TYR Tactical

Archive for May, 2020

FN Releases FN 509 Compact Tactical Pistol | The Smallest and Most Concealable Tactical Pistol Available

Tuesday, May 19th, 2020

(McLean, VA – May 19, 2020) FN America, LLC, the makers of the world’s most battle-proven firearms,® proudly announces the release of the FN 509® Compact Tactical, the smallest and most concealable 9mm tactical pistol available on the market.

The FN 509 Compact Tactical, available in both black and FN-signature flat dark earth (FDE), can be easily deployed as an everyday carry with the standard 12- or 15-round magazines or on the range with the extended 24-round magazine, giving 51 rounds of ammunition at the ready.

The 4.3-inch cold hammer-forged threaded barrel makes it compatible with today’s most popular aftermarket accessories like compensators or suppressors and the FN Low-Profile Optics-Mounting System,™ capable of accepting more than 10 miniature red sights, rounds out this compact tactical pistol.

The compact frame features the FN 509-signature enhanced grip texturing for secure hold, a MIL-STD 1913 picatinny rail that is compatible with most compact pistol lights and interchangeable backstraps for a customized fit.

Additional features like the suppressor-height night sights aid in co-witness of the miniature red dot and while the optics system is not in use, the protective slide cap provides a serrated surface for racking the slide from any surface and ensures iron sight alignment.

The pistol ships in an FN-branded soft-sided case with the optics-mounting kit, one each of the 12-, 15-, and 24-round capacity magazines with the appropriate grip sleeves or in a state-compliant configuration with 10-round magazines. Visit your local dealer for pricing.

The FN 509 is FN’s most tested pistol platform to-date with over 1 million rounds fired during development. The company’s extensive durability, reliability and performance standards, far exceeding the strictest requirements, has yielded yet another advancement in tactical pistol market with the FN 509 Compact Tactical.

Take your concealed carry into the future with the FN 509 Compact Tactical, part of the FN 509 family by visiting www.fnamerica.com.

Full Disclosure – Ep 1 Pt 2

Tuesday, May 19th, 2020

Full Disclosure is a behind the scenes look at how and why we design products at TYR.  Each episode is broken up into two parts.

The QUICK from SOLGW

Tuesday, May 19th, 2020

May 2020 – San Antonio, Texas – Sons of Liberty Gun Works (SOLGW) in collaboration with Forward Controls Design (FCD) set out to create a safety that’s an embodiment of our considerable experience in AR15/M16 selector design and knowledge over the years. This collaboration resulted in the “Quick”.

The Quick was designed from the ground up to be a defense/duty/combat safety selector. Its’ mission is quite aptly reflected by the way its’ levers are attached the center, via a stainless-steel roll pin. The lever to center interface is incredibly strong, the high shear strength (800 lbs) 420 stainless steel spring steel roll pin simply holds the two in place and doesn’t handle any load. One of the design goals dictates there be no wobble between the lever and center, we’ve called for very tight tolerances (+0.001/-0.00) on the Quick’s lever and center interface to achieve that.

The Quick is shipped with a selector spring, a nitrided selector detent, two levers, 4 roll pins (two are needed for installation, with 2 spares).

We do not ship the Quick with one lever installed as we recommend installing the center (dimple forward) and installing the grip, allowing the detent to hold the center in place. Using a vice block to then hold the lower receiver as both levers are installed.

Quick centers are billet machined in 4140, heat treated and black nitrided. Levers are billet machined in 4140 and black nitrided.

Manufactured 100% in the USA.

Available now at sonsoflibertygw.com.

Save on Liberty Gun Lubricants

Tuesday, May 19th, 2020

Choose your bundle and save 15% when you use coupon code SOLSYS at checkout. This code is valid for any bundle and will expire on May 26.

Our #1 customer favorite product, Liberty Gun Lube™ Chemical-X™ is based on a unique patented technology of proprietary super-strong multilayered nano-bearings. With an insane temperature range of <-100F – +842F, you will never have to worry about Chemical-X™ leaving you in a bind. Great for locking lugs, pistons, mating surfaces, sears, hammers, etc.

