Handy Excel Formula Predicts Useful Barrel Life
How long will a barrel last before the accuracy “goes south”? There are so many variables involved (powder type, bore diameter, bullet coatings etc.) that it’s hard to predict. You might say “Well, my buddy has a .243 and he got 1500 rounds before the throat was shot out” — those kind of comparisons can be useful, but they’re not very scientific, and they won’t help much if you’ve got a gun in a new chambering (such as the 6.5×47) for which long-term test results are lacking.
Is there a more reliable way to predict barrel life — one that will work for a broad range of calibers? Well, Forum member MikeCr has developed an Excel spreadsheet that accounts for a number of variables, and gives a pretty good estimate of useful barrel life, whether you’re shooting a .223 Rem or a 338 Lapua Magnum. Mike’s program predicts barrel life using five variables: 1) Bullet Diameter; 2) Powder Charge weight; 3) Powder Heat Potential (KJ/kg); 4) Pressure (in psi); and 5) Bullet Coating (yes/no). Mike provides a table with Heat Potential ratings for most popular powder types. The user needs to know the pressure of his load. This can be estimated with QuickLOAD.
You can download the lastest version of Mike’s spreadsheet below. You’ll need Excel or an Excel viewer to open the file.
Click to Download Spreadsheet: Barrel Life Spreadsheet (Latest Version)
Shown below is Mike’s Spreadsheet, with variables for a 6BR shooting 105gr “naked” bullets with 30.3 grains of Hodgdon Varget powder. The formula predicts 2401 rounds of barrel life. That corresponds pretty well to what we’d expect for a 6BR — about 2500 rounds.
Mike observes: “There has been alot of discussion lately related to cartridge design and resulting barrel life. This is a really important factor to consider amongst a myriad of choices. Barrel life is controversial, and subjective. There are no clear-cut standards for comparison. But a few years ago, I put together a spreadsheet based on Bart Bobbit’s rule of thumb. It worked pretty good, only occasionally failing some tests when validated against posted barrel lives.
According to Ken Howell, I had to account for pressure. And Henry Child’s powder temperature testing provided another piece needed. So, I’ve tweaked it here and there to pass more tests. From 223rem to 300 UltraMagnum. Another element added, but turned off is shot interval. I would need way more tests to lock in on this. But everyone knows, the faster you shoot, the worse the barrel life.
Anyway, another factor hard to define is ‘accurate’ barrel life. This cannot be quantified without standards. Barrels are replaced when expectations are no longer met. I feel that a [barrel] passes peak potential in a finite period due to throat erosion. But that don’t mean it’s toast, if it still shoots well enough. It’s just as likely that many of us never see that peak potential anyway. It’s a slippery thing. Point-blank BR competitors will toss a barrel when it leaves the 1s. I could get another 4000 rounds from it, and be content with its performance, I’m sure.”
NOTE: Mike says: “This spreadsheet may show a lower barrel life than you prefer. But it pretty well spotlights cartridges to stay away from if you plan much time at the range or in dog town.”
Editor’s Comment: We want to stress that Mike’s spreadsheet is a helpful tool, but it is not a definitive “take-it-to-the-bank” indicator of barrel life. Mike cautions that predicting barrel life involves so many different factors (including how hot the barrel is run), that the task is a bit like predicting tread life on car tires. Still, the spreadsheet is very helpful. It can certainly put shooters on notice that some chamberings (such as the 6-284) are likely to be a barrel burners. That can help you make a smart decision when choosing a chambering for your next rifle.
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Tags: Barrel, barrel life, Excel, Spreadsheet
Mike, if you’ld shoot me email, I’ve some improvements you might like for your Accuracy Life program.
BK
I can not see all the heat potential in the comment box. Is there a way to find these values?
Thanks
I’d appreciate your info Bruce. Can I have your email address?
Dave, the list of heat potential is a comment assigned to the entry cell. It should pop up as you move your cursor over it.
Also interested in full list and the source of the info
Thanks
I had the same problem. Right click cell, show comment. Tools, unprotect sheet. Right click cell, edit comments, pull the corners to make the box bigger.
bn_king [at] bellsouth.net
Thanks for the unprotect tip. I am so use to protected spread sheets requiring a password I didn’t even check.
Dave
Mike, do you have the heat potential number for Retumbo Powder?
Thanks
Really neat little bit of math. How was the difference for moly-treated projectiles quantified?
I read that most barrel life worked out to around 8 seconds plus or minus a bit.
This time is total time that bullets are traveling in the barrel.
I punched a few numbers in a calculator and it looked like it was about right.
It, the numbers seemed to work with very different guns and calibers and even some that were measured in inches or millimeters.
As always your mileage may vary.
Great little tool, but you might want to get you units and terms fixed though.
psi, not Psi
kJ/kg, not KJ/Kg
Either ‘heat of explosion’ or ‘calorific value’, not ‘heat capacity’.
Also, as I can’t see the formula used, how are you figuring in the effect of bullet frictional reducers (moly, etc)? Are you using the fact that their use will lower shot-start pressure and hence peak pressure for a given charge mass? Seeing as most barrels will be retired from use due to throat erosion and not bore wear, the effect of moly coating on barrel wear has always confused me? To get the required velocity means, for the same propellant type, upping the charge mass, which negates the advantage of the reduced shot-start pressure? Though I suppose such coating could be used to reduce bore (copper) fouling?
Unable to load the spreadsheet.
EDITOR: Here is the direct link, http://accurateshooter.net/Blog/barrellifeupdate.xls . Note this is a very small file and should download almost instantly. It is a MS Excel file. You will need a program capable of opening Excel files. If you can’t find the spreadsheet after right-clicking on the link, check your default download folder for your browser.
Neil,
I think Moly increases barrel life by decreasing the bullet’s dwell time in the throat. Just like using lighter bullets.
Barry,
Yes, I quite agree, the lowered friction, would lower the time period the projectile is in the throat area as the shot-start pressure is lowered, it starts moving earlier. You still have the problem where you need a bit more propellant to attain the same velocity due to the slight mis-mash of the powder burn rate, the gas producton rate is not optimised to the bullet type. Perhaps a slightly faster buring propellant should be used, as per lighter bullets.
The moly adjustment is also due to LATENT HEAT provided specifically with moly(not other coatings). This reducing local/throat temps.
But moly, and other coatings, may increase area that peak pressure is applied to. I don’t know that one(need a strain gauge to see it).
Mikecr,
That’s very interesting, I’d not heard of the moly coating working in that way. I’ve heard of TiO2 and some plastic materials being used to form a thermal barrier between the propellant gas products and the barrel in larger (artillery/tank) weapons, but not moly. Has any research been down to verify the effect or other materials used?
moly has all but disappeared from high power shooting, turned out to be a waste of time and money.
The reason you have to adjust charge upward with moly is cooling of combustion -not reduced friction.
e.g. this is not seen with WS2, and I haven’t read of it yet with HBN.