58:080 final projects - university of iowauser.engineering.uiowa.edu/~expeng/laboratories... ·...
TRANSCRIPT
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58:080 Final Projects
Overview of Past Projects
University of Iowa
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Propose and Plan Final Projects• Experimental Test Plan (see textbook Chapter 1.3):
devise a plan of attack for experiments in order that the information you need is extracted.
Organized into Three Parts :
I. Parameter Design Plan: identify process parameters and identify a means for their control.
II. System and Tolerance Design Plan: select measurement technique, equipment, and procedure based on error tolerance .
III. Data Reduction Design Plan: determine a method of analyzing, presenting and using the experimental data
Experimental Design includes development of the experimental test plan.
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Proposal for Final Projects• See website link Part 5 Lab for an
overview
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Equipment• Dynamometer Kit
– Permanent magnet DC electric motor
– PM DC generator as load
Analysis of an Electric Motor Using a Dynamometer
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Equipment• Measurement
Equipment– Digital Multimeter– RPM Meter
• Motor Controls– Voltage Power Supply– 50Ω Potentiometer
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Set Up• Connected
Dynamometer and Electric Motor
• Used a series of four Digital Multi-Meters to measure voltage and current
• Power Source with variable voltage
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Motor Testing
• Motor Testing– Input Voltage vs.
RPM
Hysteresis Test
0
500
1000
1500
2000
0 5 10 15 20
Input Voltage (V DC)
RPM
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Field Data vs. Laboratory Data• Efficiency Vs Output Power
Efficiency vs. Output Power
0
5
10
15
20
25
0 1 2 3 4 5 6
Output Power (W)
Effic
ienc
y
Efficiency vs. Output Power
0
5
10
15
20
25
30
0 1 2 3 4 5
Output Power (W)
Effic
ienc
y
Constant Input Voltage
Constant Resistance Load
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Field Data vs. Laboratory Data• Input Current vs. Output Power
Input Current vs. Output Power
2
2.2
2.4
2.6
2.8
3
3.2
3.4
1.5 2 2.5 3 3.5 4 4.5 5
Output Power
Inpu
t Cur
ent
Input Current vs. Output Power
0
0.5
1
1.5
2
2.5
3
0 1 2 3 4 5 6Output Power (W)
Inpu
t Cur
rent
(A D
C)
Constant Input Voltage
Constant Resistance Load
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Output Power
• Output Power:
3.612
1.06797
0.59675
0.35035
0.273
0.2769
0.34532
0.56024
1.03894
3.7335
3.762
P = VI P = (I^2)R Difference
3.16179
1.0585125
0.591015
0.3105375
0.24255
0.2495295
0.2978296
0.5483647
1.0296125
3.08898
3.13632
0.45021
0.0094575
0.005735
0.0398125
0.03045
0.0273705
0.0474904
0.0118753
0.0093275
0.64452
0.62568
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Conclusions
• Lab was successful / Objectives met– Found all desired values– Followed same trends as field data
• Found discrepancies in quantitative values– Field data motor efficiencies from 80-90%– Acquired data motor efficiencies from 3-30%– Variations in results due to losses in system and low
voltage inputs
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Conclusions
• Future Recommendations– Use a torque meter
• Compare measured torque with values found from equations
• Find more accurate power values from measured torque
– Stabilize motor and dynamometer• Improve safety of experiment• Allow for higher voltage inputs• Reduce losses in system to noise and vibration
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Introduction
Comparison of Two Speed of Sound Measurement Methods
• Objectives– Two separate experiments to test
speed of sound– Balloon Experiment– Speaker Experiment– Compare to accepted values -
• 346.22 m/s • Taken From
http://www.measure.demon.co.uk/Acoustics_Software/speed.html
• T=23.3oC and relative humidity of 60%
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Experimental ConsiderationsSpeaker/Microphone Method
• Calibration of Speaker/Microphone System• Set Microphone a set distance away from speaker and set output to run
into nicolet• Run sinusoid wave through the speaker and through nicolet• Capture the data from the nicolet for both the original sinusoid and the
delayed output from microphone
SpeakerMicrophone
Oscilloscope
Computer
Signal Generator
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Experimental ConsiderationsBalloon Method
• Place two microphones a known distance apart.
