SSS.6.67 - Diligent Defense Co. Enticer L-Ti and the Savage Model 10 PC .308
/Diligent Defense Co. Enticer L-Ti on a Savage Model 10 .308 with 20-in Barrel
The Enticer L-Ti is designed and manufactured by Diligent Defense Co. It is a 30 caliber centerfire rifle silencer, intended to suppress most cartridges with projectiles appropriately sized to travel through the bore, including 300 Winchester Magnum. It has a 1.625-inch diameter and is 8.5 inches in length when using the included direct-thread adapter. The user may choose to use other third-party mount adapters compatible with the 1.375”-24tpi system. The silencer is tubeless; the baffles are constructed of Grade 5 titanium. The end cap is removable and interchangeable with those designed by Dead Air. The silencer weighs 9.7 ounces without the mount. The included direct-thread mount adds 1 ounce, for a total system weight of 10.7 ounces, as tested. The Enticer L-Ti can be obtained from Diligent Defense Co. (DDC).
PEW Science is an independent private testing laboratory and also the world’s only publicly funded suppressed small arms research cooperative. Testing, data analysis, and reporting is generated with funding provided by PEW Science members. Any test data that is generated with any portion of private funding contains this disclosure. The testing and data production for this Sound Signature Review was funded in part by PEW Science Project PEW-DDC-020-001-21. Therefore, data pertaining to the Enticer L-Ti in this Sound Signature Review is published with the express written permission of Diligent Defense Co.
This review contains single-test results using the Enticer L-Ti mounted with the direct thread mount on the Savage Model 10 Precision Carbine rifle, chambered in .308WIN with a 20-inch barrel. Federal XM80 149gr ammunition was used in the test.
- Section 6.67.1 contains the Enticer L-Ti test results and analysis.
- Section 6.67.2 contains back pressure and Suppression Rating comparisons with selected .30 rifle silencers possessing a PEW Science Back Pressure Metric, Ω [Pa-1] in Omega Zone 5 and above. An updated Ω metric chart for the full suite of publicly evaluated .30 rifle silencers is also provided in this section. Further information about the Ω metric and Omega Zones can be obtained in PEW Science Research Supplement 6.40 (Public Article).
- Section 6.67.3 contains the review summary and PEW Science opinions.
Summary: When paired with the Savage M10 20” .308 and fired with Federal XM80, the Diligent Defense Co. Enticer L-Ti mounted with the direct thread adapter, achieved a Suppression Rating™ of 51.9 in PEW Science testing. As with all weapon systems, the user is encouraged to examine both muzzle and ear Suppression Ratings.
Relative Suppression Rating Performance is Summarized in SSS.7 - PEW Science Rankings
Test data for the compact version of this silencer, the Diligent Defense Co. Enticer S-Ti, can be found in Sound Signature Review 6.68.
6.67.1 Diligent Defense Co. Enticer L-Ti Sound Signature Test Results
A summary of the principal Silencer Sound Standard performance metrics of the Enticer L-Ti is shown in Table 1. The data acquired 1.0 m (39.4 in) left of the muzzle is available for viewing to all. This is a members-only review and includes pressure and impulse waveforms measured at the shooter’s ear. PEW Science thanks you for your support; further testing, research, and development of PEW-SOFT and the Silencer Sound Standard is made possible by members like you!
6.67.1.1 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.
Figure 1 shows a 2.2 millisecond long portion of the first round sound pressure signature of the Enticer L-Ti as measured 1.0 m left of the muzzle. There are four significant waveform features labeled:
Peak amplitude of internal combustion within the silencer reaches 129.8 dB.
The end cap exit event results in an initial overpressure peak magnitude of 140.8 dB.
The first primary jet builds to an amplitude of 135.6 dB.
Low amplitude jetting continues until later time, at which peak FRP is reached (143.3 dB). See Figure 3b.
This is a somewhat typical sequence observed when firing supersonic .308WIN ammunition from a bolt-action rifle with an attached silencer that exhibits high flow restriction (back pressure). Internal silencer design can significantly influence the measured timing and pressure amplitudes. Preliminary back pressure comparisons are shown in Section 6.67.2 of this review, with the PEW Science Back Pressure Metric, Ω [Pa-1].
