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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.

US Army Selects Four Contractors for Engineer Autonomous Breaching Capability to Automate Battlefield Breaching Operations

July 10th, 2026

DETROIT ARSENAL, Mich. – The Capability Program Executive Mission Autonomy announced today the selection of four companies for the Engineer Autonomous Breaching Capability (EABC) initiative, a key effort to modernize engineer support for Soldiers on the battlefield.

This project will develop and prototype autonomous systems capable of rapidly breaching complex obstacles and minefields under direct observation and fire, minimizing personnel exposure and ensuring the safe passage of follow-on forces. The selected contractors will provide advanced robotic systems designed for beyond-line-of-sight autonomous control, directly enhancing the Army’s ability to conduct multi-domain operations.

The four selected companies – Caterpillar (Irving, Texas), Forterra (Clarksburg, Md.), IDV USA (York, Pa.) and Overland AI (Seattle) — were chosen for their innovative approaches to autonomous breaching. Their proposed technologies range from autonomous commercial equipment to purpose-built robotic platforms, both featuring modular payloads to support varied breaching requirements.

Formal contract awards for the EABC initiative are expected to be finalized in the coming weeks. Once awarded, the project will advance into a series of demonstrations and assessments, culminating in a Transformation in Contact unit assessment in early 2027. This rotation will allow the Army to collect direct, unit-level feedback to inform the production decision for the next generation of autonomous engineer systems.

By Ashley John

NATO Selects Saab’s GlobalEye

July 9th, 2026

At the NATO summit in Ankara, Türkiye, Secretary General Mark Rutte announced that NATO will begin formal negotiations with Saab regarding the acquisition of up to ten GlobalEye Airborne Early Warning & Control (AEW&C) systems. 

At this point, Saab has not signed a contract or received an order related to the announcement.

NATO has identified the need to replace its existing AEW&C capability as part of a broader effort to modernise and strengthen the Alliance’s surveillance and situational awareness capabilities. The announcement by the NATO Secretary General confirms that Saab’s GlobalEye is NATO’s chosen solution for its future AEW&C capability.

“We are honoured and proud to support NATO in its next-generation AEW&C capability. We are confident that GlobalEye is the right choice for the Alliance, delivering proven capability, adaptability and long-term operational advantage. Today’s announcement clearly positions GlobalEye as the world-leading solution for advanced airborne early warning and control. We look forward to the next steps in the negotiations,” says Micael Johansson, President and CEO of Saab.

GlobalEye will enable the Alliance to monitor vast areas of land, sea and air, significantly enhancing NATO’s ability to detect and respond to a wide range of threats. GlobalEye combines Saab’s Erieye Extended Range radar with an advanced suite of sensors and a multi-domain Command and Control (C2) system, on a Bombardier Global 6500 aircraft. As an AEW&C system, GlobalEye provides long-range detection with high update rates, capable of identifying low-observable and stealthy threats, as well as drones, ballistic and hypersonic missiles, even in complex environments characterised by heavy clutter and electronic jamming.

Saab will now proceed to formal negotiations with the NATO Support and Procurement Agency (NSPA) to secure a contract.

New Autonomous Monitor Prevents Drone Crashes in Real Time

July 9th, 2026

University of Houston Engineer Develops Safety System to Protect Drones from Sudden Hazards
Key Takeaways:

  • A University of Houston engineer developed a real-time safety system that helps quadrotor drones avoid crashes.
  • The new technology can prevent accidents caused by unexpected events like a gust of wind or anything that pushes the drone off course.
  • The research moves advanced drone safety technology forward.

HOUSTON, July 7 — A University of Houston engineer has built a new safety monitor system for the operation of quadrotor drones that can keep them on course and out of danger in real time.

Typically, a drone follows directions of its pilot or onboard software, but if there is an unexpected occurrence, like a gust of wind, the drone can be thrown off course and head for danger. That’s when this new system would step in, enabling the drone to stay within safety limits to complete its task. 

The quadrotor (or quadcopter), the most popular type of drone, is powered by four rotors, is extremely agile and can hover with precision. Because it’s easy to fly, and fits nicely into tight spaces, it is popularly used in everything from structural inspections to photography. 