Liberty Gun Lubricants is a family-owned small business that aims to bring the finest and most technologically up to date Non-Toxic / Non-Hazardous firearms lubrication and cleaning products available. 

5.11 Expands Everyday Hero Program with Charitable Donations

Tuesday, May 19th, 2020

Irvine, Calif. (May 18, 2020) – 5.11, Inc. the global innovator of purpose-built apparel, footwear and gear, announced it has expanded its Everyday Hero program to recognize individuals who go above and beyond within their communities by adding a charitable component in light of the events surrounding the global COVID-19 pandemic. 5.11 has produced a limited-edition Everyday Hero t-shirt that will be sold with 100% net proceeds being donated to charities within the first responder community. Additionally, for each Everyday Hero t-shirt purchased, 5.11 will donate a KN-95 mask to a New York City first responder.

As always, civilian and professional #EverydayHeroes can be nominated through 5.11’s social media pages @511Tactical. Purchasers of Everyday Hero t-shirts are encouraged to gift it to the Everyday Hero in their life and post a photo of the person wearing their t-shirt with the tag #EverydayHeroes. T-shirts can be purchased through 5.11’s website. With the purchase of each t-shirt, 5.11 will also donate a KN-95 mask to a first responder in New York City, one of the areas in the United States hit hardest by the COVID-19 outbreak.

“There is so much good happening in the world, and we want to remind people of that. Encouraging and recognizing acts of kindness is imperative to societal stability and global solidarity,” said 5.11’s Vice President of Marketing, Jennifer Glover. “We are all in this together, and being able to support each other and those who serve is an excellent way to channel our energies and efforts. Giving back to the servicemen and women in New York through this initiative makes the gracious act of recognizing our local heroes, just that much more important.”

Everyday Hero T-Shirt with KN-95 Mask

“When the idea for this initiative began, it energized everyone at 5.11 to create and launch a program to give back to all of the first responder categories serving and sacrificing, now more than ever, for our communities,” said 5.11’s CEO, Francisco J. Morales. “5.11’s professional customers are the heart of our business and our nation’s critical infrastructure. For us and all of our customers, it is an honor to support law enforcement, fire, emergency services, and military during this unprecedented time.”

The #EverydayHero digital campaign, originally launched in Fall 2019, will live on 5.11’s social media pages @511Tactical as well as through emails and on the company’s website www.511Tactical.com. Everyday Hero t-shirts to support first responder charities are available for purchase for $14.99.

Pelican Micro Sport Wallet

Monday, May 18th, 2020

I didn’t even know Pelican made a wallet until I was looking to follow up on their overlanding cases.

The crush proof design features an easy to open latch and water and dust resistant seal (IP 54).

Measurements:

Interior (L×W×D)
4.79 x 2.25 x 0.55 in
(12.2 x 5.7 x 1.4 cm)

Exterior (L×W×D)
5.55 x 3.27 x 0.85 in
(14.1 x 8.3 x 2.2 cm)

www.pelican.com/us/en/product/cases/sport-wallet/micro/0955

0241 Tactical – Night Desert & Urban T-Block Camo Uniform Pre-Order

Monday, May 18th, 2020

0241 Tactical is offering pre-orders for clothing in Night Desert and T-Block Patterns.

They are offering Integrated Battle Shirts 2.0, Gen 2 Improved Direct Action Shirts and OPS Advanced Fast Response Pants as well as Boonie Hats.

Fabric is at the factory and pre-orders run through May 31.

Clever New Robot Rover Design Conquers Sand Traps

Monday, May 18th, 2020

RESEARCH TRIANGLE PARK, N.C. — Built with wheeled appendages that can be lifted, a new robot developed with U.S. Army funding has complex locomotion techniques robust enough to allow it to climb sand covered hills and avoid getting stuck. The robot has NASA interested for potential surveying of a planet or the Moon.