The waveform shown in Figure 1 possesses early time characteristics very similar to the FRP signature of silencers exhibiting flow restriction (back pressure) in PEW Science Omega Zone 7, such as the Dead Air Nomad-L (Review 6.55), the CGS Hyperion (Review 6.27), the Thunder Beast ULTRA 9 (Review 6.24), and the Otter Creek Labs PR30L (Review 6.48) . Features of sound signatures in this flow regime are characterized by highly decoupled bullet exit events with extreme post-exit amplitude suppression. This behavior is directly indicative of the extreme flow restriction of such silencers. The Enticer L-Ti exhibits a significant peak amplitude delay on this platform.
At the muzzle, the Diligent Defense Co. Enticer L-Ti is quieter than both the Thunder Beast ULTRA 9 and the Otter Creek Labs PR30L on this platform. These silencers are somewhat louder than the Dead Air Nomad-L and CGS Hyperion at the muzzle. In-depth comparisons of the sound signatures from these silencers are the subject of a future PEW Science Member Research Supplement.
The sound signature of the Diligent Defense Co. Enticer L-Ti shares notable similarities with that of the shorter Diligent Defense Co. Enticer S-Ti (Review 6.68), specifically in the early-time combustion signature prior to bullet exit (Feature 1 in Figure 1, above). The internal flow path geometry and wall thickness of the Enticer series is postulated to contribute significantly to this phenomenon. While not a significant signature contribution on this test platform, the influence of such behavior in lower amplitude combustion regimes (e.g. subsonic cartridge suppression) is the subject of ongoing PEW Science research. After bullet shock, the similarities between the L and S versions of this silencer end; the Enticer L-Ti exhibits significantly more suppression of latent jetting than the aforementioned Enticer S-Ti. The back pressure generation of the Enticer L-Ti is postulated to be significant; see Section 6.67.2 of this review.
Like the Enticer S-Ti, The Enticer L-Ti design possesses modified cone baffles with coaxial elements and progressive flow geometry. The presence of these features relieves localized high pressure stagnation and allows for more efficient supersonic gas flow suppression for a given silencer volume. The stagnation relief, in conjunction with significant jetting delay (higher flow restriction; higher back pressure), and other features, allows the Enticer L-Ti to achieve class-leading shooter’s-ear signature suppression on bolt action rifles. The Enticer L-Ti exhibits the highest at-ear Suppression Rating on this platform of any silencer tested by PEW Science, to date. The silencer’s size results in this performance being even more notable.
The muzzle suppression of the Enticer L-Ti is not as extreme as with the Dead Air Nomad-L and CGS Hyperion. This disparity between muzzle and ear Suppression Ratings is not without precedent on the 20-in barrel 7.62x51mm bolt action test platform. Similar disparities are noted in the signatures of the CGS Helios QD (Review 6.13), Rugged Surge (Review 6.22), Q Trash Panda (Review 6.4), Dead Air Sandman-Ti (Review 6.19), and Thunder Beast ULTRA 9 (Review 6.24) on this platform. Typically, these types of disparities are the result of combined wave shape, timing, and frequency components. Comprehensive Suppression Rating comparisons are provided in Section 6.67.2. Specific contributing factors in the Enticer L-Ti signature are subjects of ongoing PEW Science research.
Closer views of the first peak of all shots (Fig 2a) and highest peak of the first shot (Fig 2b) are shown below. Figure 2a illustrates the relative consistency of the internal silencer combustion and end cap exit event between all 5 shots during the test. These waveform feature consistencies in both gross amplitude and wave shape, from shot to shot, are discernable as a result of the high sample rate and raw, unfiltered data stream from PEW-SOFT. Figure 2b shows points later in time during Shot 1 as the maximum sound pressure occurs from the primary combustion event. Note that the total timescale in Figure 2a is 0.315 milliseconds (315 microseconds) and the total timescale in Figure 2b is only 0.1 milliseconds (100 microseconds). PEW-SOFT provides a sampling point every microsecond and the individual data points are shown in Figure 2b to illustrate this.
