XC3 Weaponlight

NEMO Unveils 2027 Collection Built to Expand Adventure, Elevate Comfort, and Extend Gear Life

July 11th, 2026

New ultralight shelters, accessible sleep systems, redesigned camp furniture, and U.S.-made sleeping pad highlight the brand’s 25th anniversary year.

{DOVER, N.H.} – Marking 25 years of outdoor gear innovation, NEMO has unveiled its 2027 collection, introducing new products and meaningful refinements across shelters, sleep systems, and furniture, with continued commitments to sustainability, durability, and public lands advocacy. The 2027 line reflects NEMO’s belief that great adventures begin with thoughtful design, and every addition is intended to help more people get outside and stay outside longer.

“Adventure is about letting go of total control,” said Cam Brensinger, founder and CEO of NEMO. “To support those experiences, we put everything we can into the quality of what we create, the care we extend to our customers, and the responsibility we take for the places where adventure happens. Our 2027 line represents the best work in what will soon be 25 years since I founded the company.”

Ultralight Innovation Moves Tent Category Forward 
The updated Hornet OSMO™ and all-new Wildcat OSMO™ strengthen NEMO’s position at the forefront of ultralight backpacking. The in-house material science, industrial design, engineering and testing done by the team at NEMO are unmatched in the category.

Hornet OSMO™ receives thoughtful refinements that improve durability and performance without sacrificing the lightweight experience that has made it a favorite among backpackers. Joining the lineup, Wildcat OSMO™ delivers a roomier, feature-rich alternative built on Hornet’s technical DNA, giving adventurers a new option that balances low weight with increased livability.

Beginning in 2027, every NEMO OSMO backpacking tent except Hornet™ Elite OSMO™ will feature solution-dyed, 100% recycled, bluesign® APPROVED fabrics.

Sleep Systems Designed for Every Adventure 
NEMO’s award-winning sleep category continues to evolve with updates aimed at both seasoned adventurers and newcomers alike.

Disco™, specialty outdoor retail’s top-selling down sleeping bag, expands with a new 0-degree model that delivers cold-weather performance while maintaining the roomy comfort and sustainability-focused design that define the collection.

The Tensor™ All-Season and Tensor™ Trail sleeping pads receive construction updates to the Spaceframe™ baffles that notably reduce weight and improve warmth while preserving the comfort, stability, and quiet sleep experience that have made Tensor an industry benchmark. The new longitudinal trusses maintain a comfortable and stable sleep surface while offering increased warmth. 

Building on the success of Eclipse™ All-Season, the new Eclipse™ All-Season Tent Floor solves the common frustration for tent-sharing backpackers: unused space. Purpose-built with NEMO’s Spaceframe™ baffles, the tent floor matches the tapered footprints of modern backpacking tents, maximizing sleeping area while providing four inches of cushioning and an R-value of 6.2 for year-round comfort.

For adventurers just getting started, the new Solstice™ sleeping pad provides an approachable, dependable platform that delivers trusted NEMO comfort at a more accessible price point. Durable recycled fabrics, longitudinal baffles, and the reliable performance of NEMO’s Spaceframe™ baffles create an inviting entry point for new campers and backpackers.

In a milestone for the brand, NEMO’s popular Switchback™ closed-cell foam sleeping pad will now be manufactured in the United States for North American customers. Foam production, pad manufacturing, and packaging will all take place domestically. The updated pad also features a new Fortress Blue colorway and increased warmth with an improved R-value of 2.2.

A New Era of Camp Comfort 
NEMO’s furniture collection receives significant updates headlined by a fully redesigned Moonlite™ and updated Stargaze™ EVO-X.

The redesigned Moonlite™ delivers a more comfortable and intuitive experience through a refined seat patterning and reclining mechanism, ergonomic corner mounts, forged aluminum hubs, increased seat height, and a higher 350-pound weight capacity. A new stabilizing platform (included) improves performance on soft surfaces such as sand and loose soil.

Stargaze™ EVO-X builds on NEMO’s signature swinging and reclining design with a lighter, more portable package. Updated hardware and streamlined construction reduce packed size while increasing comfort, support, and weight capacity to 350 pounds.

Extending the Life of Outdoor Gear 
Further advancing its Adventure Forever® mission, NEMO will become the exclusive U.S. distributor of Storm Care Solutions, a U.K.-based leader in outdoor gear cleaning and waterproofing products. The partnership gives outdoor enthusiasts access to proven maintenance solutions that help apparel, footwear, tents, sleeping bags, and other gear perform better and last longer. 

