BMW Wheel Fitment Guide - Street and Track

Since 1993 our focus as only been on BMWs. We are BMW experts especially when it comes to suspension tuning and wheels play a large role in how your car is handling. As such we have great depth of knowledge on wheel fitment and technology. Wheels are near the top of the list as an upgrade on any BMW. Few modifications have more visual and performance impact than a new set of wheels. Wheel choice depends largely on your intended use - street, show, track days, racing, winter, etc. And there are many many options and choices to make which can leave even knowledgeable people scratching their heads. This page is to educate and aid you in making the right wheel choice. Upgrading for looks or moderate performance improvements is easy. It's only when trying to maximize performance does upgrading become tricky.

BMW, and other manufacturers, set the default handling to understeer by under-sizing the front wheel/tire. With less grip from a narrow tire the front will lose traction first, which is arguably safer and easier to detect and control than oversteer (the rear end losing grip). There is nothing wrong with having a narrower front wheel for street use - chances are slim that you will regularly exceed the handling capabilities of your front tires. Having a wider rear wheel also gives the impression of power so BMW designers insist on it. With the front wheels narrower than the rear this is known as a staggered wheel setup.

For the track, we desire the same size wheels and tires for the front and rear. The front of the car needs more grip to reduce understeer so we try and cram as much wheel/tire into the front fenders as possible (or as the rules allow) and make large changes to the alignment. Big front tires and aggressive alignments are not good for the street so these wheel packages are usually best left for track cars. The same sizing also allows the tires to be rotated. This is known as a square wheel setup.

On this page we will define the various terms and technical features of wheels, give you background information and notes on BMW wheel fitments, and provide you with some examples of easy and aggressive wheel fitments. We hope this information proves valuable to you. When you're ready to discuss wheel options for your BMW, call or e-mail us and we'll be happy to assist with any wheel need you may have.

Page Links:
1. Wheel Glossary
2. Wheel Design and Manufacturing
3. Offset In Greater Depth...
4. Wheel Clearance, including notes on suspensions, brakes, and bodywork
5. Sample Sizes and Offsets by Model (stock, mild, aggressive fitments)


Wheel Glossary


Wheel Design and Construction
We sell several different types of wheels with different construction and designs. We sell cast, flow-formed, and forged wheels in single-piece, monoblock, and multi-piece designs. Sometimes your choice of wheel will be dependent on design and manufacture rather than styling.

Wheel Construction and Manufacturing
Cast. A cast wheel is one where liquid aluminum is poured into a mold and cooled. When removed from the mold and painted you have the final wheel. Cast wheels are always single-piece and nearly all factory BMW wheels are cast alloy. The casting method is quick and inexpensive compared to the other methods. Depending on the density and materials used to make up the alloy, cast wheels can be very light weight. Unfortunately, the casting process leaves wheels with a porous cross-section of material. There are air pockets and voids that makes the material soft and prone to flexing and bending. To make the wheels stronger manufacturers will force more material into the mold which makes the wheel heavier. Cast wheels are generally fine for ordinary street use as long as they don't come in contact with curbs, potholes, etc. But because the alloy is soft it can be repaired easily by heating and re-shaping.

Forged. Forged wheels are made from a single block of high-grade aluminum. CNC milling machines and presses shape the block into form of a wheel or the individual wheel pieces. Forged wheels can be single-piece (often re-named 'monoblock') or multi-piece designs. The alloy mix that is used is typically better and a higher grade than cast or flow-formed wheels. Because the process starts with one solid mass of material, there are far fewer air pockets and voids so the wheel is always stronger. Most forged wheels are far stronger than any force or condition they might see on the street as well as many racing environments. Since there is no mold involved, forged wheels can be almost any design and style although most manufacturers will test their designs using finite element analysis and motorsports. Using FEI additional machining can be done to reduce weight without affecting strength. Because of the time and costs involved, forged wheels are almost never used on production cars. The materials and craftsmanship demand a higher price than cast or flow-formed. A monoblock forged wheel can be repaired if bent or damaged but requires different techniques than on a traditional cast wheel. A multi-piece forged wheel can usually have the damaged piece replaced (without paying full price for a complete wheel).