The primary sound signature pressure histories for all 5 shots with the Enticer L-Ti are shown in Figure 3a. The sound signatures of Shot 1 and Shot 2 are shown in Figure 3b, in early time. 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 Enticer L-Ti exhibits FRP measured at the muzzle that is perceptible to bystanders, in accordance with PEW Science inner ear modeling. The FRP is highlighted in the pressure regime (Figure 3) and more significantly in the impulse regime (Figure 4). The Enticer L-Ti is unable to mask the bystander perception of FRP like silencers such as the Thunder Beast ULTRA 9 and CGS Hyperion. The Enticer L-Ti performs more similarly to the Otter Creek Labs PR30L and Dead Air Nomad-L at the muzzle, with regard to FRP, than it does to the aforementioned silencers. However, it should be noted that despite the Nomad-L also exhibiting perceptible FRP, it is quieter at the muzzle than the Enticer L-Ti.
PEW Science Research Note 1: The aforementioned silencers all produce impulse accumulation rates that are relatively consistent. The Enticer L-Ti is similar to the PR30L in that the muzzle impulse signatures (Figure 4a) are somewhat erratic. PEW Science postulates this is a function of certain aspects of baffle design that may induce flow anomalies. Further research is planned in this area. The gross characteristics of the Enticer L-Ti muzzle signature on this platform are consistent with its baffle design and length.
PEW Science Research Note 2: Comparing the behavior of the five silencers with the highest supersonic suppression performance (Enticer L-Ti, Hyperion, Nomad-L, PR30L, and ULTRA 9) highlights the thresholds of performance that can be achieved with each technology. Each of these silencers possesses similar attributes with key differences. The highest performing silencers of the group, including the Enticer L-Ti, possess different implementations of coaxial flow paths. It is postulated that the most efficient implementations of such features typically reside in the highest pressure zones of the silencers’ internal geometries. PEW Science test data, to date, supports this hypothesis. However, it is important to note that the holistic sound signature suppression performance of these silencers is a function of many variables.
As typically indicated, 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.
PEW Science has made a concerted effort to characterize the FRP phenomenon with true physiological human inner-ear response analyses. Additional PEW Science Member Research Supplements containing this information are released periodically. Silencers like the Enticer L-Ti are in a different performance class than others on the market. PEW Science urges the user to also consider the resulting flow restriction (back pressure) for particular weapon system application. This performance characteristic is discussed in Section 6.67.2.
6.67.1.2 SOUND SIGNATURES AT SHOOTER’S EAR
Real sound pressure histories from the same 5-shot test of the Enticer L-Ti suppressor acquired with PEW-SOFT at the shooter’s ear are shown below. Again, 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 primary sound signature pressure histories at the ear for all 5 shots are shown in Figure 5. The primary sound signature history is shown on the left. A zoomed-in timescale is displayed on the right, in the region of peak sound pressure for Shot 1 and Shot 2. The real sound impulse (momentum transfer potential) histories at the ear from the same 5-shot test are shown in Figure 6. Again, full and short timescales are shown.
The Enticer L-Ti exhibits measured sound signature phenomena at the shooter’s ear that shares similar characteristics with that of the CGS Hyperion and Dead Air Nomad-L. This behavior is somewhat atypical given its muzzle suppression performance examined in the preceding section. PEW Science postulates that the standoff from the silencer’s end cap to the shooter’s ear on this host weapon is adequate enough, and the flow rate low enough, to nullify the influence of the erratic impulse features measured at the muzzle. The impulse waveforms in Figure 6 suggest that to be the case; not only are the waveforms more consistent than those of the measure muzzle impulse, the gross amplitude is significantly lower than measured with most silencers on this platform.
It should be noted that although the Enticer L-Ti exhibits a slightly higher Suppression Rating at the shooter’s ear than the CGS Hyperion on this platform, the FRP of the Enticer L-Ti is more noticeable to the shooter. As is the case at the muzzle, the Enticer L-Ti is unable to mask perception of FRP like the Hyperion, Nomad-L, and Thunder Beast ULTRA 9, to the shooter. Note that the FRP of the Enticer L-Ti to the shooter is not extreme on this platform; the FRP masking abilities of the aforementioned silencers are extreme.
