Forum Member Invents New Compact Annealing Machine
South African Pieter L.R. (aka “Baboonstalker” in our Shooters’ Forum), has crafted an impressive single-torch annealing machine with a compact footprint. Pieter’s new KinetiX Precision Annealer holds cartridge brass cases in a dished carousel (wheel) machined from billet. An electric motor advances the carousel while a separate belt-driven spindel rotates each case when it in positioned in the flame. The standard wheel holds cases up to .308 bolt-face in diameter, and Magnum wheels are available.
Precision Mount for Torch-Head
One of the most impressive features of the new machine is the 4-way mount that holds the torch tip. This adjusts for height, flame angle (up/down), and flame distance to case. It can also rotate around a vertical axis. The mount looks like something NASA would produce for vectoring rocket thrusters.
Compared to some other annealers, Pieter’s KinetiX unit is quite compact, with a small footprint. The entire unit (less torch) would fit in a large hat-box. Pieter kept the footprint small by placing all the drive motors and gears under the carousel, rather than off to the side. Pieter optimized his machine for a single torch: “Dual torches are good on some other models to distribute the heat around the neck or to get longer exposure time on the constant-motion models. On this model the case turns in the flame so i do not see a real need for a secondary torch. However, if you want two or more torches i would be more than happy to add brackets for them.”
Basic KinetiX Annealer Will Cost $540.00
Pieter plans to put his KinetiX annealer into production: “I will be selling these units for $540 USD not including shipping, which is about $105 USD for airmail and $35 USD for surface mail. I hope to have my own website up and running soon but you can reach me on gokinetix[at]telkomsa.net in the meantime.” The $540.00 price includes the annealing machine, speed controller, power supply (100-260V) and standard wheel which up to .308-rim-diameter cartridges (including 284s). Pieter tells us: “I have tested [the standard wheel] down to .22 Hornet, but anything that sticks out above the plate (7/8″) should work fine. If you have a specific case in mind that does not fit, i can just make up a special wheel for you.” Pieter also plans to offer Magnum wheels for cases up to .338 Lapua, and Super Magnum wheels for cases up to .50 BMG.
This may surprise you. We’ve learned that the time interval between neck-sizing operation and bullet seating can have dramatic effects on neck tension (as measured by the force required to seat bullets). Controlling neck tension on your cases is a very, very important element of precision reloading. When neck tension is very uniform across all your brass, you’ll see dramatic improvements in ES and SD, and your groups will shrink. Typically you’ll also see fewer fliers. Right now, most reloaders attempt to control neck tension by using different sized neck bushings. This does, indeed, affect how firmly the neck grips your bullets. But time of loading is another key variable.
Using a K&M Arbor press equipped with the optional Bullet-Seating Force Gauge, James determined that much more force was required to seat bullets in the cases which had been neck-sized two weeks before. The dial read-out of seating force for the “older” cases was in the 60s, while the seating force for the recently-neck-sized cases was in the 20s. (These numbers loosely correspond to the amount of force required to seat the bullet). Conclusion? In the two weeks that had elapsed since neck-sizing, the necks continued to get tighter and stiffen.
