Transcript
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Fundamentals of Metal Forming
Desember 2012
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Metal Forming
Metal forming includes a large group ofmanufacturing processes in which plasticdeformation is used to change the shape of metal
workpieces. Deformation results from the use of a tool,
usually called a die in metal forming, whichapplies stresses that exceed the yield strength of
the metal. The metal therefore deforms to take a shape
determined by the geometry of the die.
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Classification
of metal forming operations.
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Bulk Deformation Processes
Bulk deformation processes are generally
characterized by significant deformations and
massive shape changes, and the surface area-
to-volume of the work is relatively small.
The term bulk describes the work parts that
have this low area to-volume ratio.
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Basic bulk deformation processes: (a) rolling, (b) forging, (c)
extrusion, and (d) drawing. Relative motion in the operations is
indicated by v; forces are indicated by F.
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Rolling. This is a compressive deformation process in whichthe thickness of a slab or plate is reduced by two opposingcylindrical tools called rolls. The rolls rotate so as to drawthe work into the gap between them and squeeze it.
Forging. In forging, a workpiece is compressed betweentwo opposing dies, so that the die shapes are imparted to
the work. Forging is traditionally a hot working process, butmany types of forging are performed cold.
Extrusion. This is a compression process in which the workmetal is forced to flow through a die opening, thereby
taking the shape of the opening as its own cross section.
Drawing. In this forming process, the diameter of a roundwire or bar is reduced by pulling it through a die opening.
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Sheet Metalworking
Sheet metalworking processes are forming and cuttingoperations performed on metal sheets, strips, andcoils.
The surface area-to-volume ratio of the starting metal
is high; thus, this ratio is a useful means to distinguishbulk deformation from sheet metal processes. Pressworking is the term often applied to sheet metaloperations because the machines used to performthese operations are presses (presses of various types
are also used in other manufacturing processes). A partproduced in a sheet metal operation is often called astamping.
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Sheet metal
Sheet metal operations are always performed
as cold working processes and are usually
accomplished using a set of tools called a
punch and die.
The punch is the positive portion and the die
is the negative portion of the tool set. The
basic sheet metal operations are :
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Basic sheet metalworking operations: (a) bending, (b) drawing, and (c) shearing: (1) as
punch first contacts sheet, and (2) after cutting. Force and relative motion in these
operations are indicated by F and v.
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The basic sheet metal operations are defined as
follows:
Bending. Bending involves straining of a metal sheet or plate totake an angle along a (usually) straight axis.
Drawing. In sheet metalworking, drawing refers to the forming of aflat metal sheet into a hollow or concave shape, such as a cup, bystretching the metal. A blank holder is used to hold down the blank
while the punch pushes into the sheet metal, as shown in Figure(b). To distinguish this operation from bar and wire drawing, theterms cup drawing or deep drawing are often used.
Shearing. This process seems somewhat out-of-place in a list ofdeformation processes, because it involves cutting rather thanforming. A shearing operation cuts the work using a punch and die,
as in Figure (c). Although it is not a forming process, it is includedhere because it is a necessary and very common operation in sheetmetalworking.
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MATERIAL BEHAVIOR IN METAL
FORMING
The typical stressstrain curve
for most metals is divided into
an elastic region and a plastic
region.
In metal forming, the plasticregion is of primary interest
because the material is
plastically and permanently
deformed in these processes.
Stressstrain curve indicating location
of average flow stress Yf in relation to
yield strength Y and final flow stress Yf.
n
f
n
kY
k
.
.
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TEMPERATURE IN METAL FORMING
Cold Working (also known as cold forming) is metal formingperformed at room temperature or slightly above.Significant advantages of cold forming compared to hotworking are :1. greater accuracy, meaning closer tolerances can be achieved;
2. better surface finish;
3. higher strength and hardness of the part due to strainhardening;
4. grain flow during deformation provides the opportunity fordesirable directional properties to be obtained in the resulting
product; and5. no heating of the work is required, which saves on furnace
and fuel costs and permits higher production rates.
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Warm Working
The dividing line between cold working and warmworking is often expressed in terms of themelting point for the metal. The dividing line is
usually taken to be 0.3 Tm, where Tm is themelting point (absolute temperature) for theparticular metal.
the following advantages over cold working:
1. lower forces and power,2. more intricate work geometries possible, and
3. need for annealing may be reduced or eliminated.
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Hot Working
Hot working (also called hot forming) involvesdeformation at temperatures above therecrystallization temperature. The
recrystallization temperature for a given metalis about one-half of its melting point on theabsolute scale. In practice, hot working isusually carried out at temperatures somewhat
above 0.5Tm. hot working temperatures areusually maintained within the range 0.5Tm to0.75Tm.
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Hot Working
advantages relative to cold working:
1. the shape of the work part can be significantlyaltered,
2. lower forces and power are required to deformthe metal,
3. metals that usually fracture in cold working canbe hot formed,
4. strength properties are generally isotropicbecause of the absence of the oriented grainstructure typically created in cold working, and
5. no strengthening of the part occurs from workhardening.
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Disadvantages of hot working
Disadvantages of hot working include
1. lower dimensional accuracy,
2. higher total energy required (due to the thermal
energy to heat the workpiece),
3. work surface oxidation (scale),
4. poorer surface finish, and
5. shorter tool life.
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