TYR Tactical

Archive for March, 2021

SCUBAPRO Sunday – SAS Raid on Pebble Island

Sunday, March 28th, 2021

In 1982, Gen. Galtieri’s Argentine military regime faced increased domestic trouble at home and they were looking to hold on to power. Since the formation of the Argentine state, the Malvinas issue (Basically the Sovereignty over the Falkland Islands between Argentina and the United Kingdom) had created political and domestic passions and heated debate in Argentina. It was the ideal moment for Galtieri to reclaim what Buenos Aires called the “lost islands”. Negotiations with the British over sovereignty had been going on for many years, with various British governments being more sympathetic than others to the proposal.  Long-standing tensions between the two countries reached a head on March 19, 1982, when some Argentinian scrap metal workers lifted their country’s flag at an abandoned whaling station on the even-further-away island of South Georgia, which was then a Dependency of the Falkland Islands. Two weeks later, on April 2, Argentinian troops stormed South Georgia’s Leith Harbor, overwhelming main British outposts without causing any casualties. But after conquering the islands, Galtieri and the junta regime faced one big problem: Margaret Thatcher. Thatcher’s Conservative government, which was dealing with increasing unemployment, rising interest rates, and an ailing economy, was also facing a degree of domestic hostility. The Argentine invasion of British sovereign territory was intolerable to Thatcher and much of the world and had to be dealt with. There were no contingency measures for the Falklands at the government level or within the military, let alone possessing the mechanisms to launch a task force to fly the 7,000 miles to the islands. Despite efforts to secure a diplomatic solution at the United Nations and through the Reagan administration, the two parties were stubborn and war appeared inevitable.

Lt. Col. Mike Rose, commanding officer of 22nd Special Air Service Regiment in Hereford, was on the phone to the headquarters of the British Antarctic Survey Group in Cambridge during the afternoon of Friday, 02 April 1982. Having learned that Argentine forces had invaded the Falklands, Rose swung into action and called in the regiment’s top advisors, canceled leave, and created a command situation. The situation was a difficult one for SAS planners. In the case of the invasion, no contingency arrangements were in place to rehabilitate the Falklands. This possibly owed more to the Ministry of Defence’s general disbelief that an operation to recover the Falklands was feasible. The tiny British settlement of the Ascension Islands, about 3,700 miles from the UK and halfway between the Royal Navy’s ports and the Falklands themselves, was the only practical ‘jump off’ point for the Falklands.

In Hereford, events started to move fast. Keen (had to use a British word) to play a pivotal role for his men in the upcoming operation, Rose provided SBS (Special Boat Service) with the services of two specialist Boat Squadron men who were preparing to sail to the South Atlantic. Rose was closely aligned with Brigadier Julian Thompson OBE, who commanded a landing on the islands for the operation code-named “Corporate”. An advance group from “D” Squadron SAS joined their SBS comrades on Sunday, 04 April and flew to the Ascension Islands. The Falklands Task Force was commanded by Rear Adm. Sandy Woodward on his flagship HMS Hermes, specially approved by the British Cabinet. The Battle Command Headquarters, Operation Corporate’s command center, was also located onboard Hermes. In an attack on the island of South Georgia, about 900 miles south of the Falklands, the men of D Squadron SAS’s mission were to join 42 Royal Marine Command.

San Carlos Bay beaches on East Falkland offered the best hope of a British landing for Task Force Commander Woodward. On the opposite side of the island from Port Stanley, before the long march across the island to seize Stanley, the Brits needed to establish a bridgehead. The problem for Woodward was that, to the west of the San Carlos beaches, the Argentinians had built a forward airbase on Pebble Island. The threat needed to be neutralized, with a garrison of over 100 men armed with ground attack IA-58 Pucaras, each with two 20 mm cannons and four 7.62 machine-guns. D Squadron’s boat troop men, fresh from South Georgia operations, were assigned to recce on Pebble Island. On the night of Tuesday, 11 May, the reconnaissance party’s forward frame edged its way to the narrow one-mile strip of land bordered by the sea on either side and offered no natural cover. The D Squadron men had to travel with extreme care and were forced to leave their Bergen backpacks in a shallow hollow to avoid detection against the horizon. However, the Argentinian sentries were not especially alert. The rest of Woodward’s landing fleet gathered before beachhead landings at San Carlos as the recce party confirmed Hermes’ findings.