• Setup microphones so that output is recorded into the wavebook data acquisition system
• pop a balloon, recording the resulting output from the microphones into the wavebook
Microphone 1 Microphone 2
Computer
Wavebook
Balloon
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ResultsSpeaker/Microphone Method
Dataset - #2
-3.00E+00
-2.00E+00
-1.00E+00
0.00E+00
1.00E+00
2.00E+00
3.00E+00
4.00E+00
5.00E+00
0.000 0.002 0.004 0.006 0.008 0.010
Time [s]
Volta
ge [V
]
InputOutput
Dataset - #1
-3.00000
-2.00000
-1.00000
0.00000
1.00000
2.00000
3.00000
4.00000
5.00000
0.000 0.002 0.004 0.006 0.008 0.010
Time [s]
Volta
ge [V
]
InputOutput
Zero Distance Calibration - #2
-3.00E+00
-2.00E+00
-1.00E+00
0.00E+00
1.00E+00
2.00E+00
3.00E+00
4.00E+00
5.00E+00
0.00E+00 2.00E-03 4.00E-03 6.00E-03 8.00E-03 1.00E-02
Time [s]
Volta
ge [V
]
InputOutput
Zero Distance Calibration - #1
-3.00E+00
-2.00E+00
-1.00E+00
0.00E+00
1.00E+00
2.00E+00
3.00E+00
4.00E+00
5.00E+00
0.0000 0.0020 0.0040 0.0060 0.0080 0.0100
Time [s]
Volta
ge [V
]
InputOutput
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ResultsSpeaker/Microphone Method (continued)
Trial Time Between Signals[s]
Speed of Sound[m/s]
1 0.30 x 10-3 337.332 0.23 x 10-3 440
Average 388.67 +/- 3.92
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ResultsBalloon Method
Balloon Run #1
-1.50E+00
-1.00E+00
-5.00E-01
0.00E+00
5.00E-01
1.00E+00
1.50E+00
0.61 0.611 0.612 0.613 0.614 0.615
Time [s]
Volta
ge [V
]
Channel 2
Channel 5
Balloon Run #3
-1.00E+00
-8.00E-01
-6.00E-01
-4.00E-01
-2.00E-01
0.00E+00
2.00E-01
4.00E-01
6.00E-01
0.737 0.738 0.739 0.74 0.741 0.742
Time [s]
Volta
ge [V
]
Channel 2
Channel 5
Balloon Run #4
-2.00E+00
-1.50E+00
-1.00E+00
-5.00E-01
0.00E+00
5.00E-01
1.00E+00
1.50E+00
0.216 0.217 0.218 0.219 0.22 0.221
Time [s]
Volta
ge [V
]
Channel 2
Channel 5
Balloon Run #5
-1.50E+00
-1.00E+00
-5.00E-01
0.00E+00
5.00E-01
1.00E+00
1.50E+00
0.264 0.265 0.266 0.267 0.268 0.269
Time [s]
Volta
ge [V
]Channel 2
Channel 5
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Lighting is a major cooling load component
Calculation not straight forward EstimationCalculation not straight forward Estimation
Light Fixture Heat GainLight Fixture Heat Gain
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Objective
Measure the actual heat gain of common light bulbs and compare it to theoretical design values.
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Experimental Procedure
Bulbs Measured- 60W Incandescent- 75W Incandescent- 100W Incandescent- 13W Fluorescent
Lightbulb surface ≤ 200ºC (400ºF)
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Experimental Procedure
Measurement Equipment- Omega HFS-4 Thin-Film Heat Flux Sensor
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Experimental Procedure
Measurement Equipment
- Omega T-Type Thermocouple
- Ohio Semitronics Digital Load Monitor
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Experimental Procedure
Equipment Set-Up
Watt MeterWatt MeterDAQDAQ IB
M C
ompu
ter
IBM
Com
pute
r
ThermocoupleThermocoupleHeat Flux GageHeat Flux Gage
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Results
Light Bulb Surface Temperatures
BulbAverage W Measured Tmax
60W 60W 72.47ºC (162.45º F)
75W 78W 114.84ºC (238.71º F)
100W 102W 119.02ºC (246.24º F)
13W 13W 72.47ºC (138.88º F)
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Results
Bulb Temperature vs. Time
0
10
20
30
40
50
60
70
80
90
100
0:00:00 0:02:53 0:05:46 0:08:38 0:11:31 0:14:24 0:17:17
Time (hr:min:s)
Tem
pera
ture
(C)
13 Watt
60 Watt
75 Watt
100 Watt
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Results
Heat Flux vs. Tim e
-200
-100
0
100
200
300
400
500
600
700
0 200 400 600 800 1000
Time (s)
Hea
t Flu
x (B
tu/ft
2 -Hr)
13 Watt60 Watt75 Watt100 W
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Testing of a Prototype File Drawer Interlock Component
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IntroductionObjective
To determine if a file drawer interlockcomponent will fail under a specified load
MotivationSafetyNew component design needs validation
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•ANSI/BIFMA standards• Drawers must interlock
• 50 lb drawer pull
• Increased by HON (2 x)• 100 lb drawer pull
Design Requirements
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Rocker Component
All dimensions in inches
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Experimental Considerations
Fabrication of prototype rocker and experimental apparatus
Finite Element Analysis, FEA, for strain gauge placement
Data reduction and uncertainty analysis
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Finite Element Stress Result
von Mises Stress Distribution
Strain Gauges
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File Cabinet Prototype
Rocker
Tab
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Prototype Testing
Mass
Moment arm
Prototype rocker
Pivot
Laser table
Fixed end support
Backing plate
Force
Strain gauges
Backing plate
Force
Pivot
s1
s2s3
s4
