Strategic Minerals

Empowering Your Procurement Endeavors with a Vast Array of Essential Resources, Including Strategic Minerals, to Drive and Enhance Your Operations.

Rare Earth Metals

Rare earth metals are a group of 17 elements that are found in low concentrations in the ground, but they are abundant in the Earth’s crust. The reason they are called rare earth metals is because they are difficult to extract and process, which makes them expensive.

Collectively, we have a diverse range of supply options for the 17 rare earth elements. This includes sourcing from a variety of countries, and offering a variety of supply solutions to meet the needs of our customers.

50 Strategic Minerals

We offer a wide range of supply solutions for over 50 Strategic Minerals and Rare Earth Elements. We find resources through innovative survey methods, extract with low environmental impact, and work within countries to explore, develop, produce, and refine.

Our solutions meet the needs of customers in automotive, electronics, energy, defense, and medical industries. We are committed to reliable and sustainable supplies, ethical supply chains, and research for efficient extraction and processing.

Looking for a reliable and strategic sourcing partner?


Our Products

Elements, Compounds & Materials




Aluminum

Employed across nearly every industry within the economy.

Beryllium

It’s employed as an alloying agent in aerospace and defense sectors.

Cesium

Utilized for research and development purposes in various studies.

Europium

Utilized in phosphors and for regulating nuclear control rods.

Germanium

Utilized in fiber optics and applications involving night vision.

Indium

Utilized in the construction of liquid crystal display monitors.

Lutetium

Utilized in medical imaging, electronics, and certain cancer treatments.

Nickel

It’s used in stainless steel, superalloys, and rechargeable batteries.

Praseodymium

They find use in magnets, batteries, alloys, ceramics, and colorants.

Samarium

It’s employed in permanent magnets, reactor absorbers, and cancer therapy.

Terbium

Utilized in magnets, fiber optics, lasers, and solid-state tools.

Tungsten

It’s Mainly Employed in Crafting Wear-Resistant Metals.

Zinc

Primarily utilized in metallurgy to produce galvanized steel.

Antimony

Utilized in lead-acid batteries as well as in the production of flame retardants.

Bismuth

Utilized in medical and atomic investigations for research purposes.

Cobalt

Utilized in rechargeable batteries and high-performance superalloys.

Fluorspa

Utilized for aluminum, cement, steel, gasoline, and fluorine production.

Graphite

It’s utilized for lubricants, batteries, and fuel cells.

Iridium

It’s utilized for anode coating and chemical catalysis.

Magnesium

Utilized for alloys, as well as metal reduction purposes.

Niobium

Predominantly utilized in steel production and advanced alloys.

Rhodium

Utilized in catalytic converters, electrical elements, and catalyst applications.

Scandium

Utilized in alloys, ceramics, and for fuel cell applications.

Thulium

Utilized in diverse metal blends and laser applications.

Vanadium

Primarily used as alloying agent for iron and steel.

Zirconium

Utilized in the high-temperature ceramics and corrosion-resistant alloys.

Arsenic

Applied in the realm of semiconductor technology.

Cerium

Catalytic converters, ceramics, glass, metallurgy, and polishes utilize this.

Dysprosium

Utilized in permanent magnets, data storage tools, and lasers.

Gadolinium

Utilized in medical imaging, steelmaking, and as permanent magnets.

Hafnium

Utilized in nuclear control rods, alloys, and high-temperature ceramics.

Lanthanum

Catalysts, ceramics, glass, polish, metallurgy, and batteries come from it.

Manganese

Utilized in steel production and for battery applications.

Palladium

Utilized as catalyst agent and in catalytic converters.

Rubidium

Utilized for electronics research and development purposes.

Tantalum

In electronic components, mainly capacitors and superalloys are utilized.

Tin

Utilized for safeguarding steel through coatings and alloy applications.

Ytterbium

Used for catalysts, scintillometers, lasers, and metallurgy.

Barite

Utilized in the extraction of hydrocarbons from natural sources.

Chromium

Utilized mainly in stainless steel and diverse alloys.

Erbium

Utilized in fiber optics, optical amplifiers, lasers, and glass dyes.

Gallium

Utilized in integrated circuits and optical components, such as LEDs.

Holmium

Utilized in permanent magnets, nuclear control rods, and lasers.

Lithium

Rechargeable batteries find utility in various devices and applications.

Neodymium

Used in magnets, rubber catalysts, and medical-industrial lasers.

Platinum

Catalytic converters utilize a catalyst to facilitate chemical reactions.

Ruthenium

They’re utilized as catalysts and in computers for electrical connections.

Tellurium

Utilized in solar cells, thermoelectric gadgets, also as alloy addition.

Titanium

Utilized in the formulation of metal alloys or