Aldila XTorsion Golf Shaft Review

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Aldila XTorsion Copper & XTorsion Green  Shaft Review

By Russ Ryden, Fit2Score, A Dallas Fort Worth Club Fitter & Club Maker
The Highlands Performance Golf Center, Carrollton Texas 
Golf Digest Certified America’s 100 Best Club Fitter

The Aldila Xtorsion driver shaft have a clearly visible woven material in the lower half of the shafts. Aldila calls the material, MAMBA, Multi-Axial Material Bias Angle technology. It is woven at a 45 degree angle which provides torsional stability to the lower half of the shaft where it is most important. This can be seen in the GJ or torsional profile of the shafts. The GJ profile tips downward from the mid section to the tip. I also see high and stable hoop strength resulting from the woven material. This is similar to the woven section of the Mitsubishi Tensei Pro shafts that is located just below the grip. When I look at the Xtorsion Copper EI profile I am reminded of the very popular EI profile of the Nippon Modus 120’s.

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Russ

Golf Shaft Bend Profile Signature

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EI BEND PROFILE SIGNATURE

By Russ Ryden, A Golf Digest America’s 100 Best Clubfitter
Fit2Score, Dallas Fort Worth, Texas

This term is the best I could come up with for a way to look at shafts that Kim Braly taught me several years ago.  You will often see him making presentations about the change of stiffness from point to point on the KBS steel iron shafts.  Kim describes his shaft designs as a perfect whip, uniformly loosing stiffness from point to point, butt to tip.

FlexuralSignature

In this illustration of the KBS C Tour shaft the EI profile is shown next to the Bend Profile Signature of the shafts.  You can see how the bend profile signature graphic magnifies the bend profile of the shaft. My math savvy friends looked at this and said, oh, you plotted the first derivative, the change in Y with respect to X, or in this case, how much stiffness changes inch by inch, down the shaft.

Don’t assume I understood the math when I created this chart, the idea for this came to me from Kim Braly. He told me in our first meeting, EI is not new, it has been around since the 30’s. He built his first EI instrument by cutting a hole in a desk. Ok, I can see where that would work. He said what you need to focus on is change of stiffness down the shaft.

My signature chart, the first derivative, is just that, how much does the shaft stiffness change from point to point down the shaft. It is actually the inch by inch slope down the shaft. Stiffness is removed, only the change of stiffness is shown. This is, perhaps, the most important metric for shaft fitting. However, I have never seen it outside of my software. But when you look at charts like the one below, you know some shaft designers are looking at it.

The graph on the left shows the EI profiles of the 2013 Mitusbishi Diamana B, the third generation of the Blue Board design.  Each shaft has a different stiffness.  The illustration on the right charts each of these shafts by showing change of stiffness from point to point.  The absolute stiffness is removed and what is left is an understanding of how the model bends.  Each of the shafts has essentially the same bend profile despite the fact that they are different weights and flexes.

FlexuralSignature2

By comparing shafts with this graphic a club fitter can easily understand the differences between shafts that would otherwise be clouded by weight and flex differences.  And by looking at the uniformity of all of the weights and flexes of a model, can quickly see if and when the designer changed the bend profile.  This often happens with different weights of a model.

Throughout this site you will see EI bend profile signatures used to highlight and explain differences in designs.  Having spent years looking at shafts from this perspective terms like kick point or bend point have come to have little meaning. In fact while doing research for a question I was asked, I found this quote in Total Clubfitting in the 21st Century. My copy was published by Dynacraft in 2007. “Additionally, the effect of bend point and kick point on ball flight now is considered marginal.”  Chapter 7, page 92.

We often see shafts with multiple hinges or knees for want of a better word.  By knowing the bemd signature of a shaft and getting feedback about feel from the golfer, a good fitter understands how a shaft will feel as well as how it will shape ball flight.

