Interview Questions Mechanical Engineering Part-2 :: Saudi Aramco Standard

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Mechanical Engineering Interview Questions Part-2

1. Car tyres are usually made of ?
Styrene-butadine rubber.

2. What is the structure of pure iron and whether it is soft or hard ?
Ferrite and it is soft.

3. Which elements increase the corrosion resistance of steel ?
Chromium and nickel.

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

5. Explain the formation of microstructures of pearlite, bainite and martensite in steel.
If austenite containing about 0.80 percent carbon is slowly cooled through the critical temperature, ferrite and cementite are rejected simultaneously, forming alternate plates or lamellae. This microstructure is called pearlite. At temperatures just belot the A1, the transformation from austenite.to pearlite may take an appreciable time to initiate and complete, but the product will be lameller pearlite. As the transformation temperature is lowered, the time to initiate transformation shortens but the product is pearlite of increasing fineness, and at temperatures approaching 550°C it cannot be resolved into its lamellar constituents. Further deerease in transformation temperature causes a lengthening of the ncubation period and a change in structure of the product to a form known as “bainite”.
If the temperature is lowered sufficiently, the diffusion controlled nucleation and growth modes of transformation are suppressed completely and the austenite transforms by a diffusionless process in which the crystal lattice effectively shears to a new crystallographic configuration known as “martensite”. This phase has a tetragonal crystal structure and contains carbon in supersaturated solid solution.

6. How with alloying of steel it is possible to a achieve properties which can not be achieved with heat treatment ?
A prerequisite to the hardening of steels is that martensite should be formed on cooling, but this can only be achieved if the rate of cooling is great enough to suppress the formation of pearlite or bainite and in plain carbon steels this can be achieved by quenching relatively small specimens

7. What are the major effects of alloying elements?

  1. To alter the transformation temperatures and times
  2. To modify the room temperature and elevated temperature strengths of given structures by (a) stiffening the crystals and (b) introducing complex precipitates which tend to harden the steel.
  3. To modify the type of oxide film formed on the surface of the steel and thereby affect its corrosion resistance.

8. What is the difference between austenite stabilisers and ferrite stabilisers ?

  • Austenite stabilisers have the effect of extending the temperature range overwhich austenite is formed. Such elements are carbon, manganese, nickel, copper and cobalt.
  • Ferrite stabilisers have the effect of extending the temperature range over which alpha and delta ferrite are formed, which consequently reduces temperature range over which austenite is formed. Such elements are silicon, chromium, molybdenum, tungsten, titanium and niobium.

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9. What are the effects of carbon on the properties of steel.
In general, an increase in carbon content produces higher ultimate strength and hardness but lowers ductility and toughness of steel alloys. Carbon also increases air-hardening tendencies and weld hardness, especially in the presence of chromium. In low-alloy steel for high-temperature applications, the carbon content is usually restricted to a maximum of about 0.15% in order to assure optimum ductility for welding, expanding, and bending operations. To minimize intergranular corrosion caused by carbide precipitation, the carbon content of austenitic (18-8 type) alloys is limited in commercial specifications to a maximum of 0.08%, or even less, i.e. 0.03% in the extremely low-carbon grades used in certain corrosion-resistant applications.
In plain carbon steels in the normalised condition, the resistance to creep at temperatures below 440°C appears to increase with carbon content up to 0.4% carbon, at higher temperatures there is
but little variation of creep properties with carbon content.
An increase in carbon content lessens the thermal and electrical conductivities of steel and increases its hardness on quenching.

10. What is the role of silicon as alloying element in steels ?
Silicon contributes greatly to the production of sound steel because of its deoxidizing and degasifying properties. When added in amounts up to 2.5%, the ultimate strength of the steel is increased without loss in ductility. Silicon in excess of 2.5% causes brittleness, and amounts higher than 5% make the steel non-malleable.
Resistance to oxidation and surface stability of steel are increased by the addition of silicon. These desirable effects partially compensate for the tendency of silicon to lower the creep properties of steel. Silicon increases the electrical resistivity of steel and decreases hysteresis losses.

