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Archive for May, 2019

Army Trade-In M32 40MM Grenade Launchers Released For Sale

Monday, May 6th, 2019

TUCSON, AZ – May 3, 2019 – MILKOR USA INC has just released a small group of Army trade-in original M32 40mm Grenade Launchers for public sale. Only 53 units are ever being made available, and a number of them have already been claimed.

The M32 is a hand-held, gas-operated, semi-automatic, six-shot 40mm grenade launcher. Proudly made in the USA, the M32 fires all DODIC NATO and Standard 40mm (40x46mm) Low Velocity, Lethal, and Less Lethal grenades. All six of the M32s 40mm grenades can be fired in three seconds, effectively covering an area of 20 x 60 meters without reloading the weapon. With Low Velocity Grenades, the M32 is accurate for pin-point targets at distances of up to 125 meters, and has a maximum range of 400 meters.

Each sale will include: (1) M32 Grenade Launcher, (1) M2A1 Reflex Sight, (1) carry bag, (1) sling, and (1) 40mm cleaning kit. Some accessories may not be original issued equipment, but original issued equipment will be allocated on a first come, first served basis (while supplies last). Some launchers have been repaired or upgraded with current M32A1 generation parts. All launchers are functional, but as actual issued and fielded weapons, they have varying degrees of wear. Some launchers may have squad markings etched or painted on the exterior. Other signs of use/customization by the original user may be present.

Buyer is responsible for taxes, transfer costs, and all other applicable fees. Full payment is required to begin ATF transfer paperwork. If the Form 4 is denied, we will refund all payments less a $200.00 processing fee. Guns are sold AS-IS. Buyer must sign an end-user agreement. 

MILKOR USA INC info@milkorusainc.com 520-888-0203

Knight Vision- Universal Bridge

Monday, May 6th, 2019

Weighing in at just 96g, the Universal Bridge will accept many single tube night vision via common shoe-type interface, or modification adapter (PVS 14/MUM/MINI-NSEAS), turning them into a binocular night vision system.

Adjusts for helmet standoff, inter-pupillary distance, helmet mount drop, and helmet interface wobble adjustment.

shop.knightarmco.com

Persistent Systems, LLC Wins AUVSI XCELLENCE Award

Sunday, May 5th, 2019

NEW YORK, May 1, 2019 — Persistent Systems, LLC (“Persistent”) has been named the 1st place winner in the Communications/Data Connection Solutions category of the XCELLENCE Awards by the Association for Unmanned Vehicles Systems International (AUVSI).

Persistent’s Wave Relay® mobile ad hoc network (MANET) won the Technology Innovation award for its robust, self-forming, self-healing waveform creating a mobile communications infrastructure whenever and wherever users need it most. The MPU5 radio, Persistent’s advanced, scalable, and efficient radio, allows users to transmit crystal-clear audio, HD video, text, and sensor data, in a peer-to-peer fashion, over the Wave Relay® MANET without requiring a fixed infrastructure.

“We are honored to receive this award as innovators in communications,” said Louis Sutherland, Vice President of Business Development for Persistent. “This win is not just an accomplishment for Persistent, but for all the partners who have committed to be a part of the solution for the digital battlefield by joining the Wave Relay® Ecosystem.”

The Wave Relay® Ecosystem is an industry alliance of unmanned platform and sensor manufacturers sharing Persistent’s Wave Relay® MANET. Industry leaders are coming together to meet the need to have unmanned systems, sensors, and people operating on a common battlefield network.

“The rapid growth of the unmanned systems industry is reshaping our future by expanding business markets, providing consumers with innovative solutions and even saving lives,” said Brian Wynne, president and CEO of AUVSI. “The XCELLENCE awards recognize companies and individuals who are achieving remarkable results with unmanned systems technology to benefit our communities.”

