So, I have a Leupold VX-6 3-18x44 (30mm tube) mounted on a 300 Weatherby. I used Talley Fixed Rings (steel), partly because I liked the smooth low profile/traditional hunting rifle appearance. I was trying to avoid big bulky tactical hardware. And, Talley has a good reputation for making solid scope mounts.
While installing them, although they are 2-piece base/ring units, I liked how solid the rings locked onto the bases, with very little movement allowed even before tightening the screws. I also liked how you could tighten them partially, rotate the scope into perfect alignment, and then finish tightening the screws to spec without the scope shifting/rotating out of alignment (as has happened with other rings I've used in the past).
I had also considered using Talley Lightweight Alloy Scope Mounts. The 1-piece base/ring unit was attractive. However, when I called Talley to ask for their recommendation between the two, they recommended going with the Fixed Rings. Although there's nothing wrong with the Lightweight Alloy Scope Mounts, they are made of aluminum, and so Talley recommended the steel Fixed Rings for maximum strength between these two materials.
Manufacturer torque specs for the rings are 30 inch lbs for the bottom screw, 20 inch lbs. for the top screw. Using a torque wrench, I did 30 on the bottom and put a few extra lbs on the top screw, to 25 inch lbs.
After a few days of shooting about 120 rounds total, I noticed that the scope had shifted under recoil. Of course, the .300 WBY has a lot more recoil than a .223 or .308. The scope moved about 1/4" until the rear ring was against where the scope tube widens for the magnification adjustment (preventing it from moving any farther). After removing the scope and rings, I found that a fair amount of the black finish was worn from both the scope tube and inside of the rings from the slipping. Aside from the frustration that the finish was worn, I did notice that the wear was perfectly even across the entire interior surface of the rings. I think this illustrates that they had perfectly even contact... they just couldn't hold on under this recoil.
I called Talley about this for guidance. I wondered if the rings just needed to be tightened a little more, perhaps 35 inch lbs. for all screws, or until the slipping stops. But, Talley recommended not tightening them beyond the original specs, and instead recommended reinstalling the scope and adding some silicone adhesive or fingernail polish to help adhere the rings to the scope to stop the slipping.
I'm not sure what to think about this. Is using silicone adhesive or fingernail polish to adhere scope rings to scopes a common practice? This sounds like a "duct tape solution" to compensate for a product weakness. I think scope rings should be able to hold onto their scopes without having to be literally glued to them. And, it's going to be frustrating trying to install the scope with adhesive applied, adjust for alignment, shoot to zero the scope, shoot a tall target test for reticle/bore alignment, adjust as necessary for perfect bore alignment... all while the scope may be slipping before the adhesive has set up... and yet complete these adjustments before the adhesive sets up permanently preventing further adjustment.
Although Talley recommended staying at their basic torque specs (30/20 bottom/top), how much torque is acceptable before it becomes dangerous for damaging the scope? Typically, when you hear that a scope is slipping in the rings, the conclusion is that the rings aren't tight enough and the solution is to tighten them. The weakest torque spec in this setup is the top screw at 20 inch lbs, which I don't think is a lot, and I would like to think it could handle some more torque. So, I really just want to skip the adhesive and tighten the screws more, but I'm also concerned about contradicting the manufacturer's recommendation.
What should I do?
1. Apply the adhesive as Talley recommended and leave the screws at spec torque.
2. Don't use adhesive and crank those ring screws tighter (beyond manufacturer specs).
3. Return the rings and try the Talley Lightweight Alloy Scope Mounts, which use twice as many (4) screws (even though Talley said these weren't as strong as their steel Fixed Rings).
4. Return the rings and try tactical rings, like the Talley Tactical Picatinny Rings (although these are a lot bulkier than I'd like).
Thanks in advance for your suggestions, I'm stumped!
While installing them, although they are 2-piece base/ring units, I liked how solid the rings locked onto the bases, with very little movement allowed even before tightening the screws. I also liked how you could tighten them partially, rotate the scope into perfect alignment, and then finish tightening the screws to spec without the scope shifting/rotating out of alignment (as has happened with other rings I've used in the past).
I had also considered using Talley Lightweight Alloy Scope Mounts. The 1-piece base/ring unit was attractive. However, when I called Talley to ask for their recommendation between the two, they recommended going with the Fixed Rings. Although there's nothing wrong with the Lightweight Alloy Scope Mounts, they are made of aluminum, and so Talley recommended the steel Fixed Rings for maximum strength between these two materials.
Manufacturer torque specs for the rings are 30 inch lbs for the bottom screw, 20 inch lbs. for the top screw. Using a torque wrench, I did 30 on the bottom and put a few extra lbs on the top screw, to 25 inch lbs.
After a few days of shooting about 120 rounds total, I noticed that the scope had shifted under recoil. Of course, the .300 WBY has a lot more recoil than a .223 or .308. The scope moved about 1/4" until the rear ring was against where the scope tube widens for the magnification adjustment (preventing it from moving any farther). After removing the scope and rings, I found that a fair amount of the black finish was worn from both the scope tube and inside of the rings from the slipping. Aside from the frustration that the finish was worn, I did notice that the wear was perfectly even across the entire interior surface of the rings. I think this illustrates that they had perfectly even contact... they just couldn't hold on under this recoil.
I called Talley about this for guidance. I wondered if the rings just needed to be tightened a little more, perhaps 35 inch lbs. for all screws, or until the slipping stops. But, Talley recommended not tightening them beyond the original specs, and instead recommended reinstalling the scope and adding some silicone adhesive or fingernail polish to help adhere the rings to the scope to stop the slipping.
I'm not sure what to think about this. Is using silicone adhesive or fingernail polish to adhere scope rings to scopes a common practice? This sounds like a "duct tape solution" to compensate for a product weakness. I think scope rings should be able to hold onto their scopes without having to be literally glued to them. And, it's going to be frustrating trying to install the scope with adhesive applied, adjust for alignment, shoot to zero the scope, shoot a tall target test for reticle/bore alignment, adjust as necessary for perfect bore alignment... all while the scope may be slipping before the adhesive has set up... and yet complete these adjustments before the adhesive sets up permanently preventing further adjustment.
Although Talley recommended staying at their basic torque specs (30/20 bottom/top), how much torque is acceptable before it becomes dangerous for damaging the scope? Typically, when you hear that a scope is slipping in the rings, the conclusion is that the rings aren't tight enough and the solution is to tighten them. The weakest torque spec in this setup is the top screw at 20 inch lbs, which I don't think is a lot, and I would like to think it could handle some more torque. So, I really just want to skip the adhesive and tighten the screws more, but I'm also concerned about contradicting the manufacturer's recommendation.
What should I do?
1. Apply the adhesive as Talley recommended and leave the screws at spec torque.
2. Don't use adhesive and crank those ring screws tighter (beyond manufacturer specs).
3. Return the rings and try the Talley Lightweight Alloy Scope Mounts, which use twice as many (4) screws (even though Talley said these weren't as strong as their steel Fixed Rings).
4. Return the rings and try tactical rings, like the Talley Tactical Picatinny Rings (although these are a lot bulkier than I'd like).
Thanks in advance for your suggestions, I'm stumped!
