What Makes TSS So Efficient? A Shotshell Maker Explains

Editor’s be aware: Nick Charney is an engineer by commerce and a self-taught shotshell maker. He works with Apex Ammunition, serving to to construct their TSS, metal, and TSS-steel blended hundreds. This text was compiled by Charney with assist and experience from the shotshell engineers at Apex.

On account of its density—18.1 g/cc (grams per cubic centimeter)—TSS (tungsten tremendous shot) is an environment friendly killer of turkeys, waterfowl, upland birds, and predators. The heavy weight of TSS is leveraged to make use of smaller pellet sizes than lead, bismuth, or metal, delivering denser patterns downrange whereas rising penetration and power on the goal. The smaller pellets additionally scale back wind resistance, which causes all shot to lose velocity, and power. The result’s a pellet that maintains its power longer with out dropping its form (as a result of it’s so laborious), creating extra constant patterns and clear kills—assuming shooters maintain up their finish of the discount.

In fact, the lethality of TSS comes at a value. At the moment the worth per pound of the non-toxic shot is round $45 in comparison with $36 per pound for Hevi-Shot (12 g/cc), $15 to $20 for bismuth (9.7 g/cc) and $2 for lead (11.34 g/cc) and metal (7.8 g/cc). It’s the costliest shot ever engineered: you’ll be able to pay over $10 per shell. However its effectiveness is the ultimate. And there are steel-TSS stacked loads which are a way more reasonably priced (round $1.40 per shell) means for hunters to shoot tungsten.

The Fundamental Constructing Blocks of TSS

A basic rule of TSS load development is to take a lead pellet and scale back the shot dimension by two to 4 sizes relying on the quarry. For instance, a No. 2 TSS pellet may be an efficient predator spherical as in comparison with a BB lead load, and No. 9 TSS is a typical selection for turkey hunters in lieu of a No. 5 or 6 lead. There are a lot of efficient TSS shot sizes for all authorized recreation, however if you start constructing a tungsten load, that is the primary hurdle to clear.

Climate and area of the nation, in addition to the seasons for which animals can be most distinguished, is a predominant think about load growth. For turkeys, producers choose a pellet dimension from 7½ to 10, though 9s are the preferred. Waterfowl fall throughout the identical pellet vary, however the simplest load will depend on the scale of the hen and time of yr (waterfowl develop down feathers later within the season, making pellet penetration harder). Upland birds will also be taken with the identical shot sizes. For predators, the commonest shot sizes are BB, 2, or 4, though 2s are the preferred. For hogs or anybody who run canine on deer (the place authorized), BB is the commonest because of its huge knockdown energy and skill to penetrate conceal and bone.

To offer you a greater visible of the effectiveness of TSS, I ran some frequent pellets sizes for capturing TSS, lead, bismuth and metal on waterfowl, turkeys, and upland birds by way of a ballistics software program program. Pay shut consideration to the column “Vitality Density on the Goal” above. (Vitality density is power divided by the cross-sectional space, or floor dimension.) Primarily, it means that you can examine the power delivered on the goal as if all of the pellets within the desk had been the identical dimension. The U.S. Fish and Wildlife Service performed a examine the place they shot greater than 4,000 mallards with numerous hundreds in a managed atmosphere and decided that an power density of 235 ft/lb./inch squared killed geese over 95 p.c of the time. (Sadly, that examine just isn’t printed on the web, so I can’t share a hyperlink to the outcomes.)

For penetration, the hundreds within the desk had been examined in 10 p.c ballistics gel (10 and 20 p.c are commonplace ballistic gel densities). It takes about .5 inches of gel penetration to kill a dove. For geese, it’s 1.5 inches, and a pair of.25 inches for geese. In fact, that may be subjective from hen to hen, relying on quite a lot of components. However generally, these penetration depths end in a deadly load.

Balancing Bore Diameter with Shot Measurement

The subsequent variable for ammo makers is to find out what gauges the shotshell can be obtainable in. Smaller gauges carry smaller payloads, but in addition restrict the shot sizes that can be utilized because of bore diameter. When too giant of a pellet is utilized in a smaller bore, an impact often called “bridging” can happen the place two or extra pellets turn into interlocked as they journey down the barrel. When this occurs with pellets as laborious as or tougher than the metal barrel (metal shot, TSS, and virtually all tungsten shot alloys), it might harm the gun or choke tube. For shot softer than metal, similar to lead or bismuth, the lead can deform or the bismuth can fragment, creating inconsistent patterns. To maintain TSS hundreds secure, BB is the biggest shot dimension utilized in 10 and 12 gauges with No. 2s in 16 and 20 gauges, and 4s in 28-gauge. Within the .410-bore, it’s tough to ship a viable payload with something bigger than 7½s. However when you completely stack them on prime of one another so bridging can’t happen, bigger pellet sizes could possibly be used within the .410. The important thing takeaway? Balancing bore diameter with shot dimension and obtainable payloads creates the premise for the event of a viable TSS shotshell.

Which Shotguns Can Be Used with TSS?

