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Critical Speed YawAnalysis and Testing
Presented by:John Daily
Jackson Hole Scientific Investigations, Inc.Box 2206
Jackson, WY 83001
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Critical Speed Yaw
• What is a “yaw”?• What does the word “Critical” mean?• How do we get “Speed” out of this?
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Definitions
• Yaw refers to the orientation of the vehicle.• Specifically, the heading of the vehicle is
not co-linear with the velocity vector of the vehicle.
• The evidence showing this are the tire scuffs on the road.
• The rear tires track outside the corresponding front tires.
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Definitions, cont’d.• “Critical” refers to the idea that we may identify
the lateral acceleration as the maximum dynamic friction on the road.
• We obtain this friction information with a test skid.
• We may have to correct our test skid information for grade or superelevation.
• The ONLY way a vehicle gets onto a critical speed yaw is through the application of an inappropriate steering input (over correction)!
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Speed Calculation• To determine a speed
from a critical speed yaw situation, we need the radius of the curved path of the vehicle center of mass and the lateral acceleration of the vehicle.
• Lateral acceleration comes from skid testing.
rfS 86.3=
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Radius Determination• In order to obtain a path
radius, we first measure a chord of the arc left by the outside front tire.
• A chord is any line that cuts the arc at two points.
• The chord beginning is right after the rear tire mark crosses over the front tire mark.
• Chord lengths should be between 30 and 50 feet.
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Radius Determination, cont’d.• After we have laid down
the chord measurement, we have to determine a middle ordinate.
• The middle ordinate divides the chord in half and extends out to far the edge of the tire mark.
• For a 30 foot chord, measure the middle ordinate to the nearest 1/8 inch.
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Radius Determination, cont’d.• Once we have chord and
middle ordinate measurements, we may calculate the radius of the outside front tire mark with the following equation:
• To get the CM radius, subtract ½ of the track width from this calculation.
28
2 mmcR +=
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Skid Testing
• In order to get the proper drag factor for a critical speed calculation, we must do test skids.
• Results between tests must be consistent.• The following tests were conducted at the
Wisconsin State Patrol Academy in August 2002.
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Vehicle Skid Tests• Two vehicles were used to develop drag factor data• A 2002 Pontiac Grand Prix was used to gather ABS
braking data• A 1997 Ford Crown Vic was used for both ABS and non-
ABS testing• A VC-2000 accelerometer was used to gather the drag
factor data• The accelerometer data was graphed with data points
every 0.10 seconds• The accelerometer was in the AutoStart mode, with a
default acceleration setting of -0.20g
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Vehicle Test Skids, cont’d• Investigators identified and measured the skid marks
from the test vehicles• The whole length of the skid marks were difficult to pick
up visually• An LTI Laser with a polarizer was used to assist in
determining visual skid length• These enhanced data correlated better with the skid
length as reported by the VC-2000• The rear brakes of the Ford did not lock up when the
ABS was disabled• Hence, we were not able to get a true sliding drag factor
for this surface• The drag factor was for the Ford only
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Close-up of Sliding Contact Patch
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Spackling indicates the tire is braking at or near maximum.
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Skid Test Data
with Polarizer
n/a79.41088495.980n/aenhanced
178n/a907888.472n/ameasured
22297103849180n/adistance (VC)
4.342.943.012.522.622.442.43Max Time (VC)
0.7740.7460.7430.8310.8640.8670.858average G (VC)
1.0280.9580.9720.931.0171.081.03peak G (VC)
73.74849.14649.746.547.5Speed (VC)
724750464946n/aRadar
7654321Test Number
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Deceleration Factor Testsfor 1997 Ford Crown Victoria with ABS Disabled
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
0 0.5 1 1.5 2 2.5 3 3.5
Time (sec)
G o
r f w /o ABS(1)
w /o ABS(2)
1997 Crown Vic Tests
Rear Brakes did not lock up
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Deceleration Factor Testsfrom VC2000 Accelerometer for 2002 Pontiac Grand Prix
0
0.2
0.4
0.6
0.8
1
1.2
0 0.5 1 1.5 2 2.5 3
Time (sec)
G o
r f
Trial 1Trial 2Trial 3
All Pontiac ABS Tests
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Deceleration Factor Test1997 Ford Crown Victoria with ABS Disabled
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5Time (sec)
G's
Drag Factor
Average
Test skid from 73 mph
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Acceleration Factor Testsfrom VC2000 Accelerometer
0
0.2
0.4
0.6
0.8
1
1.2
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5
Time (sec)
G o
r f
Trial 1
Trial 2
Trial 3
w / ABS
w /o ABS(1)
w /o ABS(2)
hi speed
All Test Skids
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Road Evidence
In order to properly analyze a critical speed yaw situation, we must recognize the tire mark evidence left behind.
