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02-16-2007
11:27 AM

02-16-2007
11:27 AM

MDO and units

Good morning MDO'ers

MDO has the Force/Torque feature (not a motor). If you are in Pro/E default

units, you are prompted to enter Torque in lbm*in^2/s^2. Given that I am

not a strict "unit-oligist" I am befuddled with the conundrum of lbm vs.

lbf. First instinct is to correct the numerical value by dividing by 386.

However, we know that lbm is numerically equal to lbf (because g/gc is ~1)

and inches are inches so maybe 1.0 lb-in of torque is exactly 1.0

lbm*in^2/s^2 of torque? I have searched for a simple verification problem

which would easily answer this, but alas most simple textbook problems are

in MKS...

Thanks in advance,

Gavin B. Rumble, PE (sad isn't it?)

Solid Engineering

336-224-2312

MDO has the Force/Torque feature (not a motor). If you are in Pro/E default

units, you are prompted to enter Torque in lbm*in^2/s^2. Given that I am

not a strict "unit-oligist" I am befuddled with the conundrum of lbm vs.

lbf. First instinct is to correct the numerical value by dividing by 386.

However, we know that lbm is numerically equal to lbf (because g/gc is ~1)

and inches are inches so maybe 1.0 lb-in of torque is exactly 1.0

lbm*in^2/s^2 of torque? I have searched for a simple verification problem

which would easily answer this, but alas most simple textbook problems are

in MKS...

Thanks in advance,

Gavin B. Rumble, PE (sad isn't it?)

Solid Engineering

336-224-2312

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5 REPLIES 5

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02-16-2007
12:20 PM

02-16-2007
12:20 PM

RE: MDO and units

Dear Gavin,

Don't use the ProE default units; you'll get yourself tied up in knots. Use

the IPS system (or an SI based system). All that is required then is to

divide the density values by 386.4 and everything else is as you would

expect; forces in lbf, torques in lbf-in, stress in psi etc.

Mechanica and MDO expect that the units system is consistent, that is the

equation F=ma doesn't require any conversion factors. This is not the case

for the in-lbm-s system, since one lbf accelerates one lbm 386.4 in/s^2.

BTW, isn't about time the US used metric units like the rest of the world

and saved yourself a whole load of grief?

Regards,

Rod Giles (a unit-ologist & SI evengelist!)

Elite Consulting Ltd.

Mechanica Specialists Since 1993

Don't use the ProE default units; you'll get yourself tied up in knots. Use

the IPS system (or an SI based system). All that is required then is to

divide the density values by 386.4 and everything else is as you would

expect; forces in lbf, torques in lbf-in, stress in psi etc.

Mechanica and MDO expect that the units system is consistent, that is the

equation F=ma doesn't require any conversion factors. This is not the case

for the in-lbm-s system, since one lbf accelerates one lbm 386.4 in/s^2.

BTW, isn't about time the US used metric units like the rest of the world

and saved yourself a whole load of grief?

Regards,

Rod Giles (a unit-ologist & SI evengelist!)

Elite Consulting Ltd.

Mechanica Specialists Since 1993

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02-16-2007
12:34 PM

02-16-2007
12:34 PM

RE: MDO and units

I second that motion, Ron.

The best example of the worst mix up of units I've seen is a standard

for doing metric parts... really this is the system that comes up when

you execute the mapkey to start metric part.

To protect the innocent who have to re-arrange this every time they do a

metric part, I am not saying who does this.

Units info for the major system 'Custom'

Basic quantities:

Length mm

Mass lbm

Force mm lbm / sec^2

Time sec

Temperature F

Gravity 9806.65 mm / sec^2

Derived quantities:

Area mm^2

Volume mm^3

Velocity mm / sec

Acceleration mm / sec^2

Angular Velocity rad / sec

Angular Acceleration rad / sec^2

Frequency 1 / sec

Density lbm / mm^3

Torque/Moment mm^2 lbm / sec^2

Distributed Force lbm / sec^2

Distributed Moment mm lbm / sec^2

Areal Distr Force lbm / (mm sec^2)

Pressure lbm / (mm sec^2)

Stress lbm / (mm sec^2)

Young's Modulus lbm / (mm sec^2)

Surf Distr Moment lbm / sec^2

Transl Stiffness lbm / sec^2

Rot Stiffness mm^2 lbm / (sec^2 rad)

