Materials Processing and Design

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Materials Processing and Design

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Materials selection procedure identified aluminium alloys and nylon ... Nylons Tm = 550 573 K. H = 150 270 MPa. Material. Value. Constraint. Case Studies ... – PowerPoint PPT presentation

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Title: Materials Processing and Design

1
Materials Processing and Design
2
Process Attributes
3
Process Selection
4
Classes of Processes
5
Process Selection Charts

Size-Shape chart
Information Content-Size chart
Size-Melting Point chart
Hardness-Melting Point chart
Tolerance and Surface Finish
Process Cost

6
Size-Shape Chart

Volume contours V At
Aspect ratio ? t/l ? t/A1/2
There are inaccessible zones on the chart it is
not possible to create shape with smaller
surface-to-volume ratio than that of a sphere

7
Information Content-Size chart

Complexity of shape can be measured in terms of
Number of independent dimensions
Precision with which these dimensions are
specified
Symmetry, or lack of it.
The first two aspects are captured approximately
by the quantity

8
Size-Melting Point Chart

Low melting metals can be cast by any one of the
casting techniques as Tm rises, the range of
primary-shaping techniques becomes more limited
The surface-tension limit is a lower size limit
for gravity-fed castings
The addition of a pressure, e.g. in pressure die
casting or centrifugal casting, overcomes this
limit

9
Hardness-Melting Point Chart

Yield strength limits the ability to deform and
machine
Forging and rolling pressure, tool loading and
the heat generated during machining depends on
the flow strength or UTS
Real materials occupy only the region between the
two heavy lines because hardness (H) and Tm are
inter-dependent.

? Is the atomic or molecular volume
10
Tolerance and Surface Finish Chart

Tolerance is the permitted slack in the dimension
of a part, e.g. 1000.1 mm
Surface finish is measured by the RMS amplitude
of the irregularities on the surface, e.g R 10
?m.
Obviously, T 2R. Real processes gives T which
range from 10R to 1000R.
Processing cost increase almost exponentially as
the requirement for T and R.
Polymer can easily attain high surface smoothness
but T

11
Tolerance and Surface Finish Chart
12
Process Cost

Commonsense rules for minimizing cost
Keep things standard and simple
Do not specify more performance than is necessary
Breakdown of Cost
Cm material cost
Cc capital investment
CL labour cost (per unit time)
n batch size
batch rate

13
Case Studies Forming a Fan

To make a fan of radius 60 mm with 20 blades of
average thickness 3 mm
Must be cheap, quiet and efficient
Materials selection procedure identified
aluminium alloys and nylon
Form in a single operation to minimize process
costs, i.e. net-shape forming leaving the hub
to be machined

14
Case Studies Forming a Fan
15
Case Studies Forming a Fan
Surface smoothness is the discriminating
requirement
16
Case Studies Fabricating a Pressure Vessel

Tough steel was chosen as the material
Inside radius is 0.5 m and height is 2m, with
removable end-caps operating pressure is 100
MPa.
Outside radius is calculated as 0.7m, surface
area ? 15 m2 and volume ? 1.5 m3 weight ? 12
tonnes
Precision and surface roughness are both not
important

17
Case Studies Fabricating a Pressure Vessel
Size is the discriminating requirement
18
Case Studies Fabricating a Pressure Vessel

Other consideration includes
Casting is prone to including defects elaborate
ultrasonic testing needed
Welding is also defect-prone and requires
elaborate inspection
Forging or machining from a forged billet are
best because the large compressive deformation
during forging heals defects and aligns oxides
and inclusions in a less harmful way

19
Case Studies Forming a Silicon Nitride Microbeam