Unit choice and consistency is a topic that’s very near to a lot of engineers’ hearts.  We tend to have strong opinions about other people’s differing opinions on it, and when we find unit mistakes, they can be some of the most spectacular screw-ups in engineering history.  So how do we avoid embarrassing unit mismatches and surprise dimensional analysis?  With handy reference and clever calculator tools:

Getting Consistent Units: A Helpful Table

Abaqus has no built-in system of units. Therefore, before starting to define any model, we have to decide which system of units will be used. For the analysis results to be accurate or meaningful, all input data must be specified in consistent units. A system is consistent when the derived units (force, stress, energy, power) are correctly expressed in terms of the chosen base units (length, mass, time, temperature). Some common systems of consistent units are shown in the table below (source in manual).

Quantity SI SI (mm) US Unit (ft) US Unit (inch)
Length m mm ft in
Force N N lbf lbf
Mass kg tonne (103 kg) slug lbf s2/in
Time s s s s
Stress Pa (N/m2) MPa (N/mm2) lbf/ft2 psi (lbf/in2)
Energy J mJ (10−3 J) ft lbf in lbf
Density kg/m3 tonne/mm3 slug/ft3 lbf s2/in4

Table 1. Common consistent unit systems

Inch Issues: Blob? Slinch? Slugette? Snail?

Working in US (inch) units can be a real headache, and two of the most confusing properties are mass and density.  Mass and density are often given in the form of lbm and lbm/in3, respectively, and therefore must be converted to the form of lbf s2/in and lbf s2/in4.

Here are the conversion formulae:

US (in) unit conversion for mass
Figure 1: Mass conversion: lbm to lbf s2/in
US (in) unit conversion for density
Figure 2: Density conversion: lbm/in3 to lbf s2/in4


Just Give Me Quick Conversions!

FEA unit tool screenshotOur technical manager, Carl Osterwisch, has created a very useful FEA unit conversion tool that you can use here.  It will take your base units of choice (length, mass, time, and temperature) and give you consistent derived units (force, stress, energy, and power).  The calculator will also take units of any system and convert them into your system.  Extremely handy.



Enhanced Abaqus/CAE View Menu
Improve your CAE post-processing workflow with simple shortcuts to useful model visualizations, such as view cuts normal to screen, view cuts through datum planes, instant 180° rotations, and more.


Eliminating Uncertainty with Engineering Simulation
What’s so great about CAE? Why do so many companies use it to increase efficiency, improve design, and save money? Find out in this free eBook!
  • This field is for validation purposes and should be left unchanged.

2 thoughts on “How Do You Get Your FEA Units Consistent?

  1. Nice work Yates
    i am wondering for creep analysis (static), if i want to use 5 days for the creep, is there any way I can convert my units to hours (5*24)?! or should i use 3600(s)*5*24!?
    my problem is that i think, by using large number, i may get lots of calculation’s error!


    1. Hello Sep,

      It is possible to change the time base of your unit system to hours but then the stress and other units will get pretty strange. This tool can help you figure that out.

      In practice Abaqus is using double-precision floating point numbers so there shouldn’t be a big risk of error using seconds.


Leave a Reply