XPONENTIAL offers a broad-based and balanced educational program brimming with cutting-edge content and inspirational insights, ranging from policy implications and technical challenges to use cases and best practices across vertical markets and everything in between. The AUVSI XCELLENCE Awards honor innovators in the unmanned systems industry, including individuals and organizations, with a demonstrated commitment to advancing technology, leading and promoting safe operations, and developing programs that use unmanned systems to improve the human condition.

For more information on Wave Relay®-enabled systems, visit the Wave Relay® Ecosystem at www.persistentsystems.com/ecosystem.

A Blast From The Past

Sunday, May 5th, 2019

From 1987, comes the Barrett M82A2 bullpup variant of the .50 Rifle.

SCUBAPRO Sunday – How to Choose a Dive Knife

Sunday, May 5th, 2019

A dive knife is an indispensable tool. Offered in a variety of styles and sizes, corrosion-resistant metals and featuring a choice of cutting edges to handle different cutting tasks, a diving knife is a must-have item. A good dive knife is a must-have when you go thru underwater knife fighting school.   

Dive Knife Sizes

Dive knives range from the traditional full-sized knife’s that you generally strap to your lower leg, to compact ones that can be mounted on a BCD pocket or secured to an HP hose.  

The K6 is an excellent example of a traditional-style full-sized all-purpose diver’s knife.  Its large six-inch blade and ergonomic grip handle comes with an injected molded sheath and two quick-adjusting buckle straps that mount easily on the lower leg.

 

 

At the other end of the spectrum is a diver knife like the White Tip.  With a blade length of about 2.5 inches and an overall length of just under six inches, this type of knife is compact enough to attach to a hose or a BCD as a primary knife or to stow in an easy-to-reach pocket as a back-up cutting tool.

 

 

Diving Knife Materials

Stainless Steel Diving Knives

Stainless steel is the most common alloy used in the manufacturing of dive knife blades.  The majority of dive knives are made of either Grade 304 stainless steel or Marine Grade 316 stainless steel. 

Grade 304 hard-tempered stainless steel is a very versatile metal that is used in a variety of outdoor applications.  It offers resistance to surface oxidation and provides an excellent cutting edge.  Because it is a little softer than Marine-Grade 316 stainless steel, a Grade 304 blade needs to be sharpened more frequently to maintain its right cutting edge.  The stainless steel version of the Mako is an excellent example of a diving knife made with Grade 304 stainless steel. Marine Grade 316 stainless steel is similar to Grade 304, but it has one crucial extra ingredient: molybdenum. This is a hard, silver-white metallic element used to toughen the steel. This enables Marine Grade 316 dive knives to maintain their super-sharp edges for longer periods, plus it increases corrosion-resistance. SCUBAPRO’s premier dive knife, the TK 15, offers a six-inch Marine Grade 316 stainless steel blade.  The blade surface is polished explicitly so that water can drain quickly to prevent oxidation further.  Also, the thickness of the knife’s stainless steel is consistent from one end to the other, creating a high level of stiffness and strength.

 

Titanium Diving Knives

Another popular material for dive knife blades is hardened titanium.  A titanium dive knife blade is entirely corrosion-resistant, it is lightweight yet extremely strong, and it can hold a sharp edge for a long, long time, all of which make titanium dive knives excellent cutting tools for use in saltwater environments.  The lightweight, multi-function X-Cut titanium dive knife is an excellent example of a titanium cutting tool.  Measuring just over five inches in overall length, its 2.5-inch blade is specially designed to maintain a highly-durable cutting edge for a long life of corrosion-free performance.

 

 

Diver’s Knife Cutting Edges, Tips and More

Dive knife blades come with either a plain edge, a serrated edge or a combination of both to handle a variety of cutting jobs.

A plain edge is good for making clean slicing cuts, or when using more of a pushing motion when control and accuracy are required – like filleting a fish.  This type of cutting motion is especially useful if the cutting edge is curved.  Plain edges are also easy to maintain.  Anyone with a basic sharpening tool can keep a plain edge razor sharp with little effort.