Flow-formed. The flow-forming process is relatively new and combines traditional cast methods with a semi-forging process. The wheel is technically cast but with a much denser concentration of alloy material. The wheel center (face) is cast with a shortened inside barrel. After casting and when the material is still pliable the barrel is pressed and formed using hydraulic rollers with tremendous force. The rollers press out the rest of the barrel to its final size shape. Flow-formed wheels are light like cast wheels but have excellent strength similar to forged wheels. OE wheel manufacturers like BBS and Ronal use flow-forming on some factory wheels, including select high performance BMW models.

Wheel Design and Type
Single-Piece (cast). The wheel is all one piece, cast from one mold.

Monoblock (forged). The wheel is all one piece, but machined from a solid billet.

Multi-Piece (2 or 3-Piece)
The wheel is made up of 2 or 3 pieces joined together. Two-piece wheels have an inner barrel and the outer barrel and center together. The center/outer is bolted to the inner. A 3-piece wheel consists of an inner barrel and the outer barrel and center are separate pieces. The pieces are stacked together with the center being the final piece. The hardware can be installed from the front or the back through all three pieces. The exposed hardware can also factor into the aesthetic of the wheel too. Forgeline wheels also have a hidden hardware option for a cleaner look. The bolts are inserted from the back into Heli-Coil inserts in the back of the wheel center. Multi-piece wheels are designed to be taken apart and rebuilt when one piece is damaged. This makes them ideal for racing and track use and doesn't require a wheel specialist or unique tools. The cost for one single piece is less than an entire wheel and sometimes less than other single-piece wheels. In some cases the wheel center can be changed for an entirely different design.


Flat Lip vs. Stepped Lip
In certain wheel listings we mention different types of wheel lips available on 3-piece custom wheels. There is the standard flat lip and a stepped version. The flat lip is your typical smooth outer lip. The current trend in wheel styling favors a very wide lip with a contrasting finish or color to the wheel center. The flat lip also allows the wheel spoke to extend as close to the edge of the wheel as possible (sometimes making the wheel appear larger than it is). The one downside we have come across on wide flat lips is that water can pool on the lip itself. The water stays pooled on the lip even when the wheel is rotating and that can lead to a vibration.

Forgeline's solution is a stepped lip design where the outermost area is flat but the inner section where the wheel center is attached is a smaller diameter. It actually 'steps down' in size. This gives the water a way to drain off and not pool inside the lip. The downside here is that the smaller wheel center makes the whole wheel appear smaller overall - a 19" wheel looks like an 18". In our New England climate we favor the stepped lips but for less rainy regions or for maximum visual affect the flat lip is the best.



Offset In Greater Depth...
Wheel width and offset are the most critical dimensions you need to be aware of. Especially when looking at wheels that offer multiple width and offset combinations. Wheel offsets change based on the desired final placement of the wheel within the wheel well. You can't just put a wider wheel on without adjusting its offset so that it A) sits in a similar position as the original, or B) it clears other components on the car (brakes, strut/shock, suspension arms, inner and outer bodywork including fenders). Read on for more in-depth explanation of offset.

When talking about offset, visualize the Mounting Pad in a fixed position. As the offset changes the barrel and rim of the wheel shifts in and out in relation to the Mounting Pad. A higher offset puts the inner lip closer to the suspension or inner bodywork. A lower offset will shift the rim to the outside of the car. In most situations, you want as wide a wheel as possible that sits flush to the fender on the outside but still clears your suspension and brakes.

How Width and Offset Interrelate:
If you have a factory BMW wheel with an 8.5" width and 40mm offset (ET40) and you replace it with another 8.5" ET40 wheel the position of the wheel in the wheel well does not change. If the new 8.5" wheel has a ET50 offset, the new wheel is going to sit 10mm further inboard than the original ET40 wheel. This may put the wheel too close to the inner wheel well, suspension, and brakes. Conversely, an ET30 offset will place the wheel 10mm further outboard than originally. This puts the wheel closer to the inside lip of the fender. Replacing one wheel with another of the same width is easy. Now factor in a wider width.

8.5/ET40 replaced with 9.0/ET40. The wheel is a half-inch wider but the offset remains the same. The offset/center of the wheel has not changed. Now there is a half-inch of additional width spread equally on either side of the centerline. Half-inch = 12mm / 2 = 6mm. The new wheel is 6mm closer to the inside and 6mm closer to the outside.

