How to Measure Bolt Patterns How to Measure Wheel BackSpaceItems required to measure wheel backspace:
- Tape measure
- Straight edge
- Wheel w/o tire (preferred)
The easiest way to measure backspace is to lay the wheel face down onto the ground so the backside of the wheel is facing up. Take a straight edge and lay it diagonally across the inboard flange of the wheel. Take a tape measure and measure the distance from where the straight edge contacts the inboard flange to the hub mounting pad of the wheel. This measurement is backspace. The above photo shows three wheels with 2",3", & 4" backspace.
Measuring Wheel OffsetTo calculate offset you'll need the following measurements:
Wheel backspace
Wheel Width
Wheel Center line (outboard flange to inboard flange measurement / 2)
Subtract:
Wheel center line from Wheel backspace to get offset.
If backspace is less than the wheel centerline the offset is negative
If backspace is greater than the wheel centerline the offset is positive
Tip:
To convert from inches to mm multiply by 25.4
To convert from mm to inches divide by 25.4
Backspace to Offset Conversion Chart
The table above is a quick reference for finding offset, pick the rim width and follow the row over to the backspace of your wheel.
Determining Vehicle Fitment
Fitting a wheel and tire package is different for each vehicle, but by following these guidelines your chances for success will be much greater. In most cases you'll have to use the physical dimensions of the current wheel/tire package to determine the dimensions of the new wheel/tire package.
Items which are potential trouble spots:
Tie Rod Ends
A-arms
Brake Calipers
Shocks and Shock Mounts
Inner & Outer Fenders (esp. front tires turned to lock)
In the drawing above, we've made two measurements
Front Side Clearance
Back Side Clearance
These measurements when used with:
Tire Section Width
Tire Diameter
Rim Width
Rim Backspace
Help determine if wheel/tire clearance is adequate for the new wheel/tire package you've selected.
Suggestion: Start your search for new wheels by picking the tires first. Get the tire manufacturer's rim width recommendations and physical dimensions for the tires you want. Pay close attention to Section Width and Measured Rims specs., these are important numbers to be used when selecting rims and determining vehicle fitment.
Determine Wheel Caliper Clearance
Ensuring proper caliper clearance inside the wheel is important. The following chart should enable you to have the dimensions required by most wheel manufactures.
A. Caliper Overhang Distance
Used to determine if wheel dish is adequate (in some cases a spacer is required for clearance)
B. Diameter of Hub Center
Required if wheels are hub centric
C. Wheel Stud Diameter
Required along with bolt circle
D. Height of Hub Center
E. Length of Lug and Thread Type (Fine or Coarse)
Required to determine if longer studs are necessary
F. Distance from CL of Hub to Caliper
Used with A to determine if a spacer is required for proper fitment
G. Width of Caliper
Used with F to determine if wheel ID is adequate to clear rotor/caliper package
H. Diameter of Hub Mounting Face
Used to determine if hub is adequate to support wheel/spacer
Typical Lug Nut Torque Specifications
Lug Size Ft/Lbs Torque
7/16" 55-65
1/2" 75-85
9/16" 95-115
5/8" 135-145
12mm 72-80
14mm 85-95
IMPORTANT NOTICE: As with all types of wheels retorque lug nuts after the first 25 miles & at 100 mile intervals until lug torque is maintained.
Note: Always refer to Owner's Manual for proper factory specifications that take precedence over the listed recommendations.
Wheel Terminology
Bolt pattern or lug pattern or bolt circle is determined by the number of bolt holes and the bolt circle diameter.
Hub Diameter or center bore is the hole at the center of the wheel.
Rear spacing or back spacing is the distance from the backside of the wheel mounting pad to the outside of the rim flange.
Offset: The distance from the centerline of the wheel to the mounting surface of the wheel.
Negative offset: When the back of the bolt pad is closer to the inside of the wheel; when mounting surface is inboard of the rim centerline.
Positive offset: When the back of the bolt pad is closer to the street side of the wheel; when the mounting surface is outboard of the rim centerline.
Bead-Loc: A device which captures the tire bead between it's flanges, usually secured by bolts to keep tire bead from dismounting. Usually used in dirt circle track or off road applications where low tire pressures are used and hitting ruts or other vehicles are common. Below: An example of a Bead-Loc wheel
Modular Wheel Inspection and Maintenance
Two & Three piece modular wheels require periodic maintenance. You'll want to work out your own maintenance schedule, but here's an example of what the manufacturer recommends.
Each Season disassemble, thoroughly inspect, clean, re-seal, and re-torque each wheel:
Replace wheel bolts each season
Wheel Bolt Torque:
1/4" bolts 15 ft/lbs. or 180 in./lbs
5/16" bolts 20 ft/lbs.
After thoroughly cleaning all mating surfaces with an appropriate cleaner, add a thin skim coat of silicone sealant to these surfaces, assemble wheel and torque bolts to recommended torque
Install a new valve stem
Add a thick coat of silicone sealant to the drop center area of the wheel and let it cure for 24 hours before initial use
Below is an example of cracking which can occur on wheels which don't support the back rim half with the center. This wheel happens to be a Dura-lite wheel.
Modular Wheel Leak Detection
So your tires keep going flat, before you blame those leaky slicks, check your wheels for leaks.
Inflate the tire/wheel combination to 40psi
Spray a solution of soapy water onto the wheel
Mark areas where bubbles appear with a tire crayon
If leaks in the wheel are found follow the maintenance procedure above to reseal the wheel
The most common cause for leaking modular wheels is; the tire changing person has stuck their tire spoon into the silicone seal and damaged it during a tire mount.
All the above info came from R&S Racing