Thermal expansion 1 / F

Area Moment Inertia mm^4

Mass Moment Inertia mm^2 lbm

Energy mm^2 lbm / sec^2

Work mm^2 lbm / sec^2

Heat mm^2 lbm / sec^2

Power mm^2 lbm / sec^3

Heat Transfer Rate mm^2 lbm / sec^3

Temperature Gradient F / mm

Heat Flux lbm / sec^3

Heat Flux per Length mm lbm / sec^3

Thermal Conductivity mm lbm / (sec^3 F)

Convection Coeff lbm / (sec^3 F)

Specific Heat mm^2 / (sec^2 F)

Thermal Resultant Force lbm / (sec^2 F)

Thermal Resultant Moment mm lbm / (sec^2 F)

Beam Warping coefficient mm^6

Mass per Unit Length lbm / mm

Mass Moment Inertia per Length mm lbm

Damping Coefficient lbm / sec

Heat Rate per Length mm lbm / sec^3

Mass per Unit Area lbm / mm^2

Rotational Damping Coefficient mm^2 lbm / (sec rad)

Volume Heat Generation lbm / (mm sec^3)

Trans Stiffness per Unit Area lbm / (mm^2 sec^2)

Curvature 1 / mm

Gaussian Curvature 1 / mm^2

Linear Momentum mm lbm / sec

Angular Momentum mm^2 lbm rad / sec

The best example of the worst mix up of units I've seen is a standard

for doing metric parts... really this is the system that comes up when

you execute the mapkey to start metric part.

To protect the innocent who have to re-arrange this every time they do a

metric part, I am not saying who does this.

Units info for the major system 'Custom'

Basic quantities:

Length mm

Mass lbm

Force mm lbm / sec^2

Time sec

Temperature F

Gravity 9806.65 mm / sec^2

Derived quantities:

Area mm^2

Volume mm^3

Velocity mm / sec

Acceleration mm / sec^2

Angular Velocity rad / sec

Angular Acceleration rad / sec^2

Frequency 1 / sec

Density lbm / mm^3

Torque/Moment mm^2 lbm / sec^2

Distributed Force lbm / sec^2

Distributed Moment mm lbm / sec^2

Areal Distr Force lbm / (mm sec^2)

Pressure lbm / (mm sec^2)

Stress lbm / (mm sec^2)

Young's Modulus lbm / (mm sec^2)

Surf Distr Moment lbm / sec^2

Transl Stiffness lbm / sec^2

Rot Stiffness mm^2 lbm / (sec^2 rad)

Thermal expansion 1 / F

Area Moment Inertia mm^4

Mass Moment Inertia mm^2 lbm

Energy mm^2 lbm / sec^2

Work mm^2 lbm / sec^2

Heat mm^2 lbm / sec^2

Power mm^2 lbm / sec^3

Heat Transfer Rate mm^2 lbm / sec^3

Temperature Gradient F / mm

Heat Flux lbm / sec^3

Heat Flux per Length mm lbm / sec^3

Thermal Conductivity mm lbm / (sec^3 F)

Convection Coeff lbm / (sec^3 F)

Specific Heat mm^2 / (sec^2 F)

Thermal Resultant Force lbm / (sec^2 F)

Thermal Resultant Moment mm lbm / (sec^2 F)

Beam Warping coefficient mm^6

Mass per Unit Length lbm / mm

Mass Moment Inertia per Length mm lbm

Damping Coefficient lbm / sec

Heat Rate per Length mm lbm / sec^3

Mass per Unit Area lbm / mm^2

Rotational Damping Coefficient mm^2 lbm / (sec rad)

Volume Heat Generation lbm / (mm sec^3)

Trans Stiffness per Unit Area lbm / (mm^2 sec^2)

Curvature 1 / mm

Gaussian Curvature 1 / mm^2

Linear Momentum mm lbm / sec

Angular Momentum mm^2 lbm rad / sec

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02-16-2007
12:53 PM

02-16-2007
12:53 PM

RE: MDO and units

Hey, I once saw Kg-force listed somewhere. I was thinking "what the

@#$@#"

I third that motion... I college it was always easier to convert an

imperial problem to SI, solve it and convert it back then it was to just

use the imperial units.... Go figure.