8.5/ET40 replaced with 9.0/ET30. The wheel is a half-inch wider but now the offset is lower. You have added 12mm of extra width then shifted the barrel 10mm further outward. The new wheel sits 4mm further away from the strut and 16mm closer to the fender.

8.5/ET40 replaced with 9.5/ET43. The new wheel is 25mm wider but the offset has increased by 3mm. The end result is this wheel will sit 16mm further inward but also extend 10mm further outward. We're worried about this fitment because the offset is high and will leave the wheel tucked too far in. Since a stock wheel/tire may only have 10mm of clearance to the strut this wheel/tire setup may rub on the strut. Plus, a tucked under appearance just looks strange. A wheel spacer can be used to push the wheel/tire away from the strut. Or use a lower offset wheel - a 9.0/ET35 wheel will be 8mm closer on the inside and 18mm closer on the outside. Just make sure that your stock wheel/tire has adequate room on the outside or fender modifications will be required.

We test fitted three 18x9.5 wheels with different offsets to the rear of an E90 330i to demonstrate the changes that offsets can make.



Won't Wheel Spacers Change My Offset?
No. Wheel spacers do not change the offset of the wheel. When offset changes are made to the wheel itself, the profile or concave or "dish" of the wheel also changes. The spokes are designed a different way. Usually the wheel is finite element tested as well to ensure the spoke design can handle the loads based on the new position. Wheel spacers change the mounting point of the wheel. They are really 'hub spacers' or 'hub extensions'. Spacers have a similar effect as a lower offset in the overall stance and track of the car.


Wheel Clearance and Fitment Notes
These are some of our own notes on what works and doesn't work when fitting larger wheels to BMWs. It's not a complete how-to guide but just some things that we have witnessed or experimented with over the years.

Use BMW for inspiration.
BMW has their own upgraded wheel sets. These wheel/tire upgrades tend to be conservatively sized and with a higher offset than desired. We consider these to be a good basis for selecting new wheels and tires because BMW's size and offset are almost guaranteed to fit without issues. But improvements can still be made for a better fit.

We assume you have already decided on a staggered or square setup. Next you should decide how large you want to go. If you want to stay conservative choose a wheel that closely matches BMW's own upgraded wheel sets. For a more athletic appearance and stance look for wheels that are half-inch wider in the front and rear than the factory upgrade. In either of these cases you can almost guarantee a slam-dunk fitment with minimal issues. But going far beyond these sizes will take much more consideration.

Changing Wheels and Tires on AWD/4WD Models, Cars with Limited Slip Differentials, or DSC
Because AWD cars proportion torque based on loss of traction it's very important not to upset the ratio of transfer. BMW has built in a ratio where the system delivers a pre-determined amount of constant torque to the front and rear axles. Using tires that alter the front:rear torque bias can trigger the AWD system into directing more torque to the tires it thinks are slipping. The same logic applies to the left:right proportioning on RWD cars with limited-slip differentials. If the system is over-working because of the incorrect tires it will wear out considerably faster. It will also result in inconsistent or dangerous handling.

It can have a similar effect on newer cars with ASC or DSC if the wrong size is used. If a lower sidewall height is used the DSC computers will think the rears are slipping compared to the fronts. And that will trigger the DSC into activating and applying the brakes and/or cutting engine power. It's more prevalent on some cars than others but customers and owners have reported it. This is why a lot of track tires are built with a taller/fatter sidewall rather than the slim low profile.

When shopping for new tires, or going with a larger size, it's very important to note current tire sizes on your car and their revolutions per mile (available from all tire manufacturers). As long as the ratio in front to rear sizes remains the same as factory you should not experience any driveline issues. Also on AWD cars, strongly consider buying a fifth wheel/tire to keep as a spare and include it in your regular tire rotations. This ensures the spare will not contribute to driveline issues when put to use.

Stock Wheel and Tire Sizes for Reference
Use the table below when shopping for new tires to fit to your wheels. Remember, large deviations in the front:rear sizes can have serious effects on AWD systems.