Marzia Cescon, David C. Zimmerman Assistant Professor of Mechanical & Aerospace Engineering at the UH Cullen College of Engineering, calls her new system a “safety supervisor.” She announced the system in the American Society of Mechanical Engineers Digital Collection.

The safety supervisor is actually a new module onboard the drone. Cescon created it to guarantee run-time assurance, a safety mechanism that continuously watches the system while it is flying. To keep the drone safe, the module monitors the drone’s tilt and position in real time.

“You can think of it as an invisible fence that defines where the drone can safely be. Whenever the ‘safety supervisor’ predicts that the drone will get dangerously close to the fence and potentially crash onto it, the algorithm we designed pushes it away from it,” said Cescon, who developed and tested the supervisor algorithm in the UH Advanced Learning, Artificial Intelligence and Control laboratory.

Technically, the supervisor is implemented as a Control Barrier Function, that is a mathematical tool used to decide if the drone is approaching danger, and if so, takes control of the flight to keep things safe.  

“This work advances the state of the art by showing how CBF-based RTA schemes can be reliably integrated with standard optimal controllers and deployed on real hardware, highlighting practical tradeoffs between various implementations. The work fills an important gap between CBF and RTA theory and deployable real-world control systems,” said Cescon.

Savox Communications and Beechat Network Systems Collaborate to Extend MissionCore with Tactical MANET Connectivity

July 9th, 2026

Espoo, Finland – Savox Communications today announced a collaboration with Beechat Network Systems to evaluate interoperability between the Beechat Kaonic 1S next-generation secure mesh radio and the Savox MissionCore system. The collaboration aims to extend MissionCore’s ability to deliver resilient voice and data connectivity across mounted and dismounted operations. The companies have formalised the collaboration through a Memorandum of Understanding.

Savox MissionCore is an open and interoperable mission platform designed to modernise battlefield networks with limited disruption. Built on a software-defined, modular, IP-based architecture, it integrates voice, video, and data into a scalable C4ISR environment, helping defence forces connect existing assets and transform operational data into actionable situational awareness.

Through the collaboration, tactical MANET connectivity is introduced into the MissionCore environment via the Kaonic 1S, a rugged software-defined radio designed for secure, decentralised communications in denied and infrastructure-free conditions. The architecture supports connectivity across soldiers, vehicles, drones, and other mission nodes, enabling a self-forming and self-healing communications layer at the tactical edge.

The interoperability evaluation extends MissionCore beyond mounted systems into the dismounted domain, enabling mission-critical voice, data, and sensor information to move more efficiently between command elements, deployed units, and remote assets. This supports improved situational awareness and faster operational decision-making.

The collaboration will focus on validating interoperability across dismounted, mounted, and sensor-enabled scenarios, including integration with situational awareness applications and remote sensor connectivity.

Jerry Kettunen, CEO of Savox Communications, said:

“Modern operations require seamless movement of mission-critical voice and data across the battlespace. Our collaboration with Beechat demonstrates how MissionCore can integrate MANET capabilities to support connectivity in denied and degraded conditions.”

Nicholas Quinn, CEO of Beechat Network Systems, said:

“Kaonic 1S is designed for secure, decentralised communication without reliance on fixed infrastructure. Integrating this capability with MissionCore highlights how resilient connectivity can support coordination and situational awareness in complex environments.”

Beechat is part of the NATO DIANA 2026 cohort, reflecting its role in advancing dual use communications technologies for defence and security applications. In Finland, VTT Dual Use Launch Pad serves as a NATO DIANA accelerator site focused on strategic technologies including advanced communications, 5G/6G and quantum technologies.

www.savox.com

SIG SAUER Recognizes Medal of Honor Recipients with Commemorative Firearms

July 9th, 2026

NEWINGTON, N.H., (July 9, 2026) – SIG SAUER, an industry-leading manufacturer of cutting-edge firearms, electro-optics, ammunition, and advanced concepts, recognized four Medal of Honor recipients for their sacrifice, service, and commitment and presented each soldier with a commemorative SIG SAUER pistol.

