A preface to twist: rifling

Before we talk to much about twist rates, we also need to talk about rifling the mechanism that creates the twist.

Rifling refers the the groove in a barrel of a firearm which causes the bullet to spin as it leaves the firearm. Spin creates a gyroscopic force which in turn stabilises the projectile while in the air its similar to the concept behind spinning a wheel andholding it by its axis it naturally wants to return to an up and down alignment the spin is creating its own stability.

Twist imperial strikes again!

Twist rate is the distance the rifling takes to complete one full revolution expressed in inches i.e. 1 in 10, 1 turn in 10 inches. Shorter is faster and imparts a faster spin rate.

Bigger Bullets, more spin required

Generally, the bigger (longer, which means heavier) the projectile, the more spin it is going to require to stabilise it. A 168 grain projectile is going to need a much short twist rate than a 60 grain.

When it comes to design considerations, manufacturers will often match a barrel and caliber so that the twist rate is going to be suitable to stabilise the majority of projectiles the owner is likely to want to shot through it.

To little twist rate and the bullet can start to tumble mid flight the results in keyholing targets where the bullet cuts rectangular shaped holes in the paper. Accuracy also goes out the window. Too high and you can start damaging the barrel and potentially causethe projectile to basically self destruct mid flight as the jacket starts to spin apart.

Did you know your bullet is actually bigger than your barrel?

Its an interesting thought. When we pull the trigger, pressure quickly builds and results in the projectile heading at high speed down the throat towards the rifling. At this point it will have expanded slightly from the pressure and enters the rifling. Theprojectile now gets engraved by the rifling  beginning the spin.

This is why some firearms have freebore freebore helps keep the pressures low by having the gas expand before the projectile engraves. However, minimising this freebore can mean more accuracy it reduces the potential for the projectile to distort before enteringthe rifling.

Getting the right twist rate

For most off the shelf rifles twist rate is going to be already matched to common projectiles by the manufacturer. However, if you have a specific use in mind, which can lead to a specific bullet weight, then it wont hurt to also check that the twist rate is goingto be optimal.

These days there are plenty of online calculators (such as here) the formula used is called The Greenhill Formula.

T=150(d/r), where T is the twist rate, d is the bullet diameter, and r is the bullet length to diameter ratio (bullet length divided by its diameter). For cartridges with a muzzle velocity of more than 2,800 fps, substitute 180 for 150.

Lets use a common example .308 168 grain Sierra Matchkings. Thats .308 diameter and 1.210 long. 3.929 ratio.

T =150 x (.308/3.929) = 150 x 0.078 =11.76

Thats an ideal twist rate of 1:11.76 close to 1:12 a common twist rate for .308 rifles.

Thats a match for my new Rem700 Varmint in .308 also why I am going to start my reloads based on a 168 Sierra Projectile. It also means I likely wont have much luck going any heavier in projectiles.

Common twist rates by calibre