Model	F/R	Stock Wheel Size	Stock Tire Size*	Rolling Diameter**
E36 M3	F	17x7.5"	225/45-17"	24.97"
	R	17x8.5"	245/40-17"	24.72"
E39 non-M	F	17x8.0"	235/45-17"	25.33"
	R	17x9.0"	255/40-17"	25.03"
E39 M5	F	18x8.0"	245/40-18"	25.71"
	R	18x9.5"	275/35-18"	25.58"
E46 non-M RWD	F	17x7.5"	225/45-17"	24.97"
	R	17x8.5"	245/40-17"	24.72"
E46 325xi/330xi	F	17x7.0"	205/50-17"	25.07"
	R	17x7.0"	205/50-17"	25.07"
E46 M3	F	19x8.0"	225/40-19"	26.08"
	R	19x9.5"	255/35-19"	26.03"
E82 135i	F	18x7.5"	215/40-18"	24.77"
	R	18x8.5"	245/35-18"	24.75"
E82 1M	F	19x9.0"	245/35-19"	25.75"
	R	19x10"	265/35-19"	26.3"
E85 Z4 non-M	F	18x8.0"	225/40-18"	26.08"
	R	18x8.5"	255/35-18"	25.03"
E85 Z4 M	F	18x8.0"	225/45-18"	25.97"
	R	18x9.0"	255/40-18"	26.03"
E9X non-M RWD	F	19x8.0"	235/35-19"	25.47"
	R	19x9.0"	265/30-19"	25.25"
E9X 325xi/328xi/ 330xi	F	17x8.0"	225/45-17"	24.97"
	R	17x8.0"	225/45-17"	24.97"
E9X M3	F	19x9.0"	245/35-19"	25.75"
	R	19x10"	265/35-19"	26.30"
F22 M235 RWD	F	19x7.5"	225/35-19"	25.20"
	R	19x8.0"	245/30-19"	24.79"
F30 335 RWD	F	20x8.0"	225/35-20"	26.20"
	R	20x8.5"	255/30-20"	26.02"
F8X M3/M4	F	19x9.0"	255/35-19"	26.02"
	R	19x10"	275/35-19"	26.58"
* = stock tire size is a sample from the available sizes offered for this model. ** = rolling diameter is not the same as revolutions per mile. The rolling diameter is simply sidewall height (x2 and converted to inches) added to wheel diameter. It's a useful reference when jumping to a larger wheel/tire. If your overall diameter stays close to the original spec you can avoid AWD, LSD, DSC, and speedometer issues. Revolutions per mile is a better metric to use for comparisons but will vary by tire brand, tread style, inflation pressure, etc.

Major factors to consider when fitting aggressive wheel sizes and offsets:

	Tire Sizing and Brand. Perhaps the biggest factor in aggressive fitments is the tire choice. A 9.5" wheel can take a 245, 255, 265, 275, or 285mm wide tire. But did you know that those tire widths are not actual widths? They are classes that the manufacturer chooses to associate with their tire products. A 275 may measure out to be more like a 285. Each tire manufacturer will list the actual widths on their website (or Tire Rack) so you can make a more informed choice of tire in an aggressive fitment. Also take into consideration tire sidewall height (a percentage of the tire width) and the shape of the tire. More aggressive tires tend have wider widths and squared off shoulders to maximize the contact patch. Also consider the rolling diameter and the revolutions per mile of each tire. The revolutions of the tire is very important for speedometer accuracy and absolutely critical in AWD cars. A difference of more than 3% in revolutions from your original equipment wheel/tire should be avoided.
	Ride Height. Reducing the gap between the fender and the top of the tire obviously plays a huge role in clearance and wheel fitment. As we said before, anything beyond BMW's conservative wheel upgrades is a grey area as far as clearance. How much tire will fit within the confines of the fender and wheel well depends largely on the ride height. We prefer to advise customers to lower their car first on the stock wheels/tires. Once the desired stance and look are achieved then select a wheel/tire size that will work. Use other cars and M cars as inspiration (M wheels on a non-M car make a great upgrade). One of the worst things you can do is spend thousands of dollars on huge wheels/tires that don't fit your lowered suspension. It's much easier to change or adjust suspension settings around a new set of wheels than the other way around. A special note about coil overs. These are an excellent way of adjusting ride height to suit your clearance and stance needs. But the design and construction of coil overs means that they are more likely to interfere with wheels. In a stock suspension and tall stock spring this spring seat sits over the wheel/tire. But to get a reduced ride height that is also adjustable, the coil over spring seat sits further down and alongside the tire sidewall. A wheel with too high of an offset will make contact with this spring seat collar. Most suspension companies will advise a 2-3mm gap to account for wheel flex and heat expansion. Three solutions exist: raise the collar to clear (changing your ride height and stance), a wheel spacer, or a lower offset wheel. You decide which option will work best for your situation but always take your coil overs into account when looking at wheel options.
	Bodywork. Believe it or not, not all body panels are the same. Manufacturing tolerances may mean that what works on one car may not be a guaranteed fit on another. Suppliers and molds change, cars are in accidents and repaired differently, aftermarket body kits are installed, climate and environment differences all introduce the possibility of slight variations in clearances. To fit an aggressive wheel size you may need to modify, trim, roll, or pull bodywork to clear.
	Alignment. One trick in getting over-sized tires to clear fenders is to increase the amount of negative camber. This will tilt the tire away from the fender line. This can also have another benefit - better handling through reduced understeer. However, too much negative camber will have the tire riding on the inside edge when driven in a straight line. Camber is great for track cars but bad for street cars (especially driven many miles on the highway).
	Big Brakes. Larger brake kits from StopTech, Brembo, and others take up more space within the wheel well. Not only does the wheel have to fit over and around the brakes but you have to ensure the spoke design doesn't interfere either. Most brake manufacturers will provide you with a template or specs to check the spoke clearance for your wheels. Most will advise a 2-3mm gap to account for wheel flex and heat expansion.