G Squadron Assault (Mountain Troop)

The timeline was tight for the attack on Pebble Island. The assignment was given to Capt. John (Gavin) Hamilton, a young 29-year-old Mountain Troop Leader. Hamilton and his men had already survived two helicopter crashes in Fortuna Glacier’s blizzard conditions in the thick of the South Georgia action. Still, he led his men to seize the outpost of Grytviken, the former whaling station. He was under no illusion as to the scope of the mission and the dangers involved as he briefed the Mountain Troops’ men.

Onboard HMS Hermes, Hamilton briefed his men, but there were some problems. As the Hermes faced the South Atlantic’s heavy headwinds, she was well behind schedule, and she arrived late at the launch site. The foul weather had stopped the Sea King helicopters from being set up on the flight deck as they steamed west to make things worse. With the legendary SAS versatility, Hamilton was forced to revise the attack plan and change the production to take 30 minutes instead of the initial 90. With the men of the Mountain Troops armed with 81 mm mortars, M203 grenade launchers, and the deadly Rule 66 mm anti-tank rockets, the Sea King left Hermes’ deck. In support, to take out the Argentinean garrison positions, a Naval gunnery officer landing with the SAS said he would help provide the Naval Gunfire Support (NGFS) directing the fire from the decks of HMS Glamorgan of their 4.5-inch guns. The Sea King touched down four miles from the airstrip at a point marked out by the Boat Troop in reasonably calm weather. As troops from the Boat Squadron established a defensive perimeter, Hamilton and his men emerged from the Helo and started to unload mortar bombs and light guns. The Mountain Troopers were instantly hit by the unbelievable moonlight and the silhouette problems against the solid landscape began. The SAS men humped their way across Pebble Island to the airstrip after a short briefing from the Boat Troop (G Squadron) commander.

The outline of the FMA IA 58 Pucará (an Argentine ground-attack and counterinsurgency) (COIN) came clearly into place as they approached the airstrip, as rounds from the guns of HMS Glamorgan started crashing into the Argentinian garrison. Hamilton assembled his men on aircraft dispersals and calmly affixed explosive charges to the waiting Argentinian jets, receiving inaccurate incoming small arms and machine gunfire. The shells from Glamorgan destroyed the Argentinian fuel dump, ammunition store, and watchtower as the first of the Pucaras were blown up, producing some secondary explosions, and illuminating the remaining Pucaras further. The SAS men took out 11 planes, including six Pucaras, four Turbo-Mentors, and a Skyvan transport aircraft, in a 20-minute frenzy of destruction. Between them, in glaring view of the enemy, Hamilton and ‘Paddy’ Armstrong, a Mountain Troop explosives specialist, had destroyed another four Pucaras.

Withdrawal and Assessment

The whole operation was running on time. Within 30 minutes, the SAS had neutralized the Argentinian outpost and all the aircraft. There were minor casualties; one man was struck by shrapnel, and one was concussed from a remote-controlled Argentine mine. The entire SAS force was picked up by the Sea Kings on a tight schedule and transported back to HMS Hermes and Glamorgan, where a well-earned, full-cooked English breakfast awaited! Hamilton confirmed, de-briefly, that the Argentinians had not put on the island a radar facility and that the garrison was made ineffective. As a result, the Argentine force on Pebble Island played no part in opposing the landings in San Carlos, and again the SAS supported the main landing force that had famously crossed East Falkland to free Port Stanley.