The 2027 collection reflects NEMO’s enduring commitment to Innovation, community, and sustainability, the principles that have guided the company since its founding. To learn more about NEMO’s 2027 collection, please click here.

Armaments Center’s Zero-Defect Culture Embraces Agile and Other Modern Software Development Approaches

July 11th, 2026

?PICATINNY ARSENAL, N.J. – The U.S. Army Combat Capabilities Development Command (DEVCOM) Armaments Center has become the nexus for cutting-edge, safety critical software systems that deliver battlefield advantages for U.S. Soldiers.

While the Armaments Center is synonymous with developing weapons and ammunition hardware that formulate the U.S. Army’s lethal backbone, its software operates unseen in a critical juncture where Soldiers and complex systems perform battlefield coordination, advanced command & control and precision fire control that safely delivers modern firepower.

Be it operating a Handheld Mortar Ballistic Computer, generating fires through the modern Artillery Execution Suite (AXS), or entering precise fire missions using the Portable Excalibur Fire Control System, Soldiers routinely carry out complex military missions swiftly, accurately and safely, using Armaments Center-developed software.

Writing code that operates lethal systems cultivates a culture with a fundamentalist’s focus on safety and quality. This was affirmed in January when the Armaments Center earned its second Rear Admiral Grace M. Hopper Award for Software Maintenance, and in spending nearly two decades as the only Army organization appraised with a Maturity Level 5 designation in the CMMI Institute’s Capability Maturity Model Integration Development scale.

Recently, the Armaments Center Director, Chris Grassano, signed the “Armaments Center Modern Software Engineering Policy” which embraces the use of modern software development tools and techniques. This includes Agile software development and Modular Open Systems Approach (MOSA) architecture, as well as Continuous Integration / Continuous Development (CI/CD) and DevSecOps workflows and tools aligned with the state of the art in the field.

Agile software development has seen growing influence since 17 software practitioners published a manifesto in 2001 that highlights values such as constant collaboration, early and continuous delivery of software, working directly with customers, embracing changes in requirements and favoring software delivery over documentation. It is now widely considered the industry-standard model for the software development lifecycle.

Drawing on best practices and Agile principles employed during AXS development, the Mortars Software Development Team has led the charge on this, working to modernize legacy mortar fire control software for both mounted and dismounted units. The team developed the Common Fire Control Framework, a modular, flexible software architecture designed to adapt to evolving requirements, which enabled the creation of the Mortars App. These initiatives thrived at the Department of Defense’s Weapon Systems Software Summit.

Additionally, the Mortars Team pinpointed opportunities to modernize external processes which had historically slowed delivery to the warfighter. They created a new Standard Operating Procedure (SOP) to integrate Army Interoperability Certification (AIC) testing into its software development lifestyle.

Previously, an external agency had conducted AIC testing, which increased scheduling demands and costs. By leveraging integrated test teams and incorporating interoperability testing into planned test events, the new SOP reduced risks, costs, and delivery timelines.

Agile-based success can also be found in the AXS Development Team. AXS is software that helps streamline artillery operations, providing a more friendly and adaptable platform compared to its predecessor, the Advanced Field Artillery Tactical Data System.

The AXS Team fuses government leadership and industry expertise to deliver secure, high-quality software to the Capability Program Executive Office for Command, Control, Communications, and Network. Using the Scaled Agile Framework, the AXS team delivers capabilities in three-month increments while meeting the needs of the Army Capability Manager for Fires Cells and Targeting. Through continuous integration, continuous deployment automated testing and deep system knowledge, the team has supported live-fire experiments with major artillery platforms.

This government-led Agile approach allows the team to pivot on a dime in response to senior priorities, without delays caused by contract modifications. This transformative approach is occurring at an optimal time, as the Department of War has placed a tremendous focus delivering new capabilities at the speed of modernization.

The United States Ballistics Library (USBL), a modern, Agile-developed alternative to the NATO Ballistics Kernel, also stands at the forefront of the Armament Center’s software modernization efforts. Created at the direction of Army Chief Technology Officer Alex Miller, the USBL can be deployed as a standalone capability or integrated as a cloud-based microservice. It was launched in February 2025 and is well ahead of schedule, with full implementation in the cards this year.

