Materials Science PDF

Summary

This document discusses different types of materials, their properties, and applications. It covers topics including non-metallic and ferrous materials, elasticity, yield strength, ultimate strength, plasticity, and conductivity. It also covers various types of metal alloys and their uses, such as in aircraft construction.

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Review

1. NON-METALLIC MATERIALS

Containing no metal.

2. FERROUS MATERIALS

Iron, or any alloy containing iron.

3. the force per unit of area, usually expressed in pounds per square inch, is called the
unit stress or simply the stress.,
4. If the stress is the result of forces tending to stretch or lengthen the material it is
called a tensile stress.
5. S If it compresses or shortens the material a compressive stress.
6. S if it shears the material, a shearing stress.
7. S If it twists the material, a torsion stress
8. ELASTICITY
A body is said to be perfectly elastic if, after it has been deformed by external forces,
it returns completely to its original shape when the forces are removed.

9. YIELD STRENGTH
The maximum stress that can be applied to a material without permanent
deformation of the material.

10. ULTIMATE STRENGTH
The stress at which a material in tension, compression or shear will fracture.
11. PLASTICITY
The property of a metal which allows it to be reshaped.
12. CONDUCTIVITY
The characteristic of a material which makes it possible for it to transmit heat or
electrical conduction.
13. DURABILITY
The property of metal that enables it to withstand force over a period of time.

14. The three most important lightweight metals in aircraft structure are:
15. Aluminium and Aluminium alloys (density 2,7 Kg/dm3)
16. Titanium and Titanium alloys (density 4,5 Kg/dm3)
17. Magnesium and Magnesium alloys
18. The base material iron is the chemical element Fe which, in its pure form, is a very
soft, malleable and ductile metal which is easy to form and shape.

19. The resistance of steel against corrosion can be increased by the addition of large
quantities of certain alloying elements,

20. Carbon (not considered as an alloying element)
Increases strength and hardness. Reduces toughness, formability and weldability.

21. Silicon
acts as a hardener.

22. Chromium
increases the strength, wear and corrosion resistance.

23. Selection of high-strength alloy steel is based upon high tensile-to-yield ratios
24. Toughness of a material is the ability displayed to absorb energy by deformation
25. Steels are only hardenable due to the existence of a certain carbon content.
26. The quenching is done using water, oil or a different medium.

27. Sheets made of alloys are clad with a thin layer of pure aluminium on both sides as
a means of corrosion protection.
28. Cladding means to permanently weld metal layers onto a basis material,

29. The main purpose of hardening is to increase the strength of hardenable aluminium
material, by a precisely specified heat treatment procedure.

30. STEPS OF HARDENING

1-Solution Annealing
The material is heated to a specified temperature and held there for a
specified time.

2-Natural Aging and Artificial Aging
Hardening of the material at room temperature (natural aging) or elevated
temperature in a furnace (artificial aging).
31. the quenching is carried out in a water bath at temperatures of 20_to 38_C,
32. Generally, the quenching has to be carried out within 5 to 15 seconds, depending on
the material tickness.

33. Hardness testing is a method of determining the results of heat treatment as well as
the state of a metal prior to heat treatment

34. The Brinell hardness tester uses a hardened spherical ball, which is forced into the
surface of the metal.

35. The Rockwell hardness tester measures the resistance to penetration as does the
Brinell tester

36. In civil commercial aircraft, the main reason for structure fatigue is the number of
flights, which every single aircraft is carrying out.

37. Composite materials are used mainly to reduce weight

38. Fibreglass is made from small strands of molten silica glass and than spun together
and woven into cloth

39. Core material is the central member of the assembly.

40. Adhesive is a substance used to bond two or more surfaces together.

41. Adhesive bonds distribute the stress at the bonding point, are moisture- and
corrosion-resistant and eliminate the need for rivets and bolts.

42. Phenolic resins

are used for cabin furnishing due to their fire resistance and low
toxicity. (Floor Panel, Galley etc.

43. Epoxy resins
are used for external components due to their good mechanical properties. (A320
Stabilizer, Ailerons etc.)
44. Resins and hardeners
The amount of hardener added is critical

45. Epoxies have high adhesion to metals, glass, and ceramics.

46. The appropriate investigation methods are specified in the SRM (Structure Repair
Manual), and in the NTM (Non Destructive Test Manual).

47. Damage classification

1-Allowable
2-Repairable or Non repairable

48. Scratches and Gouges affect structural strength and have to be repaired

49. Abrasion is damage to a surface caused by scuffing, rubbing or scraping of the
component

50. The effect of a lightning strike depends on the material

51. Delamination is when the separation of plies occurs in a multi-laminate material.

52. Tap-testing is widely used for the quick evaluation of any accessible aircraft
surfaces to detect presence of debonding or entrapped water.

53. Radiography is a NDT technique that uses X−rays or gamma rays

54. X-Ray
X−rays are a form of electromagnetic radiation similar to light.

55. Gamma rays are similar to X−rays in their characteristics, and are emitted from the
nuclear disintegrating of radioactive substances like radium and cobalt 60.
56. All the surface protection (including paint and primer) is to be removed using
mechanical methods only. Chemical strippers may cause deterioration of the resin.

57. The repair surface needs to be cleaned and degreased

58. Shelf Life
The shelf life is the time which the product is still good in an unopened container
and varies from product to product. If the shelf life is exceeded, the resin or catalyst
must be discarded as the cure may not achieve sufficient strength.

59. Corrosion of metals occurs due to the tendency of most metals, to return to their
natural state

60. Noble metals, such as gold and platinum, do not corrode since they are chemically
pure in their natural state

61. Pure aluminium does not have the tendency to corrosion either

62. Steel (except most stainless steels) and other metals, such as brass and bronze,
require cadmium plating, zinc plating and aluminium coating etc.

63. Aluminium alloys are usually anodized (a chemical coating)

64. Magnesium and magnesium alloys are highly susceptible to corrosion attack

65. Chemical Corrosion
Especially technical acids such as sulphuric acid, sulphurous acid and other
aggressive industrial products, which often occur in the atmosphere, are the reason
for chemical corrosion in the airframe area

66. Electrochemical corrosion occurs most common between adjacent components,
whose metals have different electrochemical potential

67. Corrosion of steel is easily recognized because the corrosion product is red rust.
 68. When iron-based alloys corrode, dark corrosion products usually form first on the
surface of the metal.

hydraulic systems are devided into high-, medium- and low pressure systems, depending
on their intended purpose.

S At pressures of over 1500 PSI (105 bar) we speak of high pressure lines, S under 1500 PSI
(105 bar) medium pressure lines

S suction and return lines we speak of low pressure lines.

Hydraulic systems work with a system pressure of 3000 PSI

CONSTRUCTION STEEL

Carbon content 0,05 up to 0,5 %.

CARBON STEEL

Carbon content 0,5 up to 0,8%

This steel can be hardened, is suitable for annealing and surface hardening.

The corrosion product of aluminium is a white-grey powdery material which can be
removed by mechanical polishing or brushing with materials softer than the metal.