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Results and Discussion
Maximum Deflection at each strain gauge at maximum load
M a x im u m D e f le c t io n m m in .S t r a in G a u g e 1 0 .9 0 .0 3 5 4S t r a in G a u g e 2 7 .3 2 0 .2 8 8 2S t r a in G a u g e 3 5 .3 9 0 .2 1 2 2S t r a in G a u g e 4 0 .8 6 0 .0 3 3 9
Max. Rocker Deflection at Each Loading
0
0.05
0.1
0.15
0.2
0.25
0.3
0.35
1 2 3 4sensor number
defle
ctio
n (m
m)
5.6 lbf26.2 lbf51.5 lbf99.9 lbf
Def
lect
ion,
inch
es
Sensor number
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Introduction
• Shock absorber uses in vehiclesDampen Suspension inputsControl chassis roll rateControl weight transfer
• Operating Principle – Piston moving in a fluid
Low-Speed Dynamic Response of Shock Absorbers
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Types of Shocks
• Dual Tube– Tube set inside the main body of
the shock– Piston has orifices which allow
fluid to pass through as the piston moves
– Orifices at the bottom of shock which allows fluid to pass through to the outer tube
Chamber 1
Chamber 2
Chamber 3
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Types of Shocks
• Monotube w/Floating Piston– Pressurized gas below piston
becomes further compressed as the shock is compressed
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Experimental Objective
• Explore the force required to compress and extend the shock
• Calculate the damping coefficients of an adjustable shock and a non-adjustable shock at 10 mm/s and 20 mm/s
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Equipment Used
• 1790 Shock (adjustable)
• 1390 Shock (nonadjustable)
• Mechanical and Testing Simulation (MTS) machine
• MTS Load Cell• Mounting Fixtures• TestWare
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Procedure• MTS machine created a
triangle wave• The amplitude was held
at a 4mm• For high speed velocity
test, frequency was set at 1.2 Hz (20 mm/s)
• For low speed velocity test, frequency was set at 0.6 Hz (10 mm/s)
Displacement vs Time
-6
-4
-2
0
2
4
6
0.0 0.5 1.0 1.5 2.0
Time (s)
Disp
lace
men
t (m
m)
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Procedure
• No calibration performed• MTS machine was “warmed up”• Shock mounted in MTS machine• Tests performed for each shock/shock
valve setting at low and high speeds• Data reduction with Microsoft Excel
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Results and Discussion• Force spike could
reflect a pressure spike in the system– Observed when
viscous dampening is less than 120 N.
– Not likely stiction -does not occur at 10 mm/s
– Pressure response through valves
Shock 1797-7 Force/Displacement vs Time
-10
-5
0
5
10
0.0 0.5 1.0 1.5 2.0
Time (s)Di
spla
cem
ent
(mm
)
-200
-100
0
100
200
Forc
e (N
)
Displacement
Force
Shock 1792-2 Force/Displacement vs Time
-10
-5
0
5
10
0.0 0.5 1.0 1.5 2.0 2.5
Time (s)
Disp
lace
men
t (m
m)
-200
-150
-100
-50
0
50
100
150
Forc
e (N
)
Displacement
Force
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Calibration of Strain Gages with a Disc Brake Conversion Bracket
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Introduction
• Objective: Calibrate strain gages in lab using torque sensor to measure applied loads
• Reduce data for 4 different loads and compare to ANSYS data at same 4 loads
• Determine uncertainty for strain gages • Use uncertainty for assurance of accurate
data with on-car testing
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Experimental Considerations –The Bracket
• Prototype constructed of 1/4” 1018 plate steel– Soft steel, easily
deflected• Could not simulate
on-car type load• Changed method of
applying load
Tab
A
T
Strain Gage
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Calibration Procedure
• Bolted the bracket to the spindle– ensures no movement in the lateral direction
• Mounted the spindle in a vice• Applied a torque using a breaker bar
– Amount of torque applied is limited to durability of the threads in hole
• Recorded data using DASYLab software
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Bracket and Spindle
• Points A and B connect to the spindle
• Point C was location of applied torque
A
B
TC
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Instruments Used
• Omega Torque Indicator– Sensitivity:
• 0.002141 mV / V / in-lb
• Craftsman Breaker Bar
• Omega Pre-wired Strain Gages
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Results and Discussion
Calibration Raw Data
0
0.002
0.004
0.006
0.008
0.01
0.012
0.014
0 2 4 6 8 10
Time (s)
DA
Q (V
)
Torque SensorStrain Gage
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Reduced Data
Strain and Torque vs Time
-0.00012
-0.0001
-0.00008
-0.00006
-0.00004
-0.00002
0
0.00002
0.00004
0 1 2 3 4 5 6 7 8
Time (s)
Stra
in
0
5
10
15
20
25
30
35
40
45
50
Torq
ue (f
t-lbs
)
StrainTorque
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Calibration CurveStrain vs. Torque
ε = - 3*10-6 T + 0.0001 +/- 7.3504*10-6
R2 = 0.9915
-0.00002
0
0.00002
0.00004
0.00006
0.00008
0.0001
0.00012
0.00014
0 10 20 30 40 50