A serrated edge has a series of mini-edges or teeth similar to a hand saw.  A serrated edge is excellent for sawing-type cuts through heavy materials like wood or rope or stubborn kelp fronds.  For example, using a plain edge it would take forever to cut through a three-quarter inch anchor line, but a serrated edge would make quick work of it as the teeth bite deep into the material with every sawing motion.  A serrated edge also stays sharp for much longer than a plain edge, but it is a bit more difficult to sharpen.

Because these different blade edges excel in cutting different types of materials, most dive knives offer both, often on the same cutting plane.  Normally, the plain edge can be found closer to the tip of the blade, beneath the curve or “belly” of the blade, whereas the serrated portion can be found closer to the handle for better leverage when leaning into the tougher cuts.

Since a scuba diver’s knife blade’s cutting efficiency increases in relation to its length, dive knives that sport long blades, like the TK15 and K6, separate their cutting edges, devoting the entire top length of the blade to serration, and the entire bottom length to the plain edge.  This maximizes the length of each cutting edge and the overall efficiency of the knife.

When it comes to blade tips, dive knives normally come with either a blunt tip, a tanto tip, or some variation of a pointed tip.

On one end of the spectrum is the blunt tip.  As its name implies, the blunt tip is flat and dulled.  It is designed to be more of a prying tip than a piercing tip.  It is considered safer than other tips because you can’t accidentally stab your leg or puncture your BCD when returning it to its sheath.

On the other end of the spectrum is the pointed tip.  These tips come in a variety of shapes.  For example, the TK15 comes with a drop-point tip.  This is where the blade’s upper edge, or spine, gradually “drops” as it reaches the tip of the blade to form the tip.  This is considered a strong tip that is easy to control when cutting or piercing. 

The K6 and X-Cut have clip-point tips, so-named because the spine of the blade is “clipped” as it approaches the tip.  This creates a narrow tip that can be very useful for piercing a line wrapped tightly around a boat propeller in preparation for a slicing or sawing cut.  While not quite as strong as the drop-point, the clip-point is considered a very sharp and controllable point.

Falling in between the blunt tip and pointed tip is the tanto tip.  Combining elements of blunt and pointed, the typical tanto tip offers more of an angled tip which is sharpened for cutting, like on the Mako.  However, sometimes the tanto tip provides a small blunt spot as well as you’ll find on the White Tip.  Both versions produce a very strong and durable tip, enabling you to do a little prying with less chance of snapping the tip, with the added ability do some cutting when working in tight spaces.

Most dive knife blades also include a notch for cutting fishing line and, depending on design, and you can sometimes find additional tools like a bottle opener (Mako), a stainless steel handle-end for hammering (K6) or a shackle key (TK15).

 

Unique Cutting Tools You Won’t Want to Overlook

Not all scuba cutting tools look like a dive knife.  Take, for example, the innovative stainless steel Mesh Cutter.  While traditional dive knives are most effective when used with a pushing motion, the Mesh Cutter is designed to be used with a pulling motion.  This is a safer motion, plus it provides great leverage and lots of cutting power with minimal effort.  The ultra-sharp hooked blade is ideally shaped for slicing through line and netting.

 

What’s the Best Dive Knive?

Like with most types of dive equipment, the ideal knife depends on your individual diving style, and how you like to carry your gear. The choices are many. The good news is that with the variety of dive knives available in different sizes, shapes, materials and mounting options, finding the best dive knife to suit your unique diving needs shouldn’t be too difficult. 

 

Army Selects Senior Research Scientist for Terminal Ballistics

Sunday, May 5th, 2019

ABERDEEN PROVING GROUND, Md. — The U.S. Army recently announced the selection of a new senior research scientist for terminal ballistics.

Dr. Scott E. Schoenfeld assumed the position March 17. He previously served as the senior scientist for the Lethality and Protection Sciences Campaign, chief of Armor Mechanics and chief of Impact Physics research with the Weapons and Materials Research Directorate of the U.S. Army Combat Capabilities Development Command’s Army Research Laboratory.

