Sonnax Flange Yokes vs. Spicer Flange Yokes
Racers and technicians are always on the lookout for stronger, lighter parts to install that will give a performance advantage or upgrade. Often, comparing competing parts can be difficult due to a lack of concrete testing evidence to consult, and limited availability of appropriate product information. This is especially true of seemingly &#;simple&#; hard parts such as flange yokes. Recent comparison testing of a Sonnax (aluminum) flange yoke versus a Spicer (steel) flange yoke provides valuable insight into some key differences between the two.
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Sonnax Spicer
The yokes were tested at the Sonnax technical center in Vermont using a torsional test machine (Figure 1). Precise torque levels were applied and measured with a torque load transducer (Figure 2). Applied torque was incrementally increased in an attempt to find each yoke&#;s ultimate failing point.
Figure 1Figure 2
Test results reveal that the Spicer flange yoke and the Sonnax flange yoke fail at identical maximum torque loads, which demonstrates that the strength-to-yield of these yokes is equal. However, though they have corresponding durability, the yokes display quite different modes of terminal failure.
When the Sonnax yoke reached the failure torque load, its aluminum construction plastically yielded, stretching the U-joint bores into ovals but holding on to the driveshaft (Figure 3).
Figure 3
In contrast, when the Spicer yoke failed it did so catastrophically, shattering like glass and disconnecting from the driveshaft (Figure 4).
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Figure 4
A complete breach such as this can result in grievous damage to other vehicle components due to an unsecured driveshaft whip-sawing out of control at high speed. The exhaust system, fuel tank and lines, brake lines, transfer case and/or tail shaft can be mangled along with the driveshaft in such a situation. Track personnel and bystanders may also face a heightened risk of injury in this scenario due to broken pieces being launched outward.
In addition to this formidable advantage, the Sonnax flange yoke exhibits clear superiority in the following important areas:
- Reduced Rotating Mass &#; The Sonnax yoke is half the weight of the Spicer yoke. Reducing rotating mass yields exponential weight savings as compared to simply lowering static vehicle weight.
- Balance &#; The forging and machining processes employed by Sonnax result in a yoke that arrives balanced and ready to install right out of the box. This is not the case with the cast Spicer yoke.
Time Savings &#; Since no balancing is required, valuable time and money can be preserved and spent on other areas of the build.
While the data shows the compared parts are equal in torsional strength, it is evident that Sonnax flange yoke has considerable advantages that make it the head and shoulders victor in this showdown.
Correct my terminology here.. a U joint is the entire joint consisting of the plus shaped part and both yokes or is a U joint the plus shaped part only? Are the two Y shaped parts always called yokes or only if they have straps or U bolts?
So am I correct that the whole point behind flanges is that both halves of the u joint are pressed together at the bench, so that both yokes are solid. Because you can't really press the u joint together under the truck. So if you don't use a flange, one of the yokes has to have a strap or a U bolt which is weak.
So when you see the term CV flange, its refering to the design of the yoke part of the flange not the not the mounting surface, correct?
So the strongest drive shaft design would have flanges at both the TC and pinion ends? Could you/Would you use a CV joint at each end also?
Now that you mention it, I have seen the toyota flanges at the axle before. No one I know has rockwells
Let me make sure I understand what you are saying. A flange has two parts right? One is splined and fits on the shaft of the TC or the pinion. The other half has a solid yoke,(no straps or u bolts), that makes up part of the joint. these two sections bolt together.Correct my terminology here.. a U joint is the entire joint consisting of the plus shaped part and both yokes or is a U joint the plus shaped part only? Are the two Y shaped parts always called yokes or only if they have straps or U bolts?So am I correct that the whole point behind flanges is that both halves of the u joint are pressed together at the bench, so that both yokes are solid. Because you can't really press the u joint together under the truck. So if you don't use a flange, one of the yokes has to have a strap or a U bolt which is weak.So when you see the term CV flange, its refering to the design of the yoke part of the flange not the not the mounting surface, correct?So the strongest drive shaft design would have flanges at both the TC and pinion ends? Could you/Would you use a CV joint at each end also?Now that you mention it, I have seen the toyota flanges at the axle before. No one I know has rockwells
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