On 10 June 1982, while directing naval gunfire from a position overlooking an 800-strong Argentinian garrison, Capt. John Hamilton was tragically killed. Hamilton, surrounded, was killed while covering a soldier who slipped through Argentina’s lines and was finally taken prisoner. The Military Cross was posthumously awarded to Hamilton and the award’s quote cited his “outstanding determination and character, his extraordinary will to fight despite hopeless odds and wounded suffering”. Only four days later, Maj. Gen. Jeremy Moore accepted the surrender of the islands’ Argentine forces, and the Union Jack was returned to the Falklands.

Outdoor Research – CarryOut Dry Pack 20L

Sunday, March 28th, 2021

Featuring a a roll-top closure to compress the pack to the size of its content, the CarryOut Dry Pack is the fully seam-taped waterproof (non submersible) backpack. It also incorporates an internal laptop sleeve accomodates devices up to 15 inches.

Available in Black and Loren.

www.outdoorresearch.com/carryout-dry-pack-20l-279898

You Never Know Where They’ll Show Up

Sunday, March 28th, 2021

Instagram! That one caught us by surprise!

Operator Skin Care Lotion

Saturday, March 27th, 2021

Yeah, I get it, “Operator Skin Care Lotion,” yuck! But the reality is that your skin is your body’s largest organ and it takes a beating, particularly while doing the things SSD readers do. These products were created by Danish SOF Vets.

Operators Skincare Sun Lotion with SPF 30/50 will let you perform at your best for hours in the sun by effectively protecting you against the harmful UVA and UVB rays, that otherwise would turn your skin red as a steamed lobster.

There are three products so far, After Sun Care along with 30 SPF and 50 SPF Sun Protection. They are non-greasy, which I appreciate and waterproof.

Check them out at www.operatorsskincare.dk.

Soldier Center Helmet Lab Technology Leads to Revolutionary New Combat Helmet

Saturday, March 27th, 2021

NATICK, Mass. – Research performed in the Helmet Laboratory at the U.S. Army Combat Capabilities Development Command, or DEVCOM, Soldier Center has led to a revolutionary new combat helmet.

Due to the Soldier Center’s Helmet Lab technology, and subsequent efforts working with key industry partners, the new combat helmets will provide the warfighter protection against a higher level threat – protection that previously could only be accomplished with a much heavier applique/helmet combination.

Researchers in the DEVCOM Soldier Center Helmet Laboratory have spent the past decade working to optimize combat helmet performance by developing new modeling, design and processing techniques. Combat helmets are comprised of flat sheets of ballistic material pre-formed into a helmet shape and then processed at a high temperature and pressure.

“Wrinkling and folds occur as the flat fabric conforms to the three-dimensional shape” said Jason Parker, a DEVCOM Soldier Center mechanical engineer. “These seams, wrinkles, and folds seriously degrade the ballistic performance, requiring more material and more mass to protect against a given threat. Through our research, we determined how these defects are introduced, how they affect ballistic performance, and how to eliminate them. The culmination of this research is a novel machine and process which produces a seamless, uniform helmet, free from defects such as folds and wrinkles.”

In 2015, the Helmet Laboratory developed a novel pre-form apparatus, process, and optimized helmet ply layup design. The Soldier Center used this technology to develop prototype helmets demonstrating breakthrough performance, providing a higher level threat protection that could previously only be achieved with the addition of a ballistic applique.

“In 2017, we tested prototype helmets targeting a higher level threat that were fabricated using our novel helmet preforming apparatus,” said Robert DiLalla, team lead of the Ballistic and Blast Protection Team in DEVCOM Soldier Center’s Soldier Protection Directorate. “The results far exceeded our expectation as we were getting stops well above the requirement and at 40 percent less weight than the current capability. The results were replicated with another batch of prototype helmets confirming that we had developed a new capability to significantly increase Soldier protection.”

Since 2017, the Helmet Laboratory, at the request of senior Army leadership, continued to mature and transition the technology to industry partners by establishing several Cooperative Research and Development Agreements, or CRADAs, and Research & Development contracts.