11. Discuss the role of manganese in alloying steels.
Manganese is an excellent deoxidizer and sulfur neutralizer, and improves the mechanical properties of steel, notably the ratio of yield strength to tensile strength at normal temperatures. As an alloying element, manganese serves as an inexpensive means of preventing “hot shortness”. It improves rolling properties, hardenability, and resistance to wear. However manganese increases the crack sensitivity of weldments, particularly with steels of higher carbon content.

12. Define buckling factor.
It is the ratio of the equivalent length of column to the minimum radius of gyration.

13. What do you understand by catenary cable ?
A cable attached to the supports and carrying its own weight.

14. What is coaxing ?
It is the process of improving fatigue properties by first under-stressing and then increasing the stress in small increments.

15. What is difference between conjugate beam and continuous beam ?

  • A conjugate beam is an imaginary beam of same size as original beam and carrying a distributed load in accordance with the bending moment diagram.
  • A continuous beam is one which is resting on more than two supports.

16. What is isotropic material ?
It is a material having same elastic constants in all directions.

17. Explain difference between modulus of resilience and modulus of rigidity ?
Modulus of resilience is the maximum strain energy stored in a material per unit volume and modulus of rigidity is the ratio of shearing stress to the shearing strain within the elastic limit.

18. What is the difference between basic hole and basic shaft ?
A basic hole is one whose lower deviation is zero and in case of basic shaft the upper deviation is zero.

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19. What for pyranometer is used ?
It is used to measure the total hemispherical solar radiation.

20. Describe transfer machines in brief.
It is an automatic machine in which workpiece alongwith fixture is transferred from one station to other automatically and several operation on workpiece are performed at each station.

21. What is burnt-out point ?
It corresponds to maximum heat flux at which transition occurs from nucleate boiling to film boiling.

22. What do you understand by eutectic ?
It is mechanical mixture of two or more phases which solidify simultaneously from the liquid alloy.

72. Explain the difference between grey iron and white iron. What is mottled iron ?
The carbon in cast iron could exist at room temperature as either iron carbide, or as graphite which is the more stable form. Irons containing carbon as graphite are soft, easily machinable and are called “grey irons”. Irons with carbon present as iron carbide are extremely hard, difficult to machine and are called “white” irons. Irons with fairly equal proportions of graphite and iron carbide have intermediate hardness and are called “mottled” irons.

23. The graphite in grey irons exists in the form of flakes which act as stress-raisers under tensile loading and consequently grey irons have relatively low tensile strength and ductility. Still grey iron is extensively used in engineering. Why ?
Grey iron is extensively used in engineering because of following characteristics.

  1. Cheapness.
  2. Low melting point and high fluidity making it suitable for castings of intricate shape.
  3. Relatively good erosion and corrosion resistance.
  4. High damping capacity, with respect to vibration.
  5. Relatively good mechanical properties under compressive loading.

24. Under what condition a convergent divergent nozzle required ?
When pressure ratio is greater than critical pressure ratio.

75. What is endurance limit and what is its value for steel ?
Endurance limit is the maximum level of fluctuating stress which can be tolerated indefinitely. In most steels this stress is approximately 50% of the ultimate tensile strength and it is defined as the stress which can be endured for ten million reversals of stress.

26. How the net work to drive a compressor and its volumetric efficiency behave with increase in clearance volume ?
Work remains unaltered and volumetric efficiency decreases.

27. What do you understand by sulphur print ?
Sulphides, when attached with dilute acid, evolve hydrogen sulphide gas which stains bromide paper and therefore can be readily detected in ordinary steels and cast irons. While sulphur is not always as harmful as is sometimes supposed, a sulphur print is a ready guide to the distribution of segregated impurities in general.

28. What is the different between brass and bronze ?
Brass is an alloy of copper with zinc; and bronze is alloy of copper with tin.

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29. What is the effect of addition of zinc in copper? What is the use of 70/30 brass ?
By addition of zinc in copper, both tensile strength and elongation increases. The 70/30 brass has excellent deep drawing property and is used for making radiator fins.