Sample Wheel Sizes and Offsets by Model
Use the chart below to see standard sizes and offsets, a mild/safe size upgrade, and aggressive sizes and offsets. The below information is for reference only and should not be considered or used for a guaranteed fitment on any particular car.

Model	F/R	Stock	Mild	Aggressive
E36 M3	F	17x7.5 ET41	17x8.5 ET40	17x9.0 ET41
	R	17x8.5 ET41	17x9.0 ET41	17x9.0 ET41
E39 M5	F	18x8.0 ET20	18x9.0 ET31	18x9.5 ET22
	R	18x9.5 ET22	18x10 ET33	18x9.5 ET22
E46 non-M	F	17x7.5 ET41	18x8.5 ET38	18x9.0 ET31
	R	17x8.5 ET50	18x9.0 ET42	18x10 ET43
E46 M3	F	18x8.0 ET47	18x9.0 ET42	18x9.5 ET35
	R	18x9.5 ET27	18x10 ET25	18x10.5 ET27
E82 135i	F	18x7.5 ET49	18x8.5 ET45	18x9.0 ET42
	R	18x8.5 ET52	18x9.5 ET62	18x9.5 ET62
E82 1M	F	19x9.0 ET31	18x9.5 ET35	18x10 ET25
	R	19x10 ET25	18x10.5 ET27	18x11 ET25
E85 Z4 M	F	18x8.0 ET42	18x8.5 ET38	18x9.5 ET35
	R	18x9.0 ET30	18x9.5 ET22	18x10.5 ET27
E9X non-M	F	19x8.0 ET37	18x8.5 ET38	18x9.5 ET35
	R	19x9.0 ET39	18x9.5 ET35	18x9.5 ET35
E9X M3	F	19x9.0 ET31	18x9.5 ET22	18x10 ET25
	R	19x10 ET25	18x10.5 ET27	18x10 ET25
F30 335	F	20x8.0 ET36	18x8.5 ET38	18x9.0 ET42
	R	20x8.5 ET47	18x9.0 ET42	18x9.5 ET43

The Effect of Wheel Diameters On Performance
One of our race team tire engineers, and a veteran club racer, came up with some great insight in wheel/tire diameters. If you have ever asked yourself why there aren't many 19" or larger racing tires this bit of insight should be very interesting to you.

"In the grand scheme of things wheel diameter doesn'’t make much of a difference as long as the revolutions per mile are the same, and in many cases running a smaller diameter wheel with a taller sidewall is desirable on track cars as long as they clear the brakes due to lower unsprung rotating mass and cost and availability of tires. The further away from the center of the wheel the weight is, the more difficult it is to speed it up or slow it down, and the heavier the wheel becomes. In most cases, a 18" diameter wheel is the theoretical ideal for the balance of weight and tire performance. There is an increase in the cornering performance of the tire by going to a shorter sidewall, but there comes a point where the extra weight and further outboard location of the weight offsets the benefit of the shorter sidewall."

Links to Wheels On Our Website