Torque (ft-lb)
Stra
in
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Neptune Washer Dynamics
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Objectives
• Analyze the displacement characteristics of the Neptune Washer– Top Speed Performance– Transition Performance (Ramp Test)
• Compare Data with data generated from numerical analysis (DADS)
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Physical vs. Dynamic
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ProcedureCalibrate Transducers
Four Transducers0 – 15 mm with 5 mm incrementsSix runs
Locate Dampers on the TubLocation determined using previous analysis
Data CollectionTop Speed and Ramp TestNo Unbalance and 1.5 lb unbalanceDetermine Maximum Deflection Amplitudes
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Data Collection
• Collected Data for 4 tub locations
• Top Speed and Ramp Tests
• No Unbalance and 1.5 lb Unbalance
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Ramp Test (0 lbs)Front Vertical (Transducer #5)
Ram p Tes t 0 lb Unbalance
-0.3
-0.2
-0.1
0
0.1
0.2
0.3
1 501 1001 1501 2001 2501 3001
Dis
plac
emen
t (in
)
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Introduction• Objective
– The objective of this experiment was to determine the accuracy of the specified R-value for various types of insulation.
• Motivation– Energy Crisis– Cost of Heating and Cooling Homes
Comparison of Insulation R-Values
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Experimental Considerations
• Schematic
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Experimental Considerations
• Insulation Types Tested– John’s Manville Comfort-Therm Fiberglass
• R11• R11 w/ Vapor Retarder• R19 w/ Vapor Retarder
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Experimental Considerations
• Calibrate T-type Thermocouples• Calibrate Heat Flux Sensor?
Example Thermocouple Calibration Curve
y = 0.9926x + 0.17830
20
40
60
80
100
0 10 20 30 40 50 60 70 80 90 100
Thermistor Temp (deg C)
Ther
moc
oupl
e Te
mp
(deg
C)
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Results and Discussion
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Results and Discussion
• Data Reduction– R-Values
RTq ∆
=
007.0V
TRfluxheat−
∆=
007.0Vq fluxheat−=
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Results and Discussion
R-Values Using Outside Heat Flux Sensor and Thermocouples At Ambient Position
0
2
4
6
8
10
12
14
Top Medium Bottom
Position
R-V
alue
Manufacturer's ClaimR11
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Cooling Tower Experiment
Experimental Setup
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ProcedureExperiment• Heater Set at 0.5 kW• Reach Steady State• Record
– Flow Rates: Water and Air– Temperatures: T1 to T6– Input Power
• Cases– 1: Press Board Packing– 2: Corrugated Packing– 3: Increased Air
Temperature
Setup• Clean Cooling Tower
Pumping System and Filter
• Install Packing Material
• Soak Wet Bulb Thermocouple Wicks
• Flow Rate > 40 gps• Differential Air
Pressure Set at 16 mmH2O
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“Pool Boiling”
John McLaughlin Brian Elliott Aric Arneson Kim Woehrle
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Scope of Project• Conduct an experiment
using equipment and data analysis learned from the course
• Perform data reduction analysis
• Present and Report findings
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Objective
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Film boiling 1 Transition boiling 2
Nucleate boiling 3 Equilibrium 4
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Setup
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Strain in the Shaft of a Golf Club
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Introduction
• Motivation– Follow up to Mechanical Systems Design
experiment– To investigate the effects of acceleration and
club head speed on shaft strain– To have fun with the experiment
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Theory• Cantilevered beam
– Stress/strain in beam
– Strain, from strain gauge voltage
PLM )d-(D64
I Ic M 44 ====
πσεσE
2.09GF 4k 4
GFk Ei
Eo===
ε
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Theory
• Accelerometer selection– α = ∂ω/∂t– α = (∂ω/∂s)*(∂s/∂t)– α = ω (∂ω/δs)– α δs = ω ∂ω– α δs = ∂ω– α(se-si) = (1/2)(ωe
2-ωi2)
– With si and ωi = 0, the angular acceleration is α = 325 rad/s2
– amax = 1654 ft/s2 = 52g– amax = 276 ft/s2 = 8.6g
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Installation and Calibration• Strain gauge
– Bending gauges in a full bridge configuration
– Mounted at 33 cm. from hozzle
– Some difficulty soldering gauge leads to strain relief and preventing leads from grounding on shaft
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Installation and Calibration• Strain gauge calibration
– Used 0 - 500g mass in 100g increments to deflect shaft
– Performed 3 up/down scale tests to check for hysteresis
– Output voltage -> Calibration curve -> mass -> Force -> deflection -> Strain
• F = m a