At the SIG SAUER Experience Center in Epping, N.H., Master Sergeant Earl D. Plumlee, Staff Sergeant David G. Bellavia, Staff Sergeant Salvatore A. Giunta, and Staff Sergeant Ryan M. Pitts, received commemorative SIG SAUER M17 pistols. The SIG SAUER M17 and M18 are the official sidearms of America’s Armed Forces.

Master Sergeant Plumlee, Staff Sergeant Bellavia, Staff Sergeant Giunta, and Staff Sergeant Pitts were each awarded the Medal of Honor for their service during the War on Terrorism and for unique acts of bravery that risked their own lives to save and protect others. Their stories of extraordinary heroism can be viewed at the Congressional Medal of Honor Society website.

About the Commemorative SIG SAUER Pistol

  • The SIG SAUER Medal of Honor M17 pistol was designed from concept to production by SIG Custom Works, an exclusive program at SIG SAUER to engineer and build-your-own customized pistol. The Medal of Honor M17 pistol is hand-polished with a black chrome finish and features gold-plated controls.
  • The grip is American walnut sourced from Appalachia with high-grade figuring and with the Medal of Honor medallion featured on both sides. The sight plate is also engraved to match the Medal of Honor ribbon.
  • Each firearm has a unique engraving on the left side of the gun with each Medal of Honor recipient’s name and rank, as well as their rank earned at retirement.

In line with its mission to support the military, SIG SAUER has a strong history of recognizing U.S. servicemembers, including in 2019 presenting a commemorative SIG MK25 pistol to Medal of Honor recipient Command Master Chief Britt Slabinski and releasing a short documentary honoring his service. In 2025, the SIG SAUER Experience Center Museum hosted a tribute display for Medal of Honor recipient Captain Larry L. Taylor showcasing his heroic service in Vietnam. In 2026, SIG recognized the U.S. Army’s 250th anniversary at the Pentagon with commemorative M17 pistols for the Secretary of the Army and Army leadership.

Burlington Celebrates Commissioning of State-of-the-Art Dyehouse at Raeford, NC Manufacturing Facility

July 9th, 2026

Demonstrating Significant Investment in Domestic Manufacturing and Support of the U.S. Military

RAEFORD, N.C. — July 7, 2026 — Burlington Industries (“Burlington”), a leading U.S. manufacturer of advanced textile solutions, today celebrated the commissioning of its newly modernized dyehouse at its manufacturing operation in Raeford, NC, marking a significant investment in the future of domestic textile production and the continued support of the U.S. military.

The commissioning ceremony brought together company leaders, employees, community partners, and elected officials to recognize the completion of the project and the important role the Raeford operation continues to play in America’s textile manufacturing base.

“Our Dyehouse investment demonstrates our confidence in the Raeford operation, our employees, and the critical role this facility plays in supporting those who protect our freedoms, ” said Jeffrey P. Pritchett, Chief Executive Officer of Elevate Textiles, the parent company for Burlington.

“We are proud to continue a legacy of serving the military while strengthening American manufacturing capabilities right here in North Carolina. ”

The Raeford facility produces the specialized fabrics used in military dress uniforms and remains the only U.S. manufacturer producing these fabrics domestically. The Raeford operation currently supplies fabrics supporting dress uniform programs for the Air Force, Army, Coast Guard, Marines, Navy, and Space Force.

“As we celebrate this investment, we also celebrate the employees whose dedication and expertise have made the Raeford operation an industry leader for more than 70 years,” said Guy Lucas, President of Burlington. “Their commitment to excellence has helped ensure that military personnel across all six branches of the U.S. Armed Forces receive the highest-quality uniform fabrics. This new state-of-the-art dyehouse is an investment in our future, but it is also an investment in our people, giving them the tools and technology needed to continue that tradition well into the future.”

A ribbon-cutting ceremony featuring company leaders and attending officials formally marked the commissioning of the new dyehouse. Burlington extends its sincere thanks to U.S. Representative Richard Hudson, NC Representative Garland Pierce, Raeford Mayor John K. McNeill III, Hoke County Board of Commissioners Chairman James Leach, and Hoke County Commissioner Mary Blue McCollum for their attendance and continuing support.

As Burlington looks to the future, the company remains committed to investing in its employees, supporting the communities in which it operates, and preserving critical domestic manufacturing capabilities that serve both national defense and the U.S. textile industry.