Note the diagonal striations and uneven edge of the tire marks left in the following photos.
The rear tires begin tracking outside the front tires.
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Measuring Grade
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Measuring Super-elevation
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Yaw Marks (Scuffs)• Tire is sliding and rotating• A yaw results when the velocity
vector and heading of the vehicle are not co-linear.
• If the yaw is the result of inappropriate steering input, then the yaw may be a “Critical Speed Yaw”, and may be used for speed analysis in a simple, straightforward manner.
• This photo illustrates a critical speed yaw. Notice the rear tires track outside the corresponding front tires.
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Yaw Marks, Cont’d.• This crash began with
critical speed yaw marks on the shoulder
• We can use shoulder drag to get a conservative speed estimate.
• We may average shoulder and road drag to get an upper limit speed.
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Yaw Marks, Cont’d.
• The Yaw begins to transition to a side skid. We may no longer treat it as a critical speed yaw.
• We will see later in the presentation how to deal with a spin-out.
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Yaw Marks, Cont’d.
• Another example of transitioning yaw marks-
• If these marks were analyzed as critical speed yaws, the speeds would be way off – probably on the high side…
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Yaw Marks, Cont’d.• This is a curving tire
mark, but does not indicate a yaw.
• This is a curving acceleration scuff.
• Other curving marks may also look like critical speed yaws, but are not.
• Is there a way to examine this question?
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Critical Speed Yaw?• We need a tool we can use to determine if the vehicle is
actually in a critical speed yaw.• If we look at the dynamics of a vehicle in this maximum
steering situation, we would expect the vehicle to decelerate longitudinally as it progresses through the yaw.
• If we can quantify this deceleration at a nominal value, then we may look at any particular case and determine if its deceleration fits into the model.
• Much testing over the years suggest a nominal value for yaw deceleration on a dry, hard-surfaced road, is about 0.20g.
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Critical Speed Yaw? cont’d.
• If we measure two chords and two middle ordinates, we may calculate two radii.
• If the second chord is measured from the end of the first chord, we may calculate the difference in radius between the first chord and the second chord.
• The second radius calculated should be smaller than the first if the vehicle is slowing.
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Critical Speed Yaw? cont’d.• Calculate a speed for
each radius.• Use the following
equation to determine the deceleration in the yaw:
• The distance d in the equation is from one middle ordinate to the other.
dSS
f fo
30
22 −=
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Critical Speed Yaw Test –Wisconsin Results
• The Ford was put into a critical speed yaw at 33 mph as measured by Radar
• The VC-2000 was set in continuous mode to measure the longitudinal deceleration factor
• The longitudinal deceleration was 0.18g to 0.23g• A chord and middle ordinate was measured
when the rear tire began tracking outside the corresponding front tire
• A second chord and middle ordinate was measured from the end of the first chord
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Critical Speed Yaw Test, cont’d• A radius was calculated for each chord• If the vehicle is in a true critical speed yaw, there should
be a reduction in speed from the first radius to the second radius
• We will calculate the speed using the standard critical speed yaw equation and the drag factor from the Ford
• Because the rear wheels of the Ford did not lock up, this speed calculation will be low
• A second speed calculation, using the average ABS drag factor for the Ford, results in a speed within one mph of the Radar speed measurement
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Critical Speed Equations
28
2 mmcR +=• Radius Equation
• Critical Speed Yaw Equation
• Longitudinal Drag Factor Equation
rfS 86.3=
dSS
f fo
30
22 −=
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Critical Speed Yaw Data
Observed Deceleration: 0.23gft1.51 ft 6"mo2ft3030Chord2
ft1.281ft 3 3/8"mo1ft3030Chord1
5.92 ftfps48.45'11"Track widthmph33Initial speed on radar
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Summary of Critical Speed Yaw Calculations
• Corrected Radius 1: 84.29 feet• Corrected Radius 2: 71.29 feet• Initial Speed 1; f = 0.77: 31.09 mph• Initial Speed 1; f = 0.83: 32.28 mph• Final Speed 2; f = 0.77: 28.59 mph• Final Speed 2; f = 0.83: 29.69 mph• Longitudinal Drag Factor: 0.18 calculated
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Critical Speed Yaw Tests –Minnesota Patrol Academy 2003
• The Crown Vic was put into a critical speed yaw at 38 mph as measured by Radar.