This is fifth time, in PEW Science testing, that the impulse magnitudes at the shooter’s ear, prior to the gas completely exiting the weapon system (between 27 and 28 ms), are higher than the latent impulse for all shots. The other silencers tested by PEW Science capable of generating such sound signature characteristics on this platform are the Nomad-L, Hyperion, ULTRA 9, and PR30L.
The Enticer L-Ti, Nomad-L, and Hyperion are in a different class in shooter’s ear suppression performance on this platform. The Enticer L-Ti, with a shooter’s ear Suppression Rating of 51.8, is class-leading. The silencer’s size, coupled with such performance, is significantly notable.
6.67.2 Relative Suppression Rating and Back Pressure Comparisons (.30 Rifle Silencers)
The Enticer L-Ti suppressor is intended to maximize sound signature suppression. PEW Science has developed an empirical relation to quantify the back pressure (flow restriction) of silencers. Figure 7 and Figure 8 show supersonic suppression and back pressure comparisons between selected 7.62mm (30 caliber) rifle silencers shown in public PEW Science Sound Signature Reviews, as of the date of this review publication. The results shown in Figure 7 and Figure 8 are calculated from real test data acquired with PEW-SOFT. Please note the following:
- The PEW Science Back Pressure Metric, Ω [Pa-1], may be generated for any silencer and suppressed weapon system using any suitable raw external overpressure signature data acquired 1.0 m left of the silencer end cap. PEW Science highly recommends data acquisition in accordance with The Silencer Sound Standard.
- Omega Zones are presented in Table 2, below, which are intended to provide guidance to weapons developers, silencer designers, and end-users, with regard to flow restriction characteristics of different silencer designs. It is very important to note that silencers possessing a relatively high Ω can still provide functional use on weapon systems. Some weapon systems are more sensitive to Ω than others.
- It is important to note that a silencer’s Omega Zone can shift when using a mounting scheme that differs from that used in the testing referenced in the published PEW Science Sound Signature Reviews. This phenomenon occurs due to some silencer mounting schemes significantly influencing flow restriction with some silencer designs.
- The theoretical lower limit of flow restriction, or so-called "zero back pressure" would be represented by the unsupressed state, Ω = 0 [Pa-1].
- PEW Science acknowledges that other dynamic events occur within a suppressed weapon system that can also influence weapon function. Therefore, PEW Science acknowledges that Ω is not the sole parameter one must consider for total supppressed weapon system operation. However, PEW Science postulates that the Ω metric influence can be significant.
- The Back Pressure Metric relations are most easily viewed on a logarithmic scale (See Figure 8).
As stated above, the PEW Science Back Pressure Metric is most easily viewed on a logarithmic scale. The metric is nonlinear; the shape of the trend in the data presented in Figure 8, below, illustrates the potential thresholds of extreme flow rate (approaching the unsuppressed state) and extreme flow restriction (approaching the trapping of the maximum amount of combustion byproducts in a system).
Omega characterizes silencer back pressure. It is important to note that back pressure is not blow back. The back pressure of a silencer is the flow restriction it introduces in a suppressed weapon system. The blow back phenomenon that can occur during the use of a suppressed weapon system is caused by the reciprocating system actuating too early relative to overpressure decay within the weapon system, resulting in exposure of excessive internal system overpressure to atmosphere. Some weapons may be tuned to function well with silencers in a high Omega Zone. Some weapons may require low-Omega silencers due to constraints in their operating system(s). Omega metric technical details can be found in PEW Science Public Research Supplement 6.40.
The Enticer L-Ti is very similar in composite Suppression Rating to the Dead Air Nomad-L (Review 6.55) and CGS Hyperion (Review 6.27) on this test platform. The Enticer L-Ti exhibits nominally lower flow restriction (back pressure) than the Hyperion and Nomad-L.
It is not typical for centerfire rifle silencers to achieve muzzle Suppression Ratings above 30 on a 20-in 7.62x51mm host weapon. The quietest 30 caliber silencers on this platform, tested by PEW Science, are shown in Figure 7. The Enticer-L possessing a Suppression Rating at the muzzle of 35.4 is significant. Achieving a Suppression Rating at the shooter’s ear above 50 may be defined as extreme suppression for such a host weapon and is also not typical. Regardless of the aforementioned deficiencies in FRP masking, the Enticer L-Ti is, on average, a centerfire rifle silencer exhibiting class leading sound suppression performance at the shooter’s ear on this weapon system.
