Materials
ferrous metallurgy
involves processes and alloys based on iron
non ferrous metallurgy
involves processes based on their materials
wrought iron
iron alloy with a very loww carbon content, in comparison to steel, and has fibrous inclusions ( slag )
Ferrous Alloys
iron is the principal constituent, include steel or cast iron
copper
latin cuprum (Cu) rank next to iron in importance and wide range of application good heat and electrical conductivity whitish with bluish cast
magnesium
lightest engineering material available combination of low density and good mechanical strength has made it one of the most specified materials in aircraft, space, portable power tools, luggage, and similar applications as conpeting with aluminum alloys
Non ferrous Metals
low permeability the pure metals are rarely used as structural materials as they lack mechanical strength they are used where their special properties such corrosion resistance, electrical conductivity and thermal conductivity are required they can be fabricated with ease, high relatively low density, and high electrical and thermal conductivities
Three classes of stainless steels
martensitic ferritic austenitic
Forging
mechanically working or deforming a single piece of a normally hot metals classified as either closed or open die
Alloys
mixture of two or more metals or non-metals together having good mechanical stregth, low temperature coefficient of resistance
carbon
most common alloying material for iron
Grey Cast Iron
named after greyfractured surface, which occurs because the graphitic flakes deflect a passing crack and initiate countless new cracks as the material breaks
White Cast Iron
named after its white surface when fractured, due to its carbide impurities which allow cracks to pass straight through
Iron
pig iron cast iron - white cast iron - grey cast iron wrought iron
Metals
polycrystalline bodies which are having number of differentially oriented fine crystals
miscellaneous
powder metallurgy welding
cold working
produced an increase in strength with the attendant decrease in ductility
casting
sand die investment lost foam continuous
Non Ferrous alloys
steel and other ferrous alloys are consumed in exceedingly large qunatities because they have such a wide range of mechanical properties may be fabricated with ease, and are economical to produce
fabrication of metals
techniques are normally preceded by refining, alloying, and often heat-treating processes that produce alloys with the desired characteristics
Non ferrous alloys distinct limitations
(1) a relatively high density (2) a comparatively low electrical conductivity (3) inherent susceptibility to corrosion in some common environments
Ferrous alloys widespread use is accounted by for three factors
(1) iron-containing compounds exist in abundant quantitis within the earth's crust (2) metallic iron and steel alloys may be produced by using relatively economical extraction, refining, alloying, and fabrication techniques (3) ferrous alloys are extremely versatile, in that they maybbe tailored to have a wide range of mechanical and physical properties
stainless steel
(inox steel) is a steel alloy with a minimum of 10.5 or 11% chromium content by mass. does not corode, rust, or stain with water as ordinary steel does Alloy: are highly resistant to corrosion (rusting) in a variety of environments, especially the ambient atmosphere predominant alloying element is chromium a concentration of atleast 11wt% Cr is required
Aluminum
Most important non ferrous metal. outstanding physical properties it is suitable for all machining, casting and forming operations low density and ability to resist corrosion; good conductivity
extrusion
a bar metal is forced through a die orifice by a compressive force that is applied to a ram
closed die
a force is brought to bear on two or more die halves having the finished shape such that the metal is deformed in the cavity between them
steel
alloy consist mostly iron and has carbon content between 0.2% and 2.1% by mass. Alloy: are iron-carbon alloys that may contain appreciable concentrations of otger alloying elements
zinc
an inexpensive material with modorate strenght chemically similar to magnesium more ductile but not as strong bluish white most commonly used to extend the life of other materials such as steel, rubber and plastic, and wood
metals
are alloyed to enchance their properties
major metals
are solid state at normal temperature
Forging operations
are those in which the shape of a metal piece is changed by plastic deformation the deformation must be induced by an external force or stress, the magnitude of which must exceed the yield strength of the materials
Medium-carbon steel
carbon concentration between about 0.25 and 0.60 wt% these alloys be heat treated by austenitizing, quenching, and then tempering to improve their mechanical properties most often utelized in the tempered condition these heat treated alloys are stronger than low carbon steel
High-Carbon steel
carbon contents of 0.60 to 1.4 wt% are the hardest, strongest, and yet least ductile of the carbon steels they are almost always used in a hardened and tempered condition and as such, are especially wear resistant and capable of holding a sharp cutting edge usually contains chronium, vanadium, tungsten, and molybdenum
high speed steel
commonly used in tool bits and cutting tools can withstand higher temperatures without losing its hardness
Copper alloys
coppers (minimum 99.3% Cu) high coppers (99.3-96% Cu) Brasses ( Cu-Zn alloys with 5-40% Zn) bronze (mainly Cu-Sn alloy)
Cast iron
derived from iron
forming operations
forging rolling extrusion drawing
metals
having high thermal and conductivity
Ferrous metals
having iron as common element strongest materials available and are used for applications where high strength is required at relativelyvlow cost and where weight is not a primary importance
ferrous materials
having very high permeability which makes these materials suitable for construction of core of electrical machines
classifications of fabrication techniques
includes various metal-forming methods casting powder metallurgy welding and machining
Metallurgy
technology of metals the way in which science is applied to the production of metals the engineering of metal components for usage in products for consumers and manufacturers a domain of material science and engineering that studies the physical and chemical behavior of metallic elements, their intermetallic compounds, and their mixture, which are called alloys
pig iron
the intermediate product of smelting iron ore with a high-carbon fuel such as coke, usually with limestone as a flux
rolling
the most widely used deformation process consists of passing a piece of metal between two rolls reduction in thickness results from compressive stresses exerted by the rolls
Drawing
the pulling of metal piece through a die having a tapered bore by means of a tensile force that is applied on the exit side
Low-Carbon steel
these generally contain less than about 0.25 wt% C and are unresponsive to heat treatments intender to form martensite; strengthening is accomplised by cold work as a consequence, these alloy are relatively soft and weak but have outstanding ductility and toughness; in addition, they are machinable, weldable, and of all steels, are the least expensive to produce
Tin
too weak to be used alone for most mechanical applications it is often alloyed with elements such as copper, antimony, lead, aluminum and zinc to improve mechanicalor physical properties commonly used as a coating
open die
two dies having simple geometric shapes are employed, normally on large work pieces
titanium
used for corrosive environment or applications of light weight, high strength and nonmagnetic properties it has good high temperature stregth as compared with other light metals
Lead
versitile material due to special properties of high atomic weight and density, softness, ductility, low stregth, low melting point, corrosion resistance and ability to lubricate. toxicity is one of the chief disadvantage
hot working
when deformation is achieved at a temperature above that at which recrystallization occurs