Tony

@#$@#"

I third that motion... I college it was always easier to convert an

imperial problem to SI, solve it and convert it back then it was to just

use the imperial units.... Go figure.

Tony

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02-16-2007
03:49 PM

02-16-2007
03:49 PM

RE: MDO and units

Good point Rod,

I normally do just that (switch to IPS) when preparing FEA models...but not

usually for design models. So here we are with a 450-part assembly (with

notes on the drawings saying WT = &mp_mass), and I find I need to predict

spool-up and coast-down times. So, what I'm hearing (from our helpful

Users), MDO wants torque to be 1.0 lbf-in X 386. The problem is, when I did

it wrong the answer seemed entirely plausible...when I do it right the

answer seems completely ridiculous (this is probably my warped sense of

reality).

Stay with me here...I have built a simple test part/assembly. The part is a

hollow cylinder 1" OD with 3/4" ID and 1 inch long made of steel (.3 lb per

cu in). It has an initial angular velocity of 10 rpm (60 deg/sec) in say +z

direction. Apply a torque of 1 lbf*in in the -z direction. How long (and #

of revs) before it stops, and ultimately heads back in the other direction?

I get a tiny fraction of a second (0.00005xxx seconds) and 0.0016 degrees.

This when I enter the torque as 386 lbm*in^2/s^2...AND when I do as one

friendly reader suggested, convert the whole thing to MKS. I would list my

conversions here but that would imply they are correct...grin.

Anybody get something different?

Regards,

Gavin

PS. On the topic of American usage of units, Rod's point is

dead-on-the-money...however, didn't we inherit this mess from our

motherland? Can you say Btu's...? And BGS?

I normally do just that (switch to IPS) when preparing FEA models...but not

usually for design models. So here we are with a 450-part assembly (with

notes on the drawings saying WT = &mp_mass), and I find I need to predict

spool-up and coast-down times. So, what I'm hearing (from our helpful

Users), MDO wants torque to be 1.0 lbf-in X 386. The problem is, when I did

it wrong the answer seemed entirely plausible...when I do it right the

answer seems completely ridiculous (this is probably my warped sense of

reality).

Stay with me here...I have built a simple test part/assembly. The part is a

hollow cylinder 1" OD with 3/4" ID and 1 inch long made of steel (.3 lb per

cu in). It has an initial angular velocity of 10 rpm (60 deg/sec) in say +z

direction. Apply a torque of 1 lbf*in in the -z direction. How long (and #

of revs) before it stops, and ultimately heads back in the other direction?

I get a tiny fraction of a second (0.00005xxx seconds) and 0.0016 degrees.

This when I enter the torque as 386 lbm*in^2/s^2...AND when I do as one

friendly reader suggested, convert the whole thing to MKS. I would list my

conversions here but that would imply they are correct...grin.

Anybody get something different?

Regards,

Gavin

PS. On the topic of American usage of units, Rod's point is

dead-on-the-money...however, didn't we inherit this mess from our

motherland? Can you say Btu's...? And BGS?

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02-19-2007
07:47 AM

02-19-2007
07:47 AM

RE: MDO and units

Hi Gavin,

My hand(well, Excel at least)-calcs agree with your results below.

Coincidentally, your test model seems to approximate quite closely a 540-sized 'modified' electric motor (used in R/C cars and planes), and the no-load spool-up time for one of those from 0 to, say, 30 000 rpm is pretty short (well below a second), so the numbers seem believable.

On the units debate, I'm English and really can't do engineering in Imperial units (even though I still think in some of them) - but I'm not going to argue too much, as my unit set of choice is N and mm, which unfortunately leaves mass as tonnes, but does at least give MPa directly.

Best regards,

Jonathan Hodgson

My hand(well, Excel at least)-calcs agree with your results below.

Coincidentally, your test model seems to approximate quite closely a 540-sized 'modified' electric motor (used in R/C cars and planes), and the no-load spool-up time for one of those from 0 to, say, 30 000 rpm is pretty short (well below a second), so the numbers seem believable.

On the units debate, I'm English and really can't do engineering in Imperial units (even though I still think in some of them) - but I'm not going to argue too much, as my unit set of choice is N and mm, which unfortunately leaves mass as tonnes, but does at least give MPa directly.

Best regards,

Jonathan Hodgson

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