The Armaments Center Software Factory (ACSF) was established to support the need to rapidly deliver weapons systems software such as United States Ballistics Library, Artillery Execution Suite, and the Common Fire Control Framework. The ACSF is a collection of people, tools, and processes that integrate enterprise tools into continuous integration pipelines to automate the build process, implement cybersecurity scanning early and often, and quickly produce working software that meets the needs of the Warfighter. ACSF is a unique software factory optimized for delivery of secure, high-quality weapons systems software.

ACSF integrates enterprise services such as the Army’s DevSecOps organization, with GitLab machines, project-specific tooling and custom continuous integration pipelines. It does this while maintaining compliance with Department of War and Army policies, including Army Directive 2024-02, which enables modern software development and acquisition practices.

Through initiatives such as CF2, AXS, USBL, and ACSF, the Armaments Center strives to redefine how safety-critical defense software is developed. The Armaments Center pursues a culture of improvement, embracing Agile-development and partnering with industry leaders, delivering secure, reliable and advanced software capabilities, and ensuring U.S. forces stay dominant on the modern battlefield.

By Ross Arnold, Maj. Johnathon Hardin, Marc Federico, Julia Gustafson, Christopher Fuller, David Bowlby, Picatinny Arsenal

Skapion Secures $36 Million Seed Funding to Accelerate Mobile Counter-Swarm Defense System

July 10th, 2026

Funding will accelerate development, system validation and expansion of the company’s engineering capabilities

Washington, D.C. / Ramat Gan, Israel, July 09, 2026 – Skapion, a defense technology company developing a mobile counter-swarm defense system for large-scale drone attacks, today announced that it has secured $36 million in Seed funding. The round was co-led by UP. Partners and Khosla Ventures, with participation from existing investors TBD VC, qFund and Fusion VC, new investor Stratos Ventures, and additional investors.

The investment comes as defense organizations worldwide accelerate efforts to field scalable counter-UAS and counter-swarm capabilities in response to the growing use of mass drone attacks across modern battlefields.

Skapion is developing a mobile, end-to-end counter-swarm defense system designed to detect, engage and neutralize large-scale drone attacks. The system is being developed to support hundreds of simultaneous engagements while significantly reducing interception costs compared with conventional air defense solutions. It is intended to operate alongside maneuvering forces or deployed in forward operating bases, critical infrastructure and fixed air-defense assets, including communication-denied , challenging weather conditions and contested operational environments.

The funding will accelerate engineering development, system validation and continued expansion of the company’s technical capabilities, while supporting engagement with defense organizations and strategic partners in Israel, the United States and allied markets.

Skapion was founded by an experienced team of defense, engineering and technology leaders. The founding team includes Brig. Gen. (Res.) Pini Yungman, former General Manager of Rafael’s Air and Missile Defense Systems division and one of the architects of Iron drone and David’s Sling – Israel’s advanced air-defense programs; Ido Bar-On, former defense executive at XTEND and retired IDF special operations officer; Gal Goren, Co-founder and CTO; entrepreneur Zafrir Yoeli; and defense entrepreneur Yaron Karp.

Skapion is headquartered in Washington, D.C., with its R&D center in Ramat Gan, Israel.

“Drone swarms require a fundamentally different approach to air defense,” said Ido Bar-On, Co-founder and CEO of Skapion. “Our system is designed from the ground up to address the scale, speed and operational demands of coordinated drone attacks. This investment enables us to accelerate development, expand our engineering team and bring this capability to defense customers facing one of today’s fastest-growing operational challenges.”

Rheinmetall Offers Croatia a Long-Term Strategic Industrial Partnership: Rheinmetall Unmanned Vehicles to Become a Centre of Future Defence

July 10th, 2026

Croatia is set to become one of Europe’s key hubs for the development, production and export of advanced defence technologies in the field of unmanned systems, creating new opportunities for domestic industry, exports, research and development.

ZAGREB, 8 July 2026 – Rheinmetall AG, one of Europe’s leading technology and defence companies, today presented Rheinmetall Unmanned Vehicles d.o.o., its joint venture with the Croatian company DOK-ING, marking the beginning of a long-term strategic industrial partnership between Rheinmetall and the Republic of Croatia.

The Inauguration Ceremony was attended by Andrej Plenkovi?, Prime Minister of the Republic of Croatia, Armin Papperger, Chief Executive Officer of Rheinmetall AG, Vjekoslav Majeti?, Founder of DOK-ING, members of the Croatian Government, as well as numerous representatives of Croatian state institutions, the diplomatic corps, industry, academia and international partners.