Since TSS is such a tough pellet, it can’t be shot by way of Damascus metal barrels, or older weapons not manufactured with trendy low carbon metal (solely bismuth and Kent Tungsten-Matrix are secure for such smoothbores). Whereas many weapons from the Nineteen Forties on had been constructed with any such metal, they don’t seem to be marked for metal shot as a result of lead was nonetheless authorized. It remained the dominant pellet materials because of density, value, and availability, and there was no have to mark the barrel for metal use. Most firearms produced after the lead ban are marked for metal use or “proof.” Nevertheless, many weapons made previous to that period can safely shoot metal and TSS.

With any firearm, it’s important to evaluate the situation, most payload it might deal with, and its constructed supplies to find out whether it is viable to be used with TSS. A major instance is the unique Browning Auto-5 and whether or not it has a Belgian- or Japanese-made barrel. The latter was made from a stronger metal alloy able to dealing with tougher shot materials. As a precautionary measure, it’s best for older firearms to be inspected and evaluated by your native gunsmith prior to make use of.

Along with assessing older weapons, modern-day firearm manufacturing is taken into consideration primarily based on gun tolerances, in addition to the kind of motion used (single shot, break-action, pump, or semi-auto). There are quite a few firearms producers that construct shotguns. Every one has its personal design and specs, so when ammo makers are mass producing a shotgun shell, we should guarantee that it’s going to cycle by way of as many of those weapons as potential. For instance, the corporate I assist construct TSS shotshells for, Apex Ammunition, predominately roll crimps their rounds for a customized shell size, due to that, we have to assess whether or not the shell size of an expended hull will reliably eject from right this moment’s semi-autos.

Balancing Payload Measurement with Smaller Pellets

The core density of TSS can energize smaller bore weapons such because the 20, 28, and .410, however there are limitations to payload weight and shot dimension. Smaller TSS pellets could possibly be packed right into a 3-ounce-plus load in a 12-gauge or over 2 ounces within the 20. However it might end in a slowed muzzle velocity (between 700 and 900 fps) and will finally harm inside metallic elements of the gun, just like the recoil spring and the bolt, as a result of weapons aren’t designed to deal with the excessive chamber pressures that will be created by firing such heavy payloads. Bigger shot sizes in smaller bores can’t obtain the identical cost weight as a result of the pellets are so massive. That creates more room between pellets, so the general pellet depend suffers as nicely.

Weighing the Payload Makes TSS Extra Efficient

With smaller TSS pellets, similar to 7½s, 8s, 9s, and 10s, ammo makers need to be extra exact of their measurements because of pellet settlement. Pellet settling creates a possible for extra voids between pellets. The voids can throw off your shot cost, making a heavier payload, which may exceed SAAMI pressure standards, degrading patterns and doubtlessly damaging your gun. There isn’t a extra correct methodology to loading shot fees than a scale. Most trendy business loading is completed by volumetric measurement utilizing a pneumatic in-line loader. Nevertheless, small TSS pellets can settle in another way (so can metal, lead, and bismuth) underneath the quantity loading methodology, doubtlessly leading to inconsistent shot fees. The burden-based methodology provides a level of accuracy inside plus or minus one pellet each time.

How TSS Shotshells Are Manufactured

Roll crimping TSS shotshells permits for a customized tailoring of the shell size to the payload. Fold crimping reduces the necessity for an overshot card (positioned on prime of the shot cost earlier than roll crimping) however wants an actual quantity of elements contained in the shell to crimp it correctly. You additionally should take into account crimp depth. Should you crimp the shell too deeply, it might trigger the chamber stress to extend as a result of the cost should push open further plastic. Utilizing a hand-trimmed hull permits for a clean roll crimp and customized size to make sure correct biking in semi-autos and pumps. It additionally higher protects stray pellets from escaping the wad and contacting the barrel in the course of the firing course of.

Since TSS is the toughest pellet materials in shotshells, the barrel and choke want safety from it to stop scoring and harm, simply because it does with metal shot. To perform that, a high-grade wad have to be used. It will probably forestall the pellet from contacting the barrel, and needs to be versatile sufficient to soak up the influence of the pellets hanging the wall of the wad so that they don’t penetrate it. The wad additionally should create an hermetic stress seal contained in the barrel to attain the right velocity. The tradeoff is that these wads are a lot thicker and heavier than those utilized by softer metals like lead and bismuth. TSS wads create greater chamber pressures as a result of there may be extra friction between wad and barrel. As a result of the wads are additionally heavier, TSS shells should both have lowered payloads, velocities, or various powders to regulate the burn price.

Why Some TSS Masses Want a Polymer Buffer

Small TSS pellets—7s to 10s—have to be buffered to carry out correctly. TSS is difficult, so in contrast to comfortable lead shot, it gained’t take in the power of one other pellet because the payload travels down the bore of a shotgun and out the muzzle. Reasonably, the pellets bounce off each other. Think about throwing a handful of bouncy balls down a hallway—that’s what unbuffered TSS appears like exiting the muzzle of your shotgun. Bigger TSS shot doesn’t want a buffering agent as a result of it’s so heavy. 