I 3EL F-
3
=δ
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Installation and Calibration• Photo-gate
– Used 1 set of Siemens Opto-Bero photo-gates• Transmitter and Receiver
– No calibration was performed on photo-gate• Used in an On/Off manner
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Experimental Procedure
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ResultsClub Head Acceleration for Matt vs. Time
-40
-20
0
20
40
60
80
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000
Time (s x103)
Acc
eler
atio
n (m
/s2 )
Club Head Acceleration for Ryan vs. Time
-60
-40
-20
0
20
40
60
80
0 500 1000 1500 2000 2500 3000
Time (s*103)
Acc
eler
atio
n (m
/s2 )
Club Head Acceleration for Dan vs. Time
-60-40-20
020406080
100
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000
Time (s x 103)
Acc
eler
atio
n (m
/s2 )
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Calculated Strain vs. Accelerationy = 1E-07x + 1E-06
R2 = 1
-0.00002
-0.000015
-0.00001
-0.000005
0
0.000005
0.00001
0.000015
-200 -150 -100 -50 0 50 100 150
Acceleration (m/s2)
Stra
in (m
m/m
m)
Strain Vs. Acceleration
Strain Vs. Acceleration y = 2E-07x - 5E-06R2 = 0.4521
-0.00002
-0.000015
-0.00001
-0.000005
0
0.000005
0.00001
0.000015
-60 -40 -20 0 20 40 60 80
Acceleration (m/s2)
Stra
in (m
m/m
m)
Strain Linear (Strain)
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• Currently, a combination of Limestone and polystyrene insulation is used– Must meet building code for insulation
req’ments– Polystyrene attracts termites– Limestone repels termites
• Could the polystyrene be replaced by additional limestone?– Yes, but…
Thermal Resistance of a Limestone Bed
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Background & Motivation
• Thermal Conductivity of Limestone must be determined– This will allow building designers to meet
codes concerning insulation values around the buildings foundation
• How to determine Thermal Conductivity of Limestone?
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Experimental Set-up
• Fourier’s Law
.k is what we want…can we get everything else?
LTkQ ∆
=′′
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Experimental Set-up
• Yes!– Thermocouples measure temperature.
• Leads to
– Ruler can measure L
– Heat flux sensors available
T∆
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Experimental Set-up
• Insulated box was built by FSG
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Experimental Set-up
• Built Cold/Hot plates to create a flow of heat, or heat flux across the material
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Experimental Set-up
• Assembled
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Experimental Set-up
• Assembled
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Experimental Set-up
• Assembled
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Introduction Introduction • Objectives
– Study the deflection and strain of a pipe with specified torques.
• Motivation– Tools for running the experiment were
readily available.– The fabrication of the pipe was
something the team could accomplish.– All team members were interested in
this idea.
CALIBRATION OF TORQUE WRENCH & DEFLECTION OF PIPE
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Experimental ConsiderationsExperimental Considerations
• Design– Selected two foot long, 1020 steel pipe.– Welded 2” x 2” x 1” block to end of pipe.– Welded 1-5/8” nut to opposite end.– Attached pipe clamp near nut end of pipe.
Properties Value
Inside Diameter (inches) 0.5Outside Diameter (inches) 0.75
Length: Wrench to Vice (inches) 28.25Length: Displacement to Vice (inches) 22.625
Modulus of Rigidity, G (lb/in 2) 11600000
Table 1: Properties
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Experimental ConsiderationsExperimental Considerations
• Calibration
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Experimental ConsiderationsExperimental Considerations
• Experiment
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Experimental ConsiderationsExperimental Considerations
• Experiment
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Results and DiscussionResults and Discussion
• Uncertainty of Linear Fity = 0.2559x – 0.04396 +/- 0.3485
• HysteresisNot prevalent
Output Voltage vs. Torque Setting
y = 0.2559x - 0.04396 +/- 0.3485
5
10
15
20
25
30
35
20 40 60 80 100 120 140
Torque Wrench Setting (ft lbs)
Out
put V
olta
ge (m
VDC
)
Torque Wrench Setting, xi (ft lbs)
Average Voltage Out, yi (mVDC)
Trend Voltage Out, yci (mVDC)
40 9.81 10.19 Sum xi 40060 15.42 15.31 Sum xiyi 9197.4880 20.42 20.43 Sum xi 2 36000
100 25.49 25.55 Sum yi 101.95120 30.82 30.67 (Sum xi) 2 160000
Calculation Variables
Table 2: Uncertainty of Linear Fit
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• Furnace Exit Gas Temperature (FEGT)– Heat Loss ($$)– Muscatine Power and Water Unit 7
Determining Furnace Exit Gas Temperature
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Objective
• Determine the mean temperature and its 95% confidence interval.