The establishment of the company represents the first step in Rheinmetall’s long-term vision for Croatia, which includes the development of Croatian industrial, technological and manufacturing capabilities in partnership with domestic industry, research institutions, universities and shipyards, integrating them into Rheinmetall’s European and global programmes. The objective is to position Croatia as one of Europe’s key centres for the development, production and export of unmanned systems and other advanced defence technologies.

ARMIN PAPPERGER, CEO OF RHEINMETALL AG:

“We aim to build a broad industrial partnership with Croatia that will include local suppliers, the shipbuilding industry, research institutions and academia. Croatia has the expertise, industrial tradition and talented people required to become a manufacturing and development hub for advanced defence technologies. Together, we can build capabilities that will serve Croatia, Europe and our allies, while creating new export opportunities for Croatian industry.”

The newly established Rheinmetall Unmanned Vehicles represents the first and most important step in implementing this strategy. The company will combine DOK-ING’s more than thirty years of expertise in unmanned systems with Rheinmetall’s global development, manufacturing and market capabilities, creating a new European centre for the development of next-generation unmanned ground platforms.

Croatian expertise as part of a global system

Research, development and engineering capabilities will remain in Croatia, while the joint venture will provide Croatian experts with access to global markets, advanced technologies, serial production and international development programmes.

Its objective is to develop a new generation of unmanned and autonomous ground platforms for military and security applications, including combat support systems, combat engineering operations, mine clearance and other high-risk missions, building on DOK-ING’s Komodo platform and Rheinmetall’s expertise in the integration of complex defence systems.

VJEKOSLAV MAJETI?, FOUNDER OF DOK-ING:

“More than thirty years ago, DOK-ING was founded on the belief that Croatian knowledge and expertise could create technologies capable of changing the world. Today, we are not closing one chapter—we are opening a new one. I firmly believe that technologies developed in Croatia will contribute to Europe’s security and demonstrate that Croatian industry can stand alongside the world’s leading companies as an equal partner. I am particularly proud that Croatian engineers will have the opportunity to develop, here in Zagreb, systems that will shape the future of the European defence industry.”

An industrial partnership that goes beyond a single investment

Rheinmetall’s strategy in Croatia extends far beyond the development of unmanned ground systems. The company is already present in the naval sector and has, over recent months, further expanded its cooperation with Croatian industry, the shipbuilding sector and academia. This creates the foundations for the long-term localisation of production, the development of new technologies and the stronger integration of Croatian companies into European defence programmes.

Rheinmetall’s industrial model is based on creating local value through the development of domestic suppliers, technology transfer, strengthened research and development, the creation of new jobs and the establishment of sustainable manufacturing capacities with strong export potential.

For this reason, Croatia’s role in Rheinmetall’s strategy extends well beyond hosting a single investment. Croatia has the opportunity to become Rheinmetall’s long-term industrial partner in Southeast Europe.

ANDREJ PLENKOVI?, PRIME MINISTER OF THE REPUBLIC OF CROATIA:

“I congratulate Rheinmetall and DOK-ING on strengthening their partnership, marking a new chapter in the development of Croatia’s defence industry and an important step forward in advanced technologies, innovation, and the strengthening of domestic industrial capabilities.

We want to build a Croatia that develops, manufactures, and exports the most advanced technologies while actively contributing to Europe’s security. This strategic partnership between DOK-ING and Rheinmetall confirms that Croatia is not only a user of advanced technologies, but also a country that helps develop and create them. In today’s evolving security environment, Europe is rapidly strengthening its defence capabilities and industrial base, and Croatia is actively contributing to these efforts. We are implementing the largest modernisation cycle of the Croatian Armed Forces, increasing investment in defence, and supporting the growth of Croatia’s defence industry, which brings together around 200 companies, employs more than 3,000 people, and achieves strong export results across EU and NATO markets. It is particularly important that key development activities will remain in Croatia, where a Centre of Competence for the development of autonomous and uncrewed ground systems will be established. This will enable Croatian engineers, experts, and researchers to play an active role in developing the cutting-edge technologies that will shape the future of defence and security.”

Rheinmetall’s approach is fully aligned with the objectives of Croatia’s Industrial Development Plan 2027–2034, including strengthening competitiveness, increasing exports, fostering innovation, accelerating digitalisation and integrating Croatian industry into European value chains. At the same time, the project contributes to strengthening Europe’s defence industrial base, resilient supply chains and technological sovereignty.

