ME 3210 Design, Materials, and Manufacture
Design, Materials, and Manufacture
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ME 3210 Design, Materials, and Manufacture
1st Examination
(Shown here as an example test. Our test will be similar in format but different in scope)
If anything is unclear, make an assumption and proceed with it. However, only
reasonable assumptions receive credits.
1. [5 pts] Epoxy has 1.25 g/cm3 density and 4 GPa elastic modulus, while Kevlar–49 fiber has 1.5
g/cm3 density and 120 GPa elastic modulus. To make a Kevlar-49-reinforced epoxy composite with
6.5 GPa elastic modulus in transverse stretching, what should be its fiber volume fraction?
2. [5 pts] At 1,320oC, 10 g of solid and 5 g of liquid coexist in a pot of Cu-Ni alloy containing 60% Cu
by weight. If the Ni in the liquid weighs 3 g, how much is the weight (in g) of Cu in the solid?
3. [6 pts] In casting what is the maximum permissible H2 partial pressure (in atm) in liquid Ni if
the final part volumetric porosity should be less than 3.1% as liquid Ni saturated with H2
solidifies? Given that the specific weight of solid Ni is 1.6 g/cm3, and at 1 atm partial pressure
the solubility of H2 in Ni is 39 cm3H2 per 100 g liquid Ni and 18 cm3H2 per 100 g solid Ni.
4. [5 points] In a built-to-order case, a manufacturer has a 98% Process Capability (Cp)
associated with a maximum acceptable product length of 252.25mm and a minimum of
251.36mm. If another order requires a maximum acceptable product length of 252.45mm and a
minimum of 251.25mm, what would be the Cp of this manufacturer if nothing else is changed?
5. [2 points] What ONE is the primary reason for hot tearing in castings? (a) Melt pouring is
too fast; (b) Upon contraction during solidification, high tensile stress is developed; (c) Of melt
flow, fluidity is too low; (d) In filling mold cavity, air entrainment is too much; (e) Of castings,
solid thermal contraction is too large; (f) On sand-mold pattern, draft angle is insufficient.
6. [2 points] Which ONE of the following regarding SPC is incorrect? (a) If the measuring
resolution is 5% of the specified part tolerance, the measurement is capable; (b) If the average
of standard deviations of manufactured parts is 18% of the specified tolerance, the process is
capable; (c) If a process has 65% process capability index Cpk, it may be accurate; (d) If a
process has a process capability index Cpk of 78% along with a process capability Cp of 80%, it
is accurate; (e) There is no way a process is in control but is not capable; (f) A process with a
process capability Cp of 120% may be inaccurate.
Woodruff School of Mechanical Engineering
Georgia Institute of Technology
ME 3210 Design, Materials, and Manufacture
Solution for 1st Examination
1. In transverse stretching f f f f f
c m f
(1 V ) V (1 V ) V1 1 V 40%
E E E 6.5 4 120
2. L O S
L S S
C CS 10 (1 3 / 5) 0.6 C 0.7
S L C C 10+5 (1 3 / 5) C
. Cu in solid=10(0.7)=7g
3. Given that the volume of 100g solid Ni = 100/1.6 = 62.5 cm3
Porosity in solid = 3.1% = x/(62.5+x), x= released H2 upon solidification = 2 cm3 in 100g
casting. In liquid, permissible solubility = 18 + 2 = 20 cm3H2 per 100g liquid
g
G 39 20k y max permissible pressure = 0.26 atm
p 1 y
4. pp p
C 252.45 251.25As C tolerance C 132%
98% 252.25 251.36
5. (b)
6. (b)
Woodruff School of Mechanical Engineering
Georgia Institute of Technology
ME 3210 Design, Materials, and Manufacture
2nd Examination
(Shown here as an example test. Our test will be similar in format but different in scope)
If anything is unclear, make an assumption and proceed with it. However, only
reasonable assumptions receive credits.
1. [5 pts] With the use of powder metallurgy to make a solid copper cubical compact of 10mm
by 20mm by 30mm, how much (in volume, x103mm3) of loose, coarse copper powder is
needed? It is known that the full density of copper is 8.82x10-3 g/mm3 and the apparent density
of coarse copper powder is 3.49x10-3 g/mm3.
2. [5 pts] A 3”-diameter steel bar (of 1.2 hp-min/in3 specific cutting energy) is turned at 1,200
rpm spindle speed and 0.005” feed on a 13.5-hp lathe. What is the maximum depth of cut (in
inch) permissible at that cutting speed without stalling the motor?
3. [5 pts] It is observed that extruding a 3” diameter round bar to result in a round bar part of
1.5” diameter or smaller could cause cracking failure. To have a 1” diameter bar from extrusion
without cracking, what is the maximum allowable workpiece diameter (in inch) to begin with?
4. [6 pts] In using electron beam to drill a 2 mm diameter hole on silicon carbide part (with
80,000 J/mm3 specific burning energy) the volume removed per pulse should not exceed 1x10-5
mm3 to prevent workpiece overheating. If the equipment has a constant pulsing rate of 0.3x105
Hz, what is the maximum electron emission power (in Watt) that can be applied?
5. [2 points] The following 1~4 steps show the sequence to weld vertical bars, threaded rods, or
various fasteners on metal plates. Which one is the common terminology for this process: (a)
flash welding, (b) stud arc welding, (c) ferrule welding, (d) orthogonal arc welding, (e) press
welding, (f) impact welding.
6. [2 points] The following parts are designed to have internal openings as shown. Which
process is the one most suitable to create these internal features, after center holes are already
pre-made? (a) turning, (b) reaming, (c) tapping, (d) broaching, (e) drilling, (f) milling.