“After the Helmet Lab first demonstrated this breakthrough performance, the team worked diligently with our industry partners to rapidly transition this technology and contribute to the advancement from laboratory prototype to production ready helmets,” said David Colanto, PhD, who is the program manager for DEVCOM Soldier Center’s Integrated Multi-Threat Headborne System. “The collaborative effort with industry represents a successful technology transition and highlights the fact that Soldier Center applied research and technology demonstration efforts are critical to providing significant improvements to warfighter protection.”

In February 2021, Gentex Corporation announced that one of their Ops-Core® FAST Helmet Systems passed U.S. Government First Article Testing (FAT), a first for a helmet providing a higher level threat protection. This new helmet leverages helmet design and processing innovations transitioned through a CRADA with the DEVCOM Soldier Center’s Helmet Lab.

“This new FAST helmet is the culmination of a multi-year commitment to innovate the novel production processes necessary to manufacture helmets with next-generation ballistic materials,” said Des Walsh, vice president of Advanced Research and Development for Gentex Corporation. “It serves as an excellent example of successful, outcome-oriented government-industry collaborative development, resulting in the most advanced ballistically protective helmet shell ever qualified for production by Gentex and available to the warfighter.”

“It’s been a long road that started with an Army investment in science and technology which led to an invention,” said DiLalla. “That invention, when combined with industry knowledge, led to a finished product that offers a leap ahead level of protection. Today, the warfighter will benefit from that technological advancement. As a result of our efforts, we are currently undergoing a major renovation to our Helmet Lab having added new processing equipment to expand capabilities to help drive future research initiatives.”

By Jane Benson, DEVCOM Soldier Center Public Affairs

US Army Hoping to Field New Oxygen Generator

Saturday, March 27th, 2021

The Army is currently testing an oxygen generator that has a longer shelf life than the one currently in use and will meet the requirement of supplemental oxygen that medics provide to combat casualties.

The Field Oxygen Generator Resource (FOGR) is being considered as a replacement for the Oxygen Generator, Field Portable (OGFP) that is currently used to supply supplemental oxygen to sick and wounded Soldiers in the field. In February, the U.S. Army Medical Department Board (USAMEDDBD) conducted an operational test using Soldiers from the 44th Medical Brigade during a field training exercise to test the effectiveness and suitability of the set up and operation of the FOGR to provide critical care.

According to Archie C. Kinnebrew Jr., lead test officer with USAMEDDBD, the success of the February test event will inform decisions that determine if and when the FOGR is fielded to Army units.

“There is truth in operational testing. Army leadership uses the results from test events to facilitate risk-reduction for product fielding,” Kinnebrew said. “The test articles under consideration will not only be evaluated by the testing community, but will also include input from the intended end-users on the battlefield. These test events ensure that Soldiers have a voice in the acquisition and deployment of new and improved systems.”

Kinnebrew had words of praise for the 44th Medical Brigade Soldiers who put the FOGR to the test through a series of exercises.

“The Soldiers of the 44th Medical Brigade – 36th Medical Company Area Support and the 240th Forward Resuscitative Surgical Team – were enthusiastic while putting the FOGR to use during the test,” Kinnebrew said. “They provided honest feedback, which greatly assisted the test team in capturing the data needed. Their participation was key to the success of this test event and is greatly appreciated. The professionalism and dedication displayed by these Soldiers really made me feel proud.”

Austin S. Langdon, assistant product manager with Warfighter Deployable Medical Systems, U.S. Army Medical Materiel Development Activity at Fort Detrick, Md., said the Army is replacing the OGFP because of sustainability issues.

“The old device was designed to operate 10-12 hours a day and 7 days a week. This is the case for most portable Oxygen Concentrators (POCs) on the market. However, when the device sits on a shelf, maintenance issues arise from lack of use, which are very costly,” Langdon said.

Langdon said that USAMMDA is currently testing two commercial off-the-shelf (COTS) products. One of the devices being tested has the ability to be placed on the shelf for up to three years without any need for maintenance, a bigger advantage over the current model in use.