Prime Minister Andrej Plenkovi? and Armin Papperger, Chief Executive Officer of Rheinmetall AG, also held a bilateral meeting to discuss the further development of Rheinmetall’s activities in Croatia, future investments, the integration of Croatian companies into international supply chains and opportunities for expanding manufacturing and research capacities.

TECOM Establishes Marine Corps Robotics Integration Group and Counter Drone Team

July 10th, 2026

MARINE CORPS BASE QUANTICO, Va.— The Marine Corps has established theMarine Corps Robotics Integration Groupas its service-level organization responsible for integrating, standardizing, and institutionalizing training for Group 1 and Group 2 small unmanned aircraft systems and counter-small unmanned aircraft systems across the Total Force, as announced inMARADMIN 307/26.

Assigned under Marine Air Ground Task Force Training Command, Marine Corps Air Ground Combat Center, Twentynine Palms, California, MCRIG serves as the Marine Corps’ focal point for unmanned systems training integration, curriculum development, and education. The organization ensures emerging drone capabilities are transformed into standardized programs of instruction, instructor certifications, and enduring training products that can be delivered consistently throughout the Marine Corps.

“The battlefield continues to demonstrate that small unmanned aircraft systems are no longer niche capabilities; they are indispensable tools for reconnaissance, precision strike, force protection and survivability,” said Maj. Gen. Mark H. Clingan, commanding general, MAGTFTC, MCAGCC. “The Marine Corps Robotics Integration Group provides the institutional framework necessary to rapidly integrate validated capabilities into standardized training, ensuring Marines across the Total Force are prepared to employ and defeat these systems in future conflicts.”

The establishment of MCRIG reflects the Marine Corps’ continued effort to adapt to the rapidly evolving character of warfare, where inexpensive, commercially available unmanned aircraft have fundamentally changed how modern militaries detect, target, maneuver, and fight. MCRIG also establishes a deliberate process for transitioning emerging capabilities into formal Marine Corps training.

As the service-level integrator, MCRIG receives validated capability packages, including tactics, techniques and procedures, pilot courses and training requirements, from specialized organizations responsible for experimentation and operational assessment. Once validated, MCRIG develops curriculum, training support packages, and certification standards before distributing them through designated regional hubs that execute standardized instruction across the Fleet Marine Force.

Central to this process are two complementary organizations: the Marine Corps Attack Drone Team and the newly established Marine Corps Counter Drone Team.

“The Marine Corps Attack Drone Team and the Marine Corps Counter Drone Team are designed to move at the speed of technology. Through the analysis of exercises, operations, and purposely designed events we gain critical information about how systems should be employed or defeated,” said Col. Charles Anklam III, commanding officer, Weapons Training Battalion. “Our responsibility is to rigorously test ideas, validate capabilities, and rapidly transition those findings to MCRIG, where they become standardized training that benefits every Marine. This partnership allows us to remain agile to the constantly changing threat, innovate quickly, and provide the fleet with consistently reliable, credible, and operationally relevant information to increase lethality and survivability.”

The Marine Corps established MCCDT to accelerate counter-drone training development in the same way MCADT has supported and advanced attack drone capability development, experimentation, research, testing, and evaluation. Together, the two organizations provide Training Command a focused capability to study both sides of the unmanned systems fight: employment and defeat.

As an organic element of Weapons Training Battalion at Marine Corps Base Quantico, Virginia, MCCDT serves as Training Command’s dedicated counter-drone training development cell. Not designed to deploy as an operational force provider, MCCDT’s role is to identify the threat, test emerging solutions, validate practical tactics, and transition those findings to MCRIG for service-wide implementation.

MCCDT integrates lessons from MCWL, MAGTFTC, MCRIG, government partners, industry, and the Fleet Marine Force to ensure counter-drone tactics and training remain operationally relevant. This approach allows the Marine Corps to rapidly assess emerging threats, evaluate available technologies, and convert battlefield lessons into practical training requirements.

Using established Marine Corps guidance and approved training standards as its baseline, MCCDT conducts operational assessments and force-on-force evaluations to refine C-sUAS best practices. Once validated, those recommendations are provided to MCRIG for incorporation into institutional doctrine, curriculum, instructor certifications, and standardized training products.

This relationship creates a disciplined innovation pathway. MCADT and MCCDT move quickly to support the experimentation, assessment, and validation of tactics against emerging unmanned systems challenges, while MCRIG ensures those lessons become consistent, repeatable, and enduring training across the Marine Corps.