• The VC-3000 was set in braking mode.• The x-axis (longitudinal) deceleration was
0.181g at the beginning of the yaw.• A chord and middle ordinate was measured
when the rear tire began tracking outside the corresponding front tire
• A second chord and middle ordinate was measured from the end of the first chord
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Critical Speed Yaw Test, cont’d
• A radius was calculated for each chord• If the vehicle is in a true critical speed yaw,
there should be a reduction in speed from the first radius to the second radius.
• We will calculate the speeds using the standard critical speed yaw equation and the drag factor from the Taurus, which was a non-ABS car.
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Critical Speed Yaw Test, cont’d
• The Taurus was put into a critical speed yaw at 36 mph on the Radar.
• Its evidence was analyzed in the same way as the evidence from the Crown Vic.
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Critical Speed Equations
28
2 mmcR +=• Radius Equation
• Critical Speed Yaw Equation
• Longitudinal Drag Factor Equation
rfS 86.3=
dSS
f fo
30
22 −=
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Summary of Critical Speed Yaw Calculations – Crown Vic
• Corrected Radius 1: 123.19 feet• Corrected Radius 2: 108.94 feet• Initial Speed 1; f = 0.77: 37.59 mph• Final Speed 2; f = 0.77: 35.35 mph• Longitudinal Drag Factor: 0.18 calculated• X-axis deceleration measured: 0.181• Radar speed: 38 mph
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Summary of Critical Speed Yaw Calculations – Taurus
• Corrected Radius 1: 105.42 feet• Corrected Radius 2: 92.61 feet• Initial Speed 1; f = 0.77: 34.77 mph• Final Speed 2; f = 0.77: 32.59 mph• Longitudinal Drag Factor: 0.16 calculated• X-axis deceleration measured: 0.192• Radar speed : 36 mph
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Critical Speed Yaw Test –Montgomery, OH (July 2003)
• The Malibu was put into a critical speed yaw at 30 mph as measured by Radar
• The VC-3000 was set in continuous mode to measure the lateral and longitudinal acceleration factors
• The VC-3000 integrated speed was 29.5 mph.• The longitudinal deceleration factor was 0.26g right after
the initial hard right steer.• A chord and middle ordinate was measured when the
rear tire began tracking outside the corresponding front tire
• A second chord and middle ordinate was measured from the end of the first chord
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Critical Speed Yaw Test, cont’d• A radius was calculated for each chord.• If the vehicle is in a true critical speed yaw, there
should be a reduction in speed from the first radius to the second radius
• We will calculate the speed using the standard critical speed yaw equation and the drag sliding drag factor from the Ford
• The rear wheels of the Ford did not lock, so the average used was 0.79, which is between the ABS average of 0.82 and the sliding average of 0.77.
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Critical Speed Equations
28
2 mmcR +=• Radius Equation
• Critical Speed Yaw Equation
• Longitudinal Drag Factor Equation
rfS 86.3=
dSS
f fo
30
22 −=
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mph29.2Initial speed from Accelerometer:
mph30Initial speed on radar:
0.27Yaw Deceleration
mph24.33Critical Speedft2.167mo2
ft50.28Radius of CMin26mo2
ft53.01Radius of Tire markft30Chord2
mph28.91Critical Speedft1.542mo1
ft71.01Radius of CMin18.5mo1
ft73.74Radius of Tire markft30Chord1
* From Ford Crown Victoria test WITHOUT ABS
ft2.73Half Track*0.79Drag Factor
ft5.46Track width
in65.50Track widthCritical Speed Yaw Analysis
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Critical Speed Yaw of 2003 Chevy Malibu(VC3000 Computer)
-0.2
0
0.2
0.4
0.6
0.8
1
1.2
13 14 15 16 17 18 19
Time
G's Longitudinal
Lateral
Post Yaw Braking
Initial value as calculated: 0.26
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Critical Speed Yaw Tests –Wyoming Academy October 2003
• Tests were conducted during a TCR Update course at the Wyoming Law Enforcement Academy.
• The vehicle used was a 1989 Chevrolet Caprice police package vehicle.
• Test skids were done with this vehicle on a level portion of the test track.
• The µ average for this vehicle with standard brakes was 0.63.
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Wyoming Tests, cont’d• The vehicle was put into a critical speed yaw at
46 mph as measured by Radar.• Two 30 foot chords were measured, with middle
ordinates of 0.52 ft and 0.57 ft respectively.• The two corrected radii were 213.6 ft. and 193.6
ft, respectively.• The super-elevation at the middle ordinate
points was 0.01.• The corrected lateral acceleration factor, f, was
0.64.
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Wyoming Tests, cont’d.