Using a move that researchers at Georgia Institute of Technology dubbed rear rotator pedaling, the robot, known as the Mini Rover, climbs a slope by using a design that combines paddling, walking, and wheel spinning motions. The rover’s behaviors were modeled using a branch of physics known as terradynamics.

The journal Science Robotics published the research as a cover article. The Army Research Office, an element of the U.S. Army Combat Capabilities Development Command’s Army Research Laboratory and NASA, through the National Robotics Initiative, funded the research.

“This basic research is revealing exciting new approaches for locomotion in complex terrain,” said Dr. Samuel Stanton, a program manager at ARO. “This could lead to platforms capable of intelligently transitioning between wheeled and legged modes of movement to maintain high operational tempo.”

According to the scientists, when loose materials like sand flow, that can create problems for robots moving across it.

“This rover has enough degrees of freedom that it can get out of jams pretty effectively,” said Dan Goldman, the Dunn Family Professor in the School of Physics at the Georgia Institute of Technology. “By avalanching materials from the front wheels, it creates a localized fluid hill for the back wheels that is not as steep as the real slope. The rover is always self-generating and self-organizing a good hill for itself.”

A robot built by NASA’s Johnson Space Center pioneered the ability to spin its wheels, sweep the surface with those wheels and lift each of its wheeled appendages where necessary, creating a broad range of potential motions. Using in-house 3-D printers, the Georgia Tech researchers collaborated with the Johnson Space Center to re-create those capabilities in a scaled-down vehicle with four wheeled appendages driven by 12 different motors.

“The rover was developed with a modular mechatronic architecture, commercially available components, and a minimal number of parts,” said Siddharth Shrivastava, an undergraduate student in Georgia Tech’s George W. Woodruff School of Mechanical Engineering. “This enabled our team to use our robot as a robust laboratory tool and focus our efforts on exploring creative and interesting experiments without worrying about damaging the rover, service downtime, or hitting performance limitations.”

The rover’s broad range of movements gave the research team an opportunity to test many variations that were studied using granular drag force measurements and modified Resistive Force Theory. The team began with the gaits explored by the NASA RP15 robot, and experimented with locomotion schemes that could not have been tested on a full-size rover.

The researchers also tested their experimental gaits on slopes designed to simulate planetary and lunar hills using a fluidized bed system known as SCATTER, or Systematic Creation of Arbitrary Terrain and Testing of Exploratory Robots, that could be tilted to evaluate the role of controlling the granular substrate.

In the experiments, the new gait allowed the rover to climb a steep slope with the front wheels stirring up the granular material – poppy seeds for the lab testing – and pushing them back toward the rear wheels. The rear wheels wiggled from side-to-side, lifting and spinning to create a motion that resembles paddling in water. The material pushed to the back wheels effectively changed the slope the rear wheels had to climb, allowing the rover to make steady progress up a hill that might have stopped a simple wheeled robot.

“In our previous studies of pure legged robots, modeled on animals, we had kind of figured out that the secret was to not make a mess,” Goldman said. “If you end up making too much of a mess with most robots, you end up just paddling and digging into the granular material. If you want fast locomotion, we found that you should try to keep the material as solid as possible by tweaking the parameters of motion.”

But simple motions had proved problematic for Mars rovers, which famously got stuck in granular materials. Goldman says this gait discovery might be able to help future rovers avoid that fate.

“This combination of lifting and wheeling and paddling, if used properly, provides the ability to maintain some forward progress even if it is slow,” Goldman said. “Through our laboratory experiments, we have shown principles that could lead to improved robustness in planetary exploration – and even in challenging surfaces on our own planet.”

The researchers hope next to scale up the unusual gaits to larger robots, and to explore the idea of studying robots and their localized environments together.

Though the Mini Rover was designed to study lunar and planetary exploration, the lessons learned could also be applicable to terrestrial locomotion – an area of interest to the Army.

By U.S. Army CCDC Army Research Laboratory Public Affairs