“Since this is a COTS item, the devices being tested are already in production and can currently be purchased. However, the Army still needs to test it for airworthiness and also MIL-STD-810H testing,” Langdon said.

MIL-STD-810 is a United States Military Standard that emphasizes tailoring an equipment’s environmental design and test limits to the conditions that it will experience throughout its service life, and establishing chamber test methods that replicate the effects of environments on the equipment rather than imitating the environments themselves. Although prepared specifically for military applications, the standard is often used for commercial products as well.

The OGFP weighs 12 pounds and was an advanced development item that was specifically designed for the Army’s use. FOGR outweighs the current device by a few pounds, but has less maintenance issues.

Langdon said that the Army is looking to get quantitative data from the testing that will allow for informed decisions on these variants and if they will fit the end user’s needs.

When asked when FOGR will be available to the Army, he added, “These devices are both already in production. If one is selected, it will be fielded to the force later this year.”

By Jerome Mapp

Langdon Tactical – LTT Optimized Performance Trigger Bar

Friday, March 26th, 2021

One Upgrade That No Beretta Should Be Without

The LTT Optimized Performance Trigger Bar will instantly smooth out the action of your 92, M9, 96 or PX4, providing an incredibly short (1/10”) single action reset, allowing you to get back on target faster for more accurate follow up shots.

You can install it as a stand alone upgrade or combine it with the Trigger Upgrade In A Bag Kit.

DroneShield – Successful US Air Force Base Demonstration

Friday, March 26th, 2021

DroneShield Ltd (ASX:DRO) (“DroneShield” or the “Company”) is pleased to announce, in partnership with Trakka Systems, a successful demonstration of the TIPS-C (Trakka Interceptor Package Solution) at Eglin Air Force Base. The TIPS-C is designed to better serve the ISR, inspection, UAS and C-UAS marketplaces.

On February 24, 2021, an executive team from DroneShield and Trakka Systems met with multiple key decision makers and members from Hanscom and Eglin AFB at the Northwest Florida Fairgrounds to demonstrate the unmatched capabilities of the TIPS-C total package solution.

The TIPS-C, mounted on a mobile platform, provides a flexible, early detection, identification, and neutralizing counter UAS solution for the rapidly evolving UAS threat. Trakka’s partnered vendor DroneShield provided DroneSentry-C2™ software, which is designed to produce a common operating picture for drone detection and tracking within the local airspace. DroneSentry-C2™ ingested the data from several sensors, including the radar, radio frequency (RF), and our TrakkaCam TC-300 to provide an intuitive visualization of the airspace and potential drone threats.

DroneShield’s DroneSentry-C2™ integrates RadarZero™ radar, TrakkaCam TC-300, and DroneOptID™ AI-based computer vision engine to provide real-time drone detection and tracking with slew-to-cue camera for visual threat assessment and video evidence recording.

The backbone of the TIPS-C is an open architecture command and control center with TrakkaMaps TM-100 proprietary mapping solution that can incorporate any number of third-party complementary detection and neutralizing devices. Our advanced software algorithms can detect, identify, and automatically track drones of any size while dismissing other moving objects (including birds) in detections zones. This feature all but eliminates the false positives that challenge other systems, thereby saving precious time in the heat of imminent threats.

The demonstration was, overall, an excellent success. Additional feedback from our partners and customers set the TIPS-C above any product they’ve seen:

“No OEM has been able to successfully demonstrate an integrated system that detects UAS, slews optical sensor onto target and tracks, then classifies the UAS.”

“Setup time from covert to up and detecting was less than 10 minutes. For a mobile, multi-sensor system that’s unprecedented.”

“Integrated capability allows operators to detect and protect while on the move and at the halt in a low-SWaP form factor.”

“The autonomous nature of not only multi-sensor detection, but fusion and continuous tracking of the UAV with little to no cognitive burden on the analyst or operator.”

The breakthrough capabilities of the TIPS-C provide an expert suite of low risk, seamlessly integrated UAS detection and mapping solutions that are flexible, aware, reliable, and economical.