• The speed calculated from the first radii was 45.13 mph.
• The speed calculated from the second radius was 42.97 mph.
• The calculated deceleration was 0.21g.• The accelerometer measured deceleration
was 0.21g.
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Wyoming Tests, cont’d.
• A second critical speed test was conducted at a Radar measured speed of 33 mph.
• Using a similar analysis to the previous example, the initial speed was calculated at 32.73 mph and the second speed was 30.02 mph.
• The calculated deceleration was 0.18g.• The accelerometer measured deceleration was
0.20g.
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What if it’s a Spin?
• The tire marks left in a post-impact spin may sometimes look like a critical speed yaw.
• They are not!• How may we deal the post-impact or other
rapid spin?
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This vehicle has come to rest after impact, leaving the tire marks shown.
If we confuse these tire marks with critical speed yaw marks, we will calculate an erroneous speed.
The speed we calculate will likely be too high.
The following procedure will help us determine a more accurate speed.
We will calculate drag factors for small distance increments and will use the combined speed equation.
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Plot the vehicle back at its skid initiation point.
Draw a station line parallel to the initial velocity vector of the vehicle.
Draw offset lines perpendicular to the station line every 10 or 20 feet.
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Plot the vehicle heading by placing the vehicle back on its tire marks, locating the center of mass on the appropriate offset line.
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Determine velocity vector bearing tangent to the vehicle path at each CM location.
The angle the vehicle makes with respect to its velocity will be the difference between bearing and heading.
Use the CAD program to determine the center of mass distance moved between each offset line.
Once we know this information, we can calculate the drag factor for this vehicle for each distance increment.
We may then calculate speed using a combined speed equation.
For this example, we will use µ= 0.75
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Total44.27
Total96.1 ft
2.30.168.224193°13.7
2.84.219.292163°13.0
7.11.574.766130°12.4
8.31.699.933111°11.9
8.63.744.99283°11.6
7.87.673.89864°11.7
5.56.501.66942°11.1
1.65.155.20712°10.7
fndnf = µnsinθ+m
Sin θθDistance
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Post Impact Movement
• Use Combined Speed Equation:
S = 36.44 mphEffective Drag Factor: 0.46Percentage of Braking: 0.61
)...(30 332211 nndfdfdfdfS ++++=
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Sensitivity Analysis
• The Critical Speed analysis depends upon two variables:– The Radius of the path of the Center of Mass– The lateral acceleration factor for the vehicleHow sensitive is the overall speed computation
to these two variables?
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Effect of Radius
• The radius of the tire mark is calculated from the chord and middle ordinate measurements.
• Of these two, the radius equation is most sensitive to the investigator’s ability to measure the middle ordinate.
• We recommend the middle ordinate be measured to the nearest 1/8 inch for a 30 foot chord.
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Effect of Radius, cont’d.
• Consider the following information:– The chord is 30 feet– The actual middle ordinate measurement is 6
inches or 0.5 feet.– The middle ordinate is measured at 5 ½
inches, or 0.458 feet.– The actual radius is 225.25 feet– The radius from the measurement is 245.86 ft– The error is 20.61 feet, or +9.1%
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Effect of Radius, cont’d.
• The speed calculated from the actual radius is 50.17 mph with a nominal drag factor of 0.75.
• The speed calculated from the measurement is 52.41 mph.
• The difference is 2.24 mph, or 4.4%
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Effect of Drag Factor
• We used a nominal 0.75 for the previous calculations.
• If we use a constant radius but vary the drag factor, what is the effect?
• For a radius of 225.25 feet and a drag factor of 0.70, then S = 48.46 mph.
• For a radius of 225.25 feet and a drag factor of 0.80, then S = 51.81 mph.
• The difference is 3.35 mph, or 6.6%.
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Effect of Both Variables
• The radius varies between 225.25 feet and 245.86 feet.
• The drag factor varies between 0.70 and 0.80• The speed calculated from the low values is
48.46 mph.• The speed calculated from the high values is
54.13 mph.• The difference is 5.67 mph or 11.3% compared
to the nominal 50.17 mph.
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Summary• We have examined the Critical Speed Yaw analysis.• The technique has proved it usefulness over the years.• We measure the chord and middle ordinate for the
outside front tire immediately after the rear tire has crossed over the front tire mark.
• Use ABS Test skid data.• We must be sure the vehicle is actually in a critical
speed yaw.• Examine the deceleration of the vehicle.• A nominal deceleration value for dry, hard roads is 0.20g
for the first third of the yaw.• Be very careful with both the drag factor determination
and the middle ordinate measurement!• With proper care, the method has been and remains
viable!