.

Ceramic: Its dielectric constant is in the range of 4 to10,More Die electric and Mechanical Strength, It Can Endure High Temperatures, It can be Moulded in any Shape and Size.

(C) LIST THE CERAMIC MATERIALS AND STATE THE CHARACTERISTICSOF CERAMIC MATERIALS WHICH MAKE IT USEFUL AS AN ENGINEERING MATERIAL. 07

ANSWER:

The ceramic are classified according to their industrial application and structure in two groups as under

(A).Classification as per use.

1.Alumina,Silica,Carborandum.

2.Bricks,Tiles,Porcelain etc fire clay products.

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3.Pure Oxide Ceramic like Mg,Si,Al,Cr Oxides.

4.Glass Material like Coloured glass, Window Glass.

5.Rocks like granite, sand stone,magnetite,.silinite.chromite.

6.Minerals like Quartz,Selspar,Calcite.

7.Refractory materials like acidic.Basic.Neutral refractoriness.

(B).Classification as per its composition.

1.Crystalline ceramic like magnesite,Alumina.

2.Non Crystalline Ceramics like natural &Synthetic Glass,

3.Bonded Ceramic Like Fire clay.

4.Amorphous and Crystalline wood.

5.Crystalline and Non Crystalline Cements.

Characteristics Of Ceramic :

1) It is having good compressive strength so used to carry compressive load of Brick, Cement.

2) Very Good Shear Strength and fracture strength is poor hence brittle failures of ceramic occurs.

3) Tensile strength of ceramic is less, but glass fibres has 700MN/m2.

4) Bond strength is very high.

5) Ceramic like Clay & other layers deform plastically.

6) Electrical resistance of ceramic is high.

7) Spinal Structure of ceramic are magnetic material.

8) The specific heat of clay brick is 0.25 at 1000°C.

9) Its heat conductivity is poor due to its lesser density.

10) ceramics are generally opaque or non opaque.

11) It remain stable at high temperatures and retains its shape.

12) It is hard,strong,dense endure more forces.

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Q5 (A)TYPES OF CORROSION AND EXPLAIN ANY ONE CORROSION. 04

ANSWER:

Types of Corrosion

1) Uniform

2) Pitting

3) Stress Corrosion

4) Biological

5) High temperature

6) Galvenic

7) Selective Corrosion

8) Erosion Corrosion

9) Intergrated Corrosion

10) Crevice Corrosion

11) Surface Corrosion

12) Fretting Corrosion.

Uniform: This type of corrosion initially occur on some portion of the surface and then spread on the whole surface. Continuous reduction in metal volume is caused by this corrosion. As this type of corrosion occurs equally on whole surface hence it is called "Uniform Corrosion".

If the parts are not produced from the corrosion resistant material, then strength of them are reduces due to this corrosion. The ways of preventing it are change of material and coating the surface with corrosion resisting material. This type of corrosion results into grater loss hence parts are to be produced using corrosion resistant material.

(B)STATE APPLICATION AND LIMITATION OF POWDER METALLURGY 04

ANSWER:

Limitation

• Excessive pure powder of best quality is difficult to produce without which component of good physical properties cannot be produced. Again to obtain such powder are expensive.

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• The die,punch,press and sintering furnace are very costly equipments, hence powder metallurgy proves expensive for producing parts in small number.

• In absence of simple methods to produce powder of steel,brass,bronze etc is difficult.

• The parts produced by powder metallurgy cannot be used for many application due to its impact strength,ductility,and elongation are less.

• Large component in comparison to casting cannot be produced due to the requirement of large press &expensive tools.

• High attention is required while preparing powders of highly combustible materials like magnesium,thorium,zirconium,and toxic material like barium,uranium,and thorium.

• The parts pressed from the top are less dense at the bottom.

• Many metals are cold welded with die materials which increases the wear of the die. So difficult to press or compact using the die and press.

Application

• To produce refractory parts of tungsten,Tantalum,Molybdenum which are used in the electrical bulb, radio valves ray tube filaments,cathod,anode and control grids e.g. WC.

• To produce refractory carbide, which are difficult to machine e.g. WC

• Automobile applications, electrical contracts,Cranckshaft drive, camshaft sprockets, piston rings, brake lining by PM root.

• To produce self lubricating bearings and filters.

• To produce intricate gears which needs more machining if produced by conventional method.

• Components of two metals and non metals like non porous bearings, electric motor brush are produced by powder metallurgy.

• Aerospace application:rocket,missile,satellite,space vehicle parts,e.g Be,Al,Zr powders are used in Solid fuel rocket.

• Atomic Energy application are Be as fuel canning material, powder control rod,Rediation reflector,Zr and alloy as cladding material.

• Grinding Wheels containing steel & diamond powders are produced by powder metallurgy.

• Various parts of watches, type writter.calculator,Clutch&brake by P/M root.

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(C)EXPLAIN SURFACE COATING THROUGH ELECTROLYSIS SETUP. 03

ANSWER:

• For Electroplating electrolysis cell is used. The metal to be protected is made cathode. The metal to be coated is made anode.

• Salt water of anode metal is taken as electrolyte. Using rectifier the electricity supply is given Anode to Cathode.

• Decomposition of electrolyte takes place and metal gets deposited on the Cathode by this way surface protective coating is done. Slowly anode gets dissolved in electrolyte and maintain anode metal composition, by this way desired thickness of coating is done.

• The metal which can be coated are Cu,Cr,Ni,Zn,Cd,Sn,Pb,Ag,Au.Using this 1.25 micron coating is done for decorative purposes.

Fig: Electrolytic Coating Process

(D)ENLIST SIX PROPERTIES OF OIL AND EXPLAIN ANY ONE IN DETAIL. 03

ANSWER: Properties of the oil

1) Viscosity

2) Viscosity Index

3) Cloud Point and Pour Point

4) Flash Point

5) Specific Gravity

6) Carbon Residue

7) Oiliness

8) Oxidation Stability

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9) Cleanliness

10) Colour

11) Acidity & Neutralisation Number.

Cloud Point And Pour Point: When oil is cooled at some temperature it converts to Solid form this locus of temperature is called as cloud point. Cloud Point is creating resistance to flow the oil.

Pour point the locus of temperature above which the oil will not flow.The pour point of the oil is showing its ability to move at low temperature .This property is considered as it has its effect on starting engine in cold weather and circulation of oil through pipes when pressure is not applied.For to obtain maximum circulation the pour point should be low by at least 15°F in comparision to the engine operating temperatures.

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