Graphite Design Series G Golf Shaft Review

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GRAPHITE DESIGN SERIES G

By Russ Ryden, A Golf Digest America’s 100 Best Clubfitter
Fit2Score, Dallas Fort Worth, Texas

GraphiteDesign_2013_G_Image

The Graphite Design G Series of shafts was introduced in 2011. A large bundle of them arrived recently for review.  The measurements got my attention.  I would put this shaft into the same design group that I see with the Mitsubishi Diamana Blue, the Miyazaki JDL and the Matrix Ozik Xcon.  A soft mid in relation to the tip and butt.  This fit is generally suitable for the golfer with a quick, aggressive transition.  We can see this by looking at the average EI and GJ profiles of the Graphite Design G Series.

The technical discussion and measurements are available only to registered readers

The key to the radial quality and respectable torque numbers of this shaft may be due to the attention paid to fiber orientation in this shaft.  I lifted this illustration from the Graphite Design website.

GraphiteDesign_2013_G_XDirectional

There are 6 different fiber orientations used in this shaft.  The bias plies are at different angles and sandwiched in between the tip to butt, linear fiber plies.  Not all plies extend the full length of the shaft, But from a measurement perspective, the layup works.  With radial quality numbers like these, this shaft, even in the light weight models, is suitable for the rotating hosels in todays current generation of driver and fairway designs.  Looks like were are going to have to take some of these to the range and see what they feel like, stay tuned.

 

When I entered the golf club fitting business about 15 years ago, there was not a standard rating system for golf shaft stiffness. Nor was there a way to compare golf shafts. This journal gives you a way to compare golf shafts with a uniform stiffness rating evaluation. Understanding the properties of a golf shaft which is your best fit leads to a better game.

Describing golf shaft properties is not a simple task. Shaft company marketing developed terms, “kick point”, “stiffness”, “launch” and “spin” to describe shaft properties. These terms developed into a mythological language for describing golf shafts. Shaft engineers and designers define golf shaft stiffness as a profile, the change of stiffness down the length of the shaft. Many years ago a tour of a shaft company R&D lab enlightened my understanding of golf shaft technology.

That lead to me designing and manufacturing a very accurate shaft stiffness measuring instrument. It is now used by several shaft companies. I have been writing about shaft properties for 10+ years. The term EI profile, is now part of the discussion some shaft companies are having with golfers.

If you want to understand golf shafts you have come to the right place. Here you can learn why some shafts work better for you than others. And more important, how to recognize the properties of shafts that make you a better golfer. Please share your comments about what you experience with the shafts reviewed.

A system which defines the distribution of flex down a golf shaft is how most shaft companies design golf shafts. But the information, for fear of giving that information to their competitors, is not shared with the public. It took a few years to refine my measurement instrument and many, many years to acquire and measure the popular golf shafts. This journal provides you with uniform measurements of thousands of golf shafts. If you are new here, the TECHNOLOGY MENU is a collection of articles that will guide your understand golf shaft design.

This journal is entirely supported by subscription. To insure my integrity, there are no ads on this site, that allows me to remain unbiased in the articles. If you believe as I do, that your golf shafts are essential to good golf, please subscribe. Acquiring shafts, measuring them and writing articles takes a great amount of time. Your subscription underwrites the time and resources needed to keep this journal going and growing.

This video is a detailed discussion about golf shafts stiffness and the history of how they were measured and marketed. It is one of many videos about golf equipment technology and golf club building on my youtube channel, Devoted Golfer.

It took years to understand shaft measurement and many more years to accumulate a meaningful database of shaft measurements. The magnitude of that accomplishment did not occur to me until a golf shaft company owner said it to me. Several golf shaft companies now use the EI measuring instrument I designed and manufactured. If you are a golf professional and would like access to more data there are two choices. Golf Professional subscribers get access to a larger set of data and individual profiles of all the shaft model weights and stiffness variations that were made available. Fit2Score Affiliates have access to the entire database through Excel. To hear a podcast interview I did about golf shafts with Tony Wright, a Fit2Score Software Affiliate, Click Here.

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