Together, these organizations create a continuous cycle of innovation and institutional learning, rapidly identifying and validating lessons through operational assessment, and incorporating them into formal Marine Corps training.

Designated TECOM regional hubs will execute MCRIG-approved courses throughout the Marine Corps, providing geographically distributed training while also returning operational observations and lessons learned to support continuous improvement of curriculum and tactics. The integrated training enterprise provides the Marine Corps with a sustainable framework capable of rapidly adapting as unmanned technologies evolve, ensuring Marines receive standardized, current, and operationally relevant instruction regardless of where they train.

The Marine Corps is also seeking motivated, technically proficient, and innovative Marines to help build this emerging capability. Marines interested in serving in select C-sUAS billets within MCRIG are encouraged to review MARADMIN 307/26 for eligibility requirements and application procedures.

The establishment of MCRIG and MCCDT represents another significant milestone in the Marine Corps’ broader modernization efforts, ensuring Marines remain prepared to employ and counter rapidly evolving unmanned systems while preserving the agility, lethality, and survivability required on tomorrow’s battlefield.

Story by Maj Hector Infante 

U.S. Marine Corps Training and Education Command

Shell Shock Technologies Announces .50 BMG NAS3 Case

July 10th, 2026

Third-party live-fire testing confirms substantial velocity gains; production is underway with expected availability in August 2026.

Eubank, KY (July 2026) – Shell Shock Technologies, LLC. (SST), a leading innovator in the ammunition industry, today announced the completion of independent live-fire testing for its .50 BMG NAS3™ case, with results confirming significant velocity and performance advantages over standard brass at standard operating pressures. The .50 BMG NAS3 case was developed to meet the demanding performance and logistics requirements of military and law enforcement end-users, as well as extreme long-range precision shooters. Production is currently underway, and SST expects the .50 BMG NAS3 case to be available for purchase on its website in August 2026.

Testing was conducted by Vairog US, LLC on March 31, 2026, using a 650-grain Ball projectile, WC860 propellant, and a CCI No.35 primer in a 28-inch barrel. At a 265-grain powder charge and 66,770  PSI, the SST NAS3 case produced 3,111  feet per second. For reference, standard brass-cased M33 Ball ammunition typically produces approximately 2,910 FPS. Testing was conducted across nine charge weights ranging from 245 to 285 grains, with zero primer or case failures recorded throughout.

The velocity advantage is a direct function of NAS3case architecture. The SST .50 BMG case features approximately 13.5 percent greater internal capacity than standard brass, roughly 330 grains of case volume, versus ~290 grains, enabling a meaningfully higher powder charge at equivalent pressures. The result is greater muzzle velocity and downrange energy without exceeding the cartridge’s standard pressure envelope.

Weight reduction is equally significant. At approximately 33.7 grams, the SST .50 BMG NAS3case is roughly 40 percent lighter than a comparable brass case (~54.85 grams). Across 1,000 rounds, that translates to approximately 46 pounds of weight savings, a logistics and mobility benefit with direct operational relevance for military and law enforcement personnel managing load weight in the field. This is also a meaningful advantage for long-range competition and precision shooting disciplines where every equipment decision matters.

The NAS3 case’s nickel-stainless steel alloy construction also contributes to cleaner extractions, faster cooling versus brass, and corrosion resistance that supports reliable performance under sustained fire and adverse environmental conditions.

“The .50 BMG has defined long-range precision and overmatch capability for generations. What we’ve done with the NAS3 case is take that proven platform and fundamentally change what it’s capable of delivering. Independent testing confirms what our engineering told us: more velocity, less weight, same pressure envelope. For the military and law enforcement operators and long-range precision shooters who depend on this caliber, that’s not an incremental improvement. That’s a new baseline,” said Peter Foss, Managing Partner and CEO of Shell Shock Technologies.

The .50 BMG NAS3 case is engineered for professional end-users who require every performance advantage the platform can deliver, and for precision shooters pushing the limits of extreme long-range capability.

Keep up with Shell Tech’s advanced ammunition on the website and social media platforms: Facebook, Instagram, X (formerly Twitter), and YouTube.

Thermal Comfort as a Tactical Advantage

July 10th, 2026

Expert interview with Martin Bentz, CEO of Outlast Technologies

Modern soldier systems are becoming more advanced, more protective and more complex. But with every additional layer of equipment, the microclimate close to the body becomes more critical. Heat build-up, perspiration, cold bridges and loss of comfort can all affect endurance, concentration and operational readiness.

