This review contains single-test results using the Trident-9 on the HK P30L full-size semiautomatic pistol, chambered in 9mm with a 5-inch factory HK threaded barrel. Speer Lawman 147gr. ammunition was used in the test.

6.8.1 SWR Trident 9 Sound Signature Test Results

A summary of the principal Silencer Sound Standard performance metrics of the Trident-9 is shown in Table 1. The data acquired 1.0 m (39.4 in) left of the muzzle is available for viewing to all. The data acquired 0.15 m (6 in) right of the shooter’s ear is only available to membership supporters of PEW Science and the Silencer Sound Standard. You can support PEW Science testing, research, and development with a membership, here. State-of-the-art firearm sound signature testing and research conducted by PEW Science is supported by readers like you.

6.8.1.1 SOUND SIGNATURES AT THE MUZZLE

Real sound pressure histories acquired with PEW-SOFT™ are shown below. The waveforms are not averaged, decimated, or filtered. The data acquisition rate used in all PEW Science testing is 1.0 MS/s (1 MHz). The peaks, shape, and time phasing (when the peaks occur in relation to absolute time and to each other) of these raw waveforms are the most accurate of any firearm silencer testing publicly available. PEW-SOFT data is acquired by PEW Science independent testing; the industry leader in silencer sound research. For more information, please consult the Silencer Sound Standard.

Closer views of the first peak (Fig 2a) and second peak (Fig 2b) are shown below. Figure 2a illustrates the time prior to primer ignition and early-time sound signature of weapon function, followed by the initial gas pulse. Figure 2b shows points later in time as the maximum sound pressure occurs from the primary combustion event; note that the total timescale is only 0.04 milliseconds (40 microseconds). PEW-SOFT provides a sampling point every microsecond and the individual data points are shown to illustrate this.

The primary sound signature pressure histories for all 5 shots with the Trident-9 are shown in Figure 3a. The sound signature of Shot 2 is shown alone in Figure 3b. Note the same three peak events are labeled for Shot 2 that were previously labeled for Shot 1, above. The real sound impulse (momentum transfer potential) histories from the same 5-shot test are shown in Figure 4a. In Figure 4b, a shorter timescale is shown comparing the impulse of Shot 1 to that of Shot 2.

The measured pressure regime first-round-pop (FRP) is evident when comparing Shot 1 (Fig 1) to Shot 2 (Fig 3b). Figure 4a also shows FRP in the impulse regime, albeit not significantly. As is the case with many semiautomatic suppressed weapon systems, some shots possess higher early-time gas pulses which result in varying PEW-SOFT triggering time between shots. This is clearly illustrated in Fig 4a; the impulse histories for some shots are shifted in time by up to 0.5 milliseconds. The reason for the data acquisition triggering time discrepancy between the shots is the differing sound signature characterized by the aforementioned higher early-time gas pulses. The behavior of the Trident-9 in this test and this somewhat erratically occurring (but consistent in impulse amplitude) early-time gas pulse can easily be seen in the sharp initial impulse rises at a time of approximately 30 milliseconds. Note that the impulse waveforms measured at the muzzle show relatively consistent overall shape and timing over the shot histories.

The consistency of the waveforms measured at the muzzle indicate that the FRP behavior of the silencer measured at the muzzle is most likely a result of the primary shot event and not secondary weapon action-noise sound signature characteristics. However, waveforms measured at the shooter’s ear indicate subsequent non-trivial behavior (PEW Science members can read the continuation of this discussion in the members-only version of this review). The overall shape of the impulse waveforms measured at the muzzle, from shot-to-shot, are extremely consistent, highlighting the silencer’s overall sound performance consistency at the muzzle after the FRP, as well as the relative consistency of the tested semiautomatic firearm configuration.

PEW Science note: First-round sound signatures always differ from subsequent shots, as the atmosphere within the silencer changes. The FRP phenomenon cannot always be shown by viewing only the peak sound pressure. This is one of the reasons why The Silencer Sound Standard requires examining multiple sound signature metrics. Ammunition consistency can play a role in the determination of FRP, however, the close examination of measured pressure and impulse waveforms typically excludes ammunition from the possible factors influencing true FRP, due to the relative consistency of most high quality factory ammunition.

6.8.2 Review Summary: SWR Trident-9 on the HK P30L Full-Size Semiautomatic Pistol

When paired with the HK P30L full-size semiautomatic pistol and fired with Speer Lawman 147gr ammunition, the SWR-Trident-9 achieved a Suppression Rating™ of 53.2 in PEW Science testing.

PEW Science Subjective Opinion:

The SWR Trident-9 is a high performing 9mm pistol silencer intended for semiautomatic handgun use and severe duty use on submachine guns. The external LCD piston assembly functions reliably. On the HK P30L, the absolute magnitude of the silencer’s First Round Pop (FRP) is relatively minimal and its muzzle suppression is excellent. The sound signature of the Trident-9 is sometimes perceived as “higher pitched” by shooters and bystanders, according to PEW Science anecdotal data. PEW Science human inner-ear response research has examined this phenomenon and that research is presented in a members-only Research Supplement.

The main module of the silencer is less than 6.75 inches long without the LCD assembly installed; when using a fixed mount on fixed barrel weapons, it exhibits high sound reduction performance while also being relatively compact. PEW Science has fielded the Trident-9 in its fixed mount configuration for submachine gun use on the M11 and in its 3-lug configuration on the MP5. Both mount assemblies function reliably. PEW Science has not evaluated the use of the Uzi barrel-nut mount.

The Trident-9 is relatively light weight for a full-size pistol silencer and is one of the first commercially produced centerfire pistol silencers with a modular mounting system; earlier non-modular iterations of the design had SWR model designations QD3 and QD3K. It is also one of the first major commercial centerfire pistol silencers with a stainless steel blast baffle. Unburned pistol powder and combustion products generated during use on centerfire handguns may damage less resilient silencer blast baffle materials, such as aluminum. This potential wear can be exacerbated with fixed barrel weapons, the use of which may dictate more aggressive firing schedules. PEW Science has fielded the Trident-9 in 9mm automatic fire and noted no blast baffle damage.

The silencer is not user-serviceable. Users of the Trident-9 are encouraged to use 9mm ammunition that possesses fully-encapsulated bullets, rather than bullets with exposed lead bases, such that the vaporization of lead during firing does not result in excessive buildup over time and with severe fully automatic fire. While it is possible to disassemble the Trident-9 by applying heat to the end-cap assembly and modifying the silencer to remove the assembly, this is not recommended. Furthermore, it has been anecdotally reported that the incorrect re-assembly of the internal components may significantly compromise suppression performance. Proper longer-term maintenance of the now out of production Trident-9 is a subject of continued research interest.

In this review, the Trident-9 performance metrics depend upon suppressing a full-size combat handgun firing a full-power subsonic centerfire pistol cartridge. This type of evaluation provides a potential upper-bound for typical real handgun silencer performance due to the barrel length and action dynamics of the host weapon. PEW Science encourages the reader to carefully consider action dynamics, barrel lengths, and other characteristics in the selection of centerfire pistol silencer hosts.

The hearing damage potential of centerfire pistol use is significant. PEW Science encourages the reader to consider the Suppression Rating when deciding on an appropriate silencer and host weapon combination for their desired use. Note that the presence of nearby reflecting surfaces, as well as ammunition choice, can influence the sound signature perceived by both the shooter and bystanders.