Terminal ballistics is a sub-field of ballistics and examines of the behavior and effects of a projectile as it transfers its energy to a target.

Across the Army there are less than 50 senior research scientists, known as STs, who serve as general-officer equivalents, advising leadership on science matters.

Schoenfeld will serve as the “as the Army’s leading expert in the field,” according to the announcement.

Schoenfeld’s experiences include oversight, guidance and execution of “broad theoretical and experimental initiatives to understand the mechanics and physics of weapon-target interactions,” as well as execution and oversight of applied research and development of programs associated with ballistics, terminal effects, mechanics, directed energy and computational science and engineering.

His responsibilities also included leadership of national and international partnerships conducting investigative programs in the areas of mechanics, physics and electro- magnetic response of materials and structures under conditions of blast, impact and penetration and the development of ceramic, energetic, smart, electromagnetic and hybrid protection technologies appropriate for battlefield deployment.

Schoenfeld earned a doctorate in applied mechanics in 1995 from the University of California, San Diego.

“My personal research experiences focus on the mechanics of materials with emphasis on multi-scale theories for single and polycrystalline materials and development of theories into computational algorithms suitable for simulation of impact conditions, penetrator-target interactions, structural failure and high strain-rate deformation of materials,” he said.

Schoenfeld has published several dozen peer-reviewed publications, ARL Technical Reports and Conference proceedings and has been active in American Ceramic Society, The Metals Minerals and Materials Society, American Society of Mechanical Engineers, The Materials Research Society, United States Association for Computational Mechanics, and the Hypervelocity Impact Society.

He has received numerous honorary awards including the Department of the Army Meritorious Civilian Service Award for cumulative contributions to the development of armor technology, a Department of Army Research and Development Award for Leadership Excellence and two Army Greatest invention awards.

“Dr. Schoenfeld’s expertise and leadership will accelerate the availability of superior, light weight, and agile protection for Army soldiers and vehicles. He will create, grow and capitalize on talent and ideas from across the DOD, industry, academia and other government agencies to accelerate availability of disruptive discoveries that will enable the United States and our partners to compete and win in multi-domain operations,” said Dr. Jeff Zabinski, WMRD director. “Internal to ARL, he will focus on our core competencies in Terminal Ballistics and Sciences for Lethality and Protection.”

“Please join me in congratulating Dr. Schoenfeld on this significant professional accomplishment as he becomes a member of the prestigious senior professional community,” wrote CCDC Commanding General Maj. Gen. Cedric T. Wins in an email to the workforce.

By CCDC Army Research Laboratory Public Affairs

CCDC Army Research Laboratory (ARL) is an element of the U.S. Army Combat Capabilities Development Command. As the Army’s corporate research laboratory, ARL discovers, innovates and transitions science and technology to ensure dominant strategic land power. Through collaboration across the command’s core technical competencies, CCDC leads in the discovery, development and delivery of the technology-based capabilities required to make Soldiers more lethal to win our Nation’s wars and come home safely. CCDC is a major subordinate command of the U.S. Army Futures Command.

US Army Wants The Fourth To Be With You

Sunday, May 5th, 2019

Kyber Crystals have been mined for the plasma blades on the light sabers. The US Army’s Soldier Lethality Cross Functional Team is working on the design for the handles now. Field testing scheduled in 12 parsecs.

RMJ Tactical – Angry Steve Thumpers

Saturday, May 4th, 2019

Sometimes things need thumped and sometimes they need to be small and compact. RMJ Tactical has that covered for you with the 12″ Angry Steve Hickory Thumper! The 12″ is small enough to fit in your EDC bag, glove compartment, computer case, etc.  These are small enough to never be left behind.

Hand made from Tennessee Hickory and built for bashin’! Why hickory, you ask? Well aside from using local Tennessee materials, hickory excels far beyond many other types of wood for impact resistance and is very dense so it absorbs and withstands impacts very well. 

Other sizes also available at www.rmjtactical.com/collections/thumpers.