Outlast Technologies addresses this challenge with textile technologies designed to support thermal balance, comfort and performance in demanding environments: Outlast® Temperature Regulation and Aersulate® high-performance insulation. In this interview, Martin Bentz, CEO of Outlast Technologies, explains why thermal comfort is becoming an increasingly important factor in military and protective textile systems.

Mr. Bentz, why is thermal management becoming such an important topic in modern soldier systems?

Modern protective clothing has to do many things at once. It must protect, support mobility, be durable, and often integrate with additional equipment such as body armor, backpacks, communication systems or load-bearing gear. This creates highly complex clothing systems.

The challenge is that every additional layer also influences the microclimate close to the body. Heat can build up, moisture can accumulate, and the wearer may start to sweat even before the physical workload becomes extreme. In military environments, this is not just a comfort issue. Thermal stress can increase physical strain and may make it harder to stay focused over long periods.

That is why we believe thermal comfort should be seen as part of operational performance. If the body is less distracted by overheating, sweating or chilling, the wearer has better conditions to remain comfortable, alert and ready to perform.

In many cases, textiles focus on moisture management. Why is that not always enough?

Moisture management is important, but it usually starts when perspiration is already there. The textile reacts to sweat by transporting it away from the skin. That can be useful, but it means the body has already entered a state of thermal imbalance.

Our approach with Outlast® Temperature Regulation is different. The technology is designed to act earlier. It helps absorb excess heat, store it and release it again when needed. The goal is to support a more balanced microclimate before the wearer becomes too hot or too cold.

For military and protective applications, this can be highly relevant because wearers often move between different activity levels and environments. A soldier may stand still for a period of time, then suddenly become highly active, then return to a lower activity level. Textile systems must be able to support these transitions.

How does Outlast® Temperature Regulation work in simple terms?

The technology is based on microencapsulated natural wax. These tiny capsules can absorb excess body heat when the wearer becomes too warm. When the body or the surrounding microclimate cools down again, the stored heat can be released back.

This helps reduce temperature peaks and supports a more stable microclimate. It is not about making a textile cold. It is about creating a more balanced comfort zone.

For the wearer, this can mean less overheating, less perspiration build-up and a more comfortable feeling during changing conditions. In some applications, tests have shown perspiration reduction of up to 48%, depending on product construction and use case. In demanding environments, this can contribute to reduced physical discomfort and better conditions for focus and endurance.

Where do you see the strongest potential for Outlast® Temperature Regulation in military applications?

There are many possible areas. Base layers are an obvious example, because they are worn directly next to the skin and strongly influence the body’s thermal perception. But the technology can also be relevant in linings, mid layers, gloves, socks, sleeping systems or textile components used under protective equipment.

One interesting area is clothing worn under ballistic protection or other heavy gear. These systems often limit ventilation, which can make the microclimate more challenging. A textile technology that helps manage heat and moisture build-up can provide a real comfort benefit.

We also see potential in situations with changing temperatures: moving between vehicles and outside environments, between heated indoor spaces and cold outdoor conditions, or between high activity and rest phases.

You also focus on Aersulate®. What makes this technology interesting for military and protective textiles?

Aersulate® is a high-performance insulation technology based on aerogel. Aerogel is known for its extremely low thermal conductivity. The challenge has always been to bring this performance into textile structures in a practical and wearable way.

With Aersulate®, we can enable thin, flexible and high-performing insulation concepts. This is especially interesting for military applications because volume, weight and freedom of movement are always critical. If a jacket, glove or protective textile can be thinner while still offering strong insulation performance, this opens completely new design opportunities.

The technology can also support multifunctional textile constructions. For example, it can be combined with different textile carriers, including solutions for protective or flame-resistant applications, depending on the construction and material concept.

Why is thin insulation such an important advantage?

In military clothing, bulk is a major issue. Thick insulation can restrict movement, increase pack volume and make layering more difficult. It can also interfere with equipment such as body armor, harnesses or backpacks.

A thinner insulation concept can help designers create garments that are easier to wear, easier to pack and better suited to complex equipment systems. It can also support better fit and mobility.

Another important point is performance under pressure. In real use, insulation is often compressed – for example at the shoulders under backpack straps, at the elbows, knees or seat areas. Many conventional insulation materials lose performance when compressed. Aersulate® can help address this challenge by enabling insulation concepts that perform even in demanding constructions.

How does this connect to RCT values and measurable performance?

