I took one of the wheel spacers into our QA department this morning and took detailed dimensions of the spacer.
We then rolled my spare in and took dimensions off of the wheel. We noted the material and performed hardness testing to determine the specific aluminum alloy.
We identified the wheel material as alloy 356-T6. The spacers are made from 6061-T6 alloy. 356-T6 has tensile strength of 30,000 PSI. 6061-T6 has a tensile strength of 45,000 PSI. This means that the spacer is 50% stronger than the wheel for a given thickness. However, the spacer is near 50% thicker.
We than constructed a 3D model of each using NX 3D CAD software.
We ran a finite element analysis of both to determine where peak stresses are and where each component is most likely to fail. The result is what I expected. In short, spacers are not the weak link. The wheel itself is 5x more likely to fail under severe loading than the well designed spacer.
Gentlemen, regardless of opinions or myths, the Spidertrax wheel spacers are less dangerous than the wheels bolted to them. Don't waste your time arguing.
My JK prior to the installation of the Spidertrax spacers...
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My JK after the installation of the spacers.
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My regards,
Widewing
if the wheel
doesn't fail without the spacers in place, but it
does fail with them there.......then there has to be a cause of this failure. if the only thing changed is that a spacer is/was added, then it would stand to reason that adding these spacers creates this problem, thus making them dangerous.
my experience with them is in drag racing. a lot of guys buy the wrong offset wheel, and then stick too big of a tire in too small of a wheel well. this is why they place spacers in there.
these same spacers also cause
something to fail, be it the wheel, the wheel stud, or the spacer itself.
one of the things i've seen with spacers, is somethign you noted. first of all, you could've probably visited the manufacturers website, to find they're made of the 6061 aluminum. most aftermarket manufacturers state what type of aluminum they use.
secondly, i believe that the two different types of aluminum expand and contract at different rates. this being the case, it
can,
and eventually will cause the lug nuts to loosen up. if they only loosen a bit, this can create the appearance that the wheel failed, when in fact(again) the problem was caused by the spacer inserted between the wheel and the hub.
possibly for low power applications, they withstand everything. i don't know about that. what i do know, is that i've seen more than my share of vehicles towed in with wheels that mysteriously removed themselves, and they all had spacers on them.
putting a wheel spacer on your car is as safe as using a compression fitting in a brake line.