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Experiment Objective
• Final Assembly– Sample Probes
• Determine the mean temperature and its 95% confidence interval.
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Experiment
• Final Assembly
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Experiment
• Final Assembly
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Questions and Discussion?
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Constant Stress In a Cantilever Beam
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Introduction Continued...
ZPX
btPX
IcXMX ==×
= 2
6)()(σ
[ ]2)()(6
)( XtXbX
XZX
= =constant
22
22
66)(tKP
XtKPXX ==σ =constant
Keep thickness constant
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Experimental Considerations
• Beam Designed so that Stress in Section A is twice in Section B
• Gage Factor (GF) is 2.085
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Flexor Beam Setup
Measurement of Poisson’s Ratio in an Aluminum Beam
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Objective
• To measure the Poisson’s Ratio of an Aluminum beam by loading the beam in cantilever bending and measuring the ratio of the transverse strain to the axial strain
• Two different beam setups were used to accomplish this, one that was pre-gauged and one in which the strain gauges were applied
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Wheatstone Bridge Setup
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Strain Gauge Application• Strain gauges were selected• Application area sanded• M-prep Conditioner applied• M-prep Neutralizer applied• Epoxy applied to strain gauge and surface• Scotch tape used to apply strain gauge to
surface and let to dry for 15 minutes• Tape removed• Connecting wires soldered to gauge terminals
with tin/lead rosin core solder
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Objective of Experiment
• To demonstrate the stress and strain concentration near a hole in a cantilevered beam
Stress and Strain in a Cantilevered Beam with a Hole
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Background
• Maximum stress occurs at edge of hole and decreases to nominal stress
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Design Procedures
• Placed four strain gages on a cantilevered beam with a hole– Prepared aluminum beam for strain gauge
application– Placed tape on the pre-wired strain gages to
enable correct placement– Applied adhesive and catalyst to bottom side
of strain gage
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Design Procedures
Quarter Bridge Circuit
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Design Procedures– Mounted beam to flexor and Connected
one strain gage at a time to flexor connection terminals
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Design Procedures
• Stress/Strain Distribution and Setup
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Introduction
• Objective:– Build a DC generator dynamometer to replace the existing Prony
brake dynamometer
• Background:– Measurement of shaft power is useful in understanding the
performance of turbines
• Motivation:– Existing Prony brake is difficult to use– It may be possible to reduce measurement uncertainty
DC Generator Dynamometer for a Reaction Turbine
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Experimental Considerations
• Prony Brake Setup
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Experimental Considerations
• Proposed Setup
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Experimental Considerations
• Data acquisition:– Record voltage and current output from DC motor
at three turbine pressures (40, 60, 80 kPa).– RPM range: 0-20,000 RPM
• Method 1:– Belt tension varied to obtain measurements across turbine
RPM range.
• Method 2:– Resistive load was varied to obtain measurements across the
RPM range of the turbine.
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Objectives• To determine if accurate values of Young’s Modulus could
be obtained for various materials
• To compare strain values obtained from the experiment to
theoretical strain values
• Analyze effect of defects on strain
Strain, Young’s Modulus and Viscoelasticity
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Experiment Setup
• Four Materials- Polyethylene (PE)
- Polyvinyl Chloride (PVC)
- Acrylic
- 2024-T4 Aluminum
• Six Weights (50g, 100g, 200g, 500g, 1kg, and 2kg)
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Experiment Setup
• Materials- Polyethylene (PE) :
Thermoplastic Polymer- Polyvinyl Chloride (PVC) :
Thermoplastic Polymer- Acrylic: Polymethyl Methacrylate (PMMA),
Plexiglas- 2024-T4 Aluminum
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Experiment Setup