In technical textiles, performance must be measurable. RCT values are a key indicator for thermal resistance, showing how effectively a material slows down heat flow.

With Aersulate®, strong insulation performance can be achieved in very thin textile constructions. Depending on the article, Aersulate® fabrics with a thickness of only 1.1 reach RCT values of 0.08, combined with low thermal conductivity values down to 0.028 W/mK. This gives product developers more freedom to reduce bulk, work with slimmer constructions or design advanced multilayer systems while still targeting measurable thermal performance.

Aersulate® also shows its strength under pressure. In a test with a 100 °C heating plate and a 5 kg weight applied to the fabric, the Aersulate® felt reached only around 60 °C after 12 minutes, while a comparable felt without Aersulate® reached around 75 °C. This makes Aersulate® especially relevant for applications where insulation has to perform in limited space, under load or close to heat sources.

For military and protective markets, measurable performance is essential. It is not enough for a material to feel good in a showroom. It has to deliver reliable benefits in demanding real-world conditions.

You mentioned flame-resistant constructions. How important is that for this target group?

It can be very important, depending on the application. Military and protective textiles often have to meet multiple requirements at once. Thermal comfort alone is not enough. A fabric may also need durability, flame resistance, abrasion resistance, breathability, low bulk or compatibility with other equipment.

This is where textile engineering becomes interesting. Aersulate® is not just an insulation material; it can be part of a broader construction concept. Depending on the textile carrier and system design, it can contribute to multifunctional fabrics that combine insulation with other protective properties.

The future of military textiles is not one single function. It is the intelligent combination of functions in one system.

What is the biggest misconception about thermal comfort in protective clothing?

Many people still think of comfort as something secondary – something nice to have after protection and durability have been solved. But in demanding applications, comfort has a direct impact on the wearer.

If a person overheats, sweats heavily or feels cold during low-activity phases, this creates additional stress. The body has to work harder to maintain balance. Over time, this can affect endurance, concentration and the overall ability to perform.

Thermal comfort should therefore not be seen as a luxury. It is part of functional performance.

What message would you like to give to military equipment developers and textile engineers?

Do not look at thermal comfort as an afterthought. Consider it from the very beginning of product development.

A garment or textile system can meet all formal requirements and still be uncomfortable in real use if the microclimate is not managed properly. Especially in military and protective applications, where equipment is worn for long periods and under high physical stress, this can make a major difference.

Our message is simple: advanced thermal management can help create better conditions for the wearer. Less thermal stress, better comfort and more design freedom are not separate goals. They are part of the same performance story.

About Outlast Technologies

Outlast Technologies is the Temperature Specialist in Textile and develops solutions for apparel, bedding, footwear, protective clothing, military and technical textile applications. Its portfolio includes Outlast® Temperature Regulation, based on microencapsulated natural wax, and Aersulate® high-performance insulation, designed to enable thin, efficient and multifunctional textile constructions.

For more information, visit www.outlast.com.

FirstSpear Friday Focus: Shadow Pack

July 10th, 2026

Not every mission looks like one. The FirstSpear SHADOW PACK was designed to offer a low-profile solution for carrying short rifles, sub-guns, or shotguns without advertising the fact. Its soft, non-tactical exterior blends into urban environments and plain-clothes operations where discretion isn’t a preference; it’s a requirement. Fully adjustable shoulder straps and a quick-release sternum strap keep the pack secure and allow for rapid removal when speed matters. 

Feature Call-Outs:

  • DISCREET, NON-TACTICAL EXTERIOR
  • LIGHTWEIGHT, DURABLE CONSTRUCTION 
  • QUICK-RELEASE STERNUM STRAP
  • CARRIES SHORT RIFLES, SUB-GUNS, AND SHOTGUNS

At its core, the SHADOW PACK combines lightweight, durable construction with a purpose-built interior designed around the mission. Multiple interior and exterior pockets provide organized storage for magazines, tools, and mission-specific gear, while a rear zippered compartment keeps small essentials accessible and out of sight. Available in Black, Multicam Black, and Stone/Manatee Grey/Rust, the SHADOW PACK delivers covert capability without unnecessary bulk or compromise.

Built for military personnel, law enforcement officers, and prepared professionals who demand reliable equipment, the SHADOW PACK delivers low-visibility carry without sacrificing organization or access. Purpose-driven, covert, and comfortable; it brings discreet capability to those who need it most. FirstSpear is the premier source for cutting-edge tactical gear for military, law enforcement, and those who train. For more information, visit First-Spear.com.