PEW Science Research Note 3: PEW Science urges the reader not to misconstrue a high Omega Metric with absolute use prohibition on semi-automatic systems. Each weapon system may experience varying sensitivity to different Omega Zones and users may exhibit varying preference for weapon system function and operability. The Zones are provided by PEW Science to assist the reader with determination of postulated applicability of silencer types, as some users may only have experience with certain silencers. The Omega Metric is one performance indicator; it allows overall flow rate phenomena to be categorized independently from sound signature suppression performance.
It is extremely important to note that peak sound pressure [dB], peak sound impulse [dB-ms], and Omega (Ω) [Pa-1], alone, do not determine the sound supression performance of a silencer. It is the combination of these and other waveform parameters that form the total sound signature and the influence on human inner ear response. The Suppression Rating computation considers all of these factors; the Enticer L-Ti is one of the highest performing supersonic centerfire rifle silencers tested by PEW Science, to date.
6.67.3 Review Summary: Diligent Defense Co. Enticer L-Ti on a Savage Model 10 .308 with 20-in Barrel
When paired with the Savage M10 20” .308 and fired with Federal XM80, the Diligent Defense Co. Enticer L-Ti mounted with the direct thread adapter, achieved a Suppression Rating™ of 51.9 in PEW Science testing.
PEW Science Subjective Opinion:
The Diligent Defense Co. Enticer L-Ti is a full-size, lightweight .30 rifle silencer that exhibits extreme sound signature reduction in the supersonic flow regime, while possessing a modular rear mount capability. Note that the Enticer series also includes a shorter Enticer S-Ti model, further reducing the length and weight of the system, albeit at the expense of some sound signature suppression performance. The Enticer series is a continued example of the extreme supersonic suppression performance possible with properly implemented coaxial design elements.
The Enticer series contains modified cone baffles with some coaxial elements and progressive geometry that takes advantage of pressure gradients, efficiently. Functionally, the design results in highly efficient management of supersonic flow by preventing a significant degree of high pressure stagnation, and when that management is no longer needed, the silencer possesses other efficient geometry to maintain performance. Subsonic performance data of the Enticer L-Ti is the subject of a future PEW Science publication.
The Enticer L-Ti meets or exceeds the shooter’s ear Suppression Rating of the Dead Air Nomad-L and CGS Hyperion on this platform, which is significant. The Suppression Rating 1.0 m left of the end cap (the muzzle rating) is lower. Nonetheless, the ear Rating is high enough that the Enticer L-Ti performance should be considered extreme on this host weapon system. Users may perceive first-round-pop to be slightly higher than from the aforementioned Nomad-L and Hyperion. Regardless, the average signatures, to the shooter, are close enough such that user perception may be highly dependent upon shooter variables; (e.g. stock position on cheek, previous inner ear damage, etc).
The rear mount threading of the Enticer series is 1.375”-24tpi; relatively common in today’s rifle silencer market. As a result of this common modular interface, a plethora of mounting systems may be used. The performance of the Enticer L-Ti may be influenced by mounting system choice. The user’s choice of mount may balance system weight, length, durability, utility, and even back pressure of the silencer. The data presented by PEW Science in this Sound Signature Review was measured with the direct-thread mount. The mount may be removed with a 1-in open-ended wrench or socket.
The Enticer series is also offered in steel versions (the ENTICER L-17-4SS and ENTICER S-17-4SS). The steel versions may be attractive to some users due to increased durability at higher temperatures, at the expense of added weight. PEW Science has not evaluated the durability of the steel or titanium Enticer silencer system(s) on semiautomatic or automatic host weapons.
In this review, the Enticer L-Ti performance metrics depend upon suppressing a supersonic centerfire rifle cartridge; no easy task. PEW Science encourages the reader to remain vigilant with regard to all supersonic centerfire rifle suppression claims. The gas volume and combustion products created by the firing of the supersonic .308WIN cartridge are significant; the measured pressure and impulse magnitudes, and their durations, illustrate this fact.
The hearing damage potential of supersonic centerfire rifle 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.