a) Quarter Wheatstone Bridge b) Four Materials
(From left to right PVC, Acrylic, PE, Aluminum)
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Experiment Setup
c) Beam Setup
Strain gage
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Calculations
• Theoretical Calculations
Eσε =
ICFL=σ3
121 bhI =
I: Moment of Inertiab: Baseh: Height
ε: Strainσ: StressE: Modulus of Elasticity
σ: StressF: ForceL: DistanceC: the neutral axis to the
outer edge of the beam
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Calculations
• Actual Calculations
)(4GFVV
i
o=εεσ
=E
Gage Factor (GF) : 2.11
Vo: Output Voltage
Vi : Input Voltage
E: Modulus of Elasticity
σ: Stress
ε: Strain
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Results
Stress-Strain relationship of 2024-T4 Aluminum
2024-T4 Aluminium
y = 71700x + 3E-15
y = 79447x - 0.0374
0
5
10
15
20
25
30
0 0.0001 0.0002 0.0003 0.0004
ActualTheoreticalLinear (Theoretical)Linear (Actual)
Stress (Mpa)
Strain
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Results
Stress-Strain relationship of PE
Polyethylene (PE)
y = 700x + 7E-16
y = 834.6x + 0.0559
0
1
2
3
4
5
6
7
0 0.002 0.004 0.006 0.008 0.01
ActualTheoreticalLinear (Theoretical)Linear (Actual)
Stress (Mpa)
Strain
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Results
Stress-Strain relationship of PVC
Polyvinyl Chloride
y = 3400x + 2E-15
y = 3817.7x - 0.0192
0
2
4
6
8
10
12
14
0 0.001 0.002 0.003 0.004 0.005
Strain
Stre
ss (M
Pa) Actual
TheoreticalLinear (Theoretical)Linear (Actual)
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Results
Stress-Strain relationship of Acrylic
Acrylic
y = 2544.9x + 0.0249
y = 2900x
0
2
4
6
8
10
12
14
0 0.001 0.002 0.003 0.004 0.005 0.006
ActualTheoreticalLinear (Actual)Linear (Theoretical)
Strain
Stress (Mpa)
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Results
• 2024-T4 Aluminum :
- Measured E = 77.1 GPa (7.5% greater than empirical)- Actual strain was 8% smaller than theoretical.
• Polyvinyl Chloride (PVC) :- Measured E = 3.74 GPa (10% greater than empirical)- Actual Strain was 7% smaller than theoretical.
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Results
• Acrylic (PMMA):
- Measured E = 2.58 GPa (11% lower than empirical)- Actual strain was 10% larger than theoretical.
• Polyethylene (PE):- Measured E = 0.93 GPa (30% greater than empirical)- Actual Strain was 25% smaller than theoretical.
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Things to Notice
• Accuracy decreased with a decrease in Young’s modulus.
• Thermoplastics: Two of them never reached theoretical strain.
• WHY???
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Viscoelasticity
• Thermoplastic beams did not reach equilibrium immediately.
• Nor did the beams go back to zero strain position immediately
• Viscoelasticity : Time dependent elastic deformation
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Purely Elastic Material vs Viscoelastic Material
a) Purely Elastic Material b) Viscoelastic Material
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Voigt Model
εσ Esp =•
= εησ 3d
dsp σσσ +=
σ
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Viscoelasticity
Applied stress (a) and induced strain (b) as functions of time for a viscoelastic material
εσ Esp =
•
= εησ 3d
Spring Stress:
Dashpot Stress:
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Defect
• Four defects were applied to the PVC beam
Defect Positions on PVC Beam
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Defect Effect
• Defect 1, 2, 3 : ~1% increase in strain each
• Defect 4 (next to the strain gage):~13% increase in strain
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Accuracy
• 2024-T4 Aluminum: ~87%
• Acrylic (PMMA): ~83%
• Polyethylene (PE): ~68%
• Polyvinyl Chloride (PVC): ~85%
• PVC with defects: ~78%
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Conclusions
• Measured values were good approximations of theoretical values.
• Harder to get accurate results for viscoelasticmaterials
• Further experimentation would consider viscoelastic effects
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Introduction: Objectives• Compare the thermal conductivity coefficient (k-value) of
various hand gloves assuming steady state• Determine which glove is best suited for use during a
cold Iowa winter
Independent Lab: The Thermal Conductance of Various Hand Gloves
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Introduction: Background
• Effective thermal conductivity– Material transport property that depends on
the physical structure of the material – Indicates the rate at which heat is transferred
through the material by the diffusion process (Incropera, 2002).