30. What for admirality brass used ?
Admirality brass with 29% zinc and 1% tin has good corrosion resistance and is used for condenser and feed heater tubes. Aluminium is also added to brass to improve corrosion resistance.

31. What is the maximum use of magnesium ?
Magnesium is used to alloy with aluminium and as an additive for making SG (Spheroidal Graphite) iron.

32. What for zinc finds applications ?
Galvanizing consumes the largest proportion of zinc. Zinc is resistant to corrosion but is attacked by acids and alkalies. Zinc alloy.s are suited for making die casting since the melting point is reasonably low.

33. Which factors influence the type of fracture in failure of a material ?
Seven factors influencing type of failure are :

  1. Type of material (inherent structure properties),
  2. Manner of loading (Static versus dynamic),
  3. Range of imposed stress,
  4. Strain rate (static, dynamic, impact),
  5. Stress distribution (discontinuity in material/shape),
  6. temperature, and
  7. surface treatment.

34. What is the name given to ratio of actual cycle efficiency and ideal cycle efficiency.
Efficiency ratio.

35. List two effects of manganese in plain carbon steels.
Manganese increases tensile strength and hardness. It decreases weldability.

36. Name the strongest and weakest type of atomic bonds.
Metallic bond is strongest and molecular bond also known as Vander Waals bond is weakest.

37. In which process internal energy remains constant ?
Isothermal process.

38. What is temper embrittlement in alloy steels and what are its effects ?
Embrittlement attack is usually intergranular in metals, i.e. cracks progress between the grains of the polycrystalline material. It imparts a tendency to fail under a static load after a given period of time in those alloy steels which are susceptible to embrittlement.

39. What are whiskers ?
Whiskers are very small crystals which are virtually free from imperfections and dislocations.

40. What is Bauschinger effect ?
According to Bauschinger, the limit of proportionality of material does not remain constant but varies according to the direction of stress under cyclic stresses.

41. What is the difference between heat capacity and specific heat of a material ?

  • The heat capacity of a material is the amount of heat transformed to raise unit mass of a material 1 degree in temperature.
  • The specific heat of a material is the ratio of the amount of heat transferred to raise unit mass of a material 1 degree in temperature to that required to raise unit mass of water 1 degree of temperature at some specified temperature.
  • For most engineering purposes, heat capacities may be assumed numerically equal to;specific heats.

42. Explain the rule to find specific heat of aqueous solutions.
For aqueous solutions of salts, the specific heat can be estimated by assuming the specific heat of the solution equal to that of the water alone. Thus, for a 15% by weight solution of sodium chloride in water, the specific heat would be approximately 0.85.

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43. What do you understand by latent heat ? Give four examples of latent heats.
For pure substances, the heat effects accompanying changes in state at constant pressure (no temperature change being evident) are known as latent heats. Examples of latent heats are : heat of fusion, vaporisation, sublimation, and change in crystal form.

44. Define the terms free energy and free enthalpy. What is their significance and importance ?
Free energy (or Helmholtz function) is defined as/= u -Ts.
It is equal to the work during a constant-volume isothermal reversible nonflow process.
Free enthalpy (or Gibbs function) is defined as g = h – Ts
(where u = internal energy, h = enthalpy, T = temperature, s = entropy)
Gibbs function is of particular importance in processes where chemical changes occur. For reversible isothermal steady-flow processes or for reversible constant-pressure isothermal nonflow processes, change in free energy is equal to net work.

45.Which parameter remains constant in isochoric process ?
Volume.

46. What is polytropic process ? Under what conditions it approaches isobaric, isothermal, and isometric process ? In which reversible process no work is done ?
A polytropic process is one that follows the equation pun = constant (index n may have values from – oc to + oo. This process approaches isobaric when n = 0, isothermal when n = 1, and isometric when n = . No work is done in isometric process.

47. Whether superheated steam can be treated like ideal gas ?
Yes.

48. Out of constant pressure and constant volume lines on TS diagram which line has higher slope ? And whether slope is constant or variable ?
Constant volume line. Slope is variable.

49. Whether entropy is intensive property or extensive property ?
Entropy is extensive property.

50. In which process fluid expands but does no work ?
Throttling process.

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