MJOLNER SYSTEMS
Next Generation
Function Materials
Materials and systems for decisive advantages - any domain.
Next Generation Armour Materials (NGAM)
Next Generation Reactive Materials (ORM)
C4ISR
Integrated Systems
NGAM (Next-Generation Armour Materials) is Mjolner’s proprietary family of novel armour technologies, created to surpass the structural and ballistic limits of traditional steel and ceramic-based composites. Built on advanced material architectures and unconventional protection mechanisms, NGAM is designed to unlock step-change improvements in survivability, weight efficiency, and integration flexibility across vehicles, aerospace platforms, naval systems, and personal protection.
At Mjolner, we redefine personal ballistic protection.
30% Lighter, 40% Thinner & Sub Minimal BFD - Highest Performance RF2/RF3/RF3+ Plates In The World.
NGAM family of materials delivers next generational mass efficiency for STANAG 4569 Level 2 to Level 4+ platform protection.
NGAM BASED SURVIVABILITY
At Mjolner, we aim to deliver true head protection against Near Peer Threats.
MK1 - RF2, sub‑10mm BFD and weighing under 1.4kg. Mk1 aims to systematically address blast‑to‑brain damage (bTBI).
MK4 ISS is an active thermal regulated, modular frag‑liner that delivers scalable basllistic protection while ensuring operator sustainment/comfort.
Full lower body + Torso coverage: ≤ 3 kg (6.6 lbs)
Active Liquid Cooling/Heating.
Next Generation Armour Materials [LAR-C]
Extreme resistance to impact, corrosion, abrasion & oxidation with high thermal use tolerances.
Mjolner safeguards your mission across the harshest environments & climates.
Material Expertise
Mjolner’s materials team combines over decades of focused R&D and world-class academic partnerships to deliver next generation industrial coatings:
-
Amorphous Alloy Coating: A field-proven, cost-competitive solution for drill heads, injection molds, and other high-wear surfaces.
-
Nano-Gradient Metal-Ceramic Coating: Next-generation impact-resistant coatings with inherent environmental resistance, proven in aerospace applications.
-
Bulky Micro-Gradient Al-Ti Composite: Our novel innovation was originally designed for defense - A category defining composite that’s ready to prove its industrial impact in mining and automotive.
Together, our expertises translates into longer component life, fewer change-outs, and substantial lifecycle cost savings across major industrial applications.
Application Methods - The Process
Our Tailored Coating Process
-
You Define the Mission: Tell us your component and performance requirements.
-
We Engineer & Sample: We customize material formulations & methods and deliver test samples.
-
You Validate: Run your application-specific tests; if needed, we refine the formulation.
-
We Finalize & Deliver: Lock in coating methods, process your parts, and share the performance data.
We are here to Precisely Tuned to Your Needs.
Thermal Spray
Cold Spray
HVOF/HVAF
Laser Cladding
Technology Highlights
At Mjolner, we develop next-generation material technologies designed to push performance beyond the limits of conventional systems.
With world-leading expertise in bulk metallic glasses, alloys, ceramics, and carbon-based composites, we innovate and deliver high-performance solutions across survivability, lethality, reactive materials, aerospace and very-low-Earth-orbit satellite coatings.
Most of our materials are novel inventions developed in-house. Together, these proprietary material stack and deep technical knowledge enable us to translate advanced defence innovations into high-performance industrial applications.
"At Mjolner, we thrive on tackling the toughest challenges - moving ideas from prototype to full maturity in months. As an integrated R&D and manufacturing powerhouse, we don’t sit on theorized solutions - we build them. Whatever your need is, engage our team and we’ll find a way to deliver the breakthrough you’re after."
Project Updates
NGAM Based PPE Systems
Development in Progress:
Backer Material Joint R&D
Austere Medicine Clothing
(Academic Partners)
Development in Progress:
Complete