(Incropera, 2002)
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Experimental Methods: Sensors/Instruments
• Brinkmann Cooling System• Heat Flux Sensor• 2 T-Type Thermocouples• 5 Different Gloves• DasyLab• Heater• Micrometer
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Experimental Methods: Experimental Design
• Measured thickness of each glove
• Calibrated two thermocouples• Attached sensors and heater to
glove• Placed glove inside insulated
box • Started data collection
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Experimental Methods:Data Reduction
• Data Analyses Equations
2//22.2 mWVHeatFluxq µ÷=
)(*
ei TTLqk
−=
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Results and Discussion:Essential Facts
Temperature Difference
05
101520253035
0 50 100 150 200 250 300 350
Time (s)
Tem
pera
ture
in G
love
m
inus
Tem
pera
ture
O
utsi
de o
f Glo
ve PolyesterCamoBrown 100gBlack
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Results and Discussion:Essential Facts
Heat Flux
200250300350400450500550600650700
0 50 100 150 200 250
Time (s)
Q (W
/m^2
) Polyester MittenCamoBrown Leather100g ThinsulateBlack Leather
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Results and Discussion:Data Analysis
k-Value vs. Time
0.00
0.20
0.40
0.60
0.80
1.00
0 100 200 300 400
Time (s)
k (W
/mK
) PolyesterCamoBrown Leather100 g thinsulateBlack Leather
Type of Glove Average k Theoretical k
Polyester Mitten 0.03317241
0.06138828
0.37995254
0.16218626
0.09182762
Camouflage (40 gram Thinsulate)
0.08
0.028
0.014
0.035
Brown Leather
100 gram Thinsulate
Black Leather - lined n/a
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Uncertainty Analysis:Bias and Precision Error
resolution21B tmeasuremen =
NS
SP xx== 2/12
95,2 ))()(( PtBu vtmeasuremenx +±=
Equations for Error Analysis for Glove MeasurementsEquations for Error Analysis for Glove Measurements
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Uncertainty Analysis:Bias and Precision Error
Lightly TouchingCamo gloves (40 gram Thinsulate)
(mm)Lined Leather gloves (mm)
Leather (100 gram
Thinsulate) (mm)
Polester Mitten (mm) Leather (mm)
Average 2.167 2.282 3.489 2.371 1.523
Standard Deviation 0.0246 0.0069 0.0485 0.0887 0.0797
Student T 2.262 2.262 2.262 2.262 2.262
Bias Error 0.0005 0.0005 0.0005 0.0005 0.0005
Precision Error 0.0556 0.0156 0.1098 0.2007 0.1804
Total Error 0.0556 0.0156 0.1098 0.2007 0.1804
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Uncertainty Analysis:Bias and Precision Error
Equations for Error Analysis of Thermocouples
1
)(1,
2
−
−=∑=
N
xxS
N
jiji
pooled N
SP pooled=
∑=
−=N
jijimean xx
NB
1,
)(1 2/1295,
2 ))()(( PtBu vmeanx +±=
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Uncertainty Analysis:Bias and Precision Error
T-Type Thermocouples (All measurements are in degrees C)Calibrator -Standard TC1 (x-xi) (x-xi)² TC2 (x-xi) (x-xi)²
49.22 47.43 1.79 3.20 48.60 0.62 0.3859.04 57.94 1.10 1.21 58.37 0.67 0.4568.76 68.46 0.30 0.09 68.14 0.62 0.3878.70 77.34 1.36 1.85 78.20 0.50 0.2588.24 86.84 1.40 1.96 87.96 0.28 0.0896.67 96.43 0.24 0.06 97.68 -1.01 1.02106.82 105.89 0.93 0.86 107.29 -0.47 0.22115.94 115.52 0.42 0.18 116.98 -1.04 1.08124.58 124.87 -0.29 0.08 126.62 -2.04 4.16
Σ(x-xi)² 9.50 Σ(x-xi)² 8.03Spooled 0.51 Spooled 0.47εprecision 0.16 εprecision 0.14εbias_mean 0.81 εbias_mean -0.21εtotal_error 0.82 εtotal_error 0.25
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Uncertainty Analysis:Propagation Error
qei TT
Lqk θ=
−=
∂∂
)( Lei TT
qLk θ=
−=
∂∂
)(
iTeii TTLq
Tk θ=
−−
=∂∂
2)(*
Teeie TT
LqTk θ=
−=
∂∂
2)(*
2/12222 ])*()*()*()*[(eeii TTTTLLqqk PPPPP θθθθ +++=
Error Propagation of Thermal ConductanceError Propagation of Thermal Conductance
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Uncertainty Analysis:Propagation Error
Polyester CamoBrownLeather
100 g thinsulate Black Leather
θq 8.55236E-05 0.000102346 0.000592108 0.000270465 0.036204808
θL 13.90360241 28.25803114 232.9343371 46.28563849 40.0034944
θTh -0.001189086 -0.036442595 -0.137922335 -0.012694112 -0.091287974
θTc 0.001189086 0.036442595 0.137922335 0.012694112 0.091287974
Precision Error (L) 0.00005560 0.00001556 0.00010979 0.00020066 0.00018035
Precision Error (Th) 0.16 0.16 0.16 0.16 0.16
Precision Error (Tc) 0.14 0.14 0.14 0.14 0.14
PropagationError (W/mK) 0.000794803 0.005675873 0.03335711 0.009494389 0.01590563
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Conclusion• Polyester fleece glove had the lowest thermal
conductivity (0.03317 W/mK) – Best glove for cold Iowa winter
• Brown leather had the highest thermal conductivity (0.3799 W/mK) – Frostbite anyone?
• Thermal conductivity is the lowest for the polyester fleece glove because it traps the most air
• Obtain more accurate thermal conductivity by increasing the temperature difference