Controlling the Burn Charge of TSS

The powder, or propellant, is one other key element within the design of TSS. Shotshell powders are primarily small flakes or balls, they don’t seem to be extruded like rifle powders. How briskly powder burns impacts chamber stress and shotshell velocity. There are two kinds of powder: single base (which accommodates nitrocellulose) and double base (nitrocellulose and nitroglycerine). Most trendy shotshells use double primarily based powders, that are both ball or flake model powders that improve power. The ratios of those chemical compounds permit the powder to be tailor-made to a selected burn price. The dimensions of the granules, and their relative floor space have an effect on the burn price as nicely, making a managed explosion to make sure consistency with every ignition. The result’s a payload, shot sort, inside elements, and burn price that come collectively to create a viable velocity (1,050 to 1,500 fps for TSS, relying on what sort of recreation you’re searching) whereas additionally balancing chamber pressures (roughly 10,500 to 14,000 psi) for a secure and efficient spherical. Too sizzling of a powder burns too shortly and creates extreme chamber stress; too sluggish and the specified velocity can’t be achieved.

Primers all sometimes observe the identical design however ignite a flame at assorted temperatures. Waterfowl hundreds use a warmer primer as a result of they’re typically shot in chilly environments and should burn quicker to extend velocity for main shifting targets. Cooler primers are used for turkey hundreds because of hotter spring temperatures, and for a slower burn as a result of the payload is heavier (as much as 2½ ounces). You additionally don’t want as a lot velocity since you’re aiming at a longbeard, not main a mallard.

Learn subsequent: Long-Range Turkey Shooting Reality Check: Here’s What TSS Patterns and Penetration Really Look Like at 70 and 90 Yards

Balancing primer ignition temperature impacts each how the propellent is ignited and the speed at which it burns. That may drastically have an effect on chamber pressures by hundreds of psi. The hull and base wad design also can affect burn charges, however it’s minimal. Excessive brass (16mm or bigger) bases are sometimes paired with magnum hundreds as a result of powder cost they create.

How TSS Masses Are Examined

Creating any product requires thorough testing. That is very true of shotgun shells. As soon as a shell is created, it undergoes a collection of evaluations to verify it’s 100% secure and persistently performs to the specified degree. A technique it’s security examined is by using an impartial third-party evaluator to measure chamber pressures and velocities (there are skilled firms that conduct these checks). Chamber pressures may be measured utilizing a piezoelectric gauge—which makes use of a crystal to emit {an electrical} cost—drilled into the aspect of a barrel and mounted flush with the barrel wall. A collection of 10 shotshells are fired to show the common chamber stress doesn’t exceed the SAAMI requirements and verifies the speed falls inside a secure vary for the gauge. Any time a number of supplies change in elements, this course of is redone to make sure there are not any variances in efficiency and high quality. Counting on an out of doors get together to confirm the information provides one other layer of security testing. It additionally ensures the shotshell’s outcomes are constant in several places and capturing environments.

After the shotshell is developed and examined, it’s patterned. Testers sample shells from a bench, capturing a stagnant goal at numerous distances from 20 to 50 yards with quite a lot of totally different shotgun and choke mixtures. The purpose is to supply a sample that drops not more than 10 p.c each 10 yards from 40 to 70 yards. They’re additionally verifying that as every sample begins to open, it holds a uniform two-dimensional dispersal. If the sample doesn’t meet these requirements, engineers return to the drafting board.

If it passes, it’s on to the penetration check. That is performed utilizing an FBI-grade ballistics gel block that fashions tissue harm of animals as shut as potential (there isn’t a substitute for capturing wild recreation). The shotshell is fired right into a block at numerous distances to gauge wound channel sizing and penetration in comparison with its examined velocity. With TSS, particularly within the bigger shot sizes, you’ll be able to obtain anyplace from 3 to six inches of gel penetration or extra.

As soon as all the event and testing are full within the lab, it’s time to take it to the sphere and assess efficiency underneath searching circumstances. No product is full with out rigorous area testing within the circumstances during which it is going to be relied upon. As talked about earlier, the environmental components can play a considerable position, particularly with the number of hotter or cooler burning powders and out of doors temperatures. Most sluggish burning powders utilized in heavy magnum turkey hundreds don’t function nicely underneath extraordinarily chilly temperatures (that is subjective primarily based on the primer and powder of the shotshell). For waterfowl, a warmer burning powder is used with a smaller payload to fight chilly.

Retailer Your TSS Masses for Optimum Efficiency

If it’s going to be extraordinarily chilly at night time, it’s all the time clever to deliver your shotshells inside when you’ve got the choice. That helps shield the efficiency of your TSS. At Apex, we run a frozen load check, putting rounds within the freezer in a single day and firing them to make sure the primers ignite. Masses are additionally distributed to pick hunters for in-the-field testing previous to launch. A number of personnel in various climates and places will put them to the check in probably the most excessive environments. Afterward, suggestions is included from the group and last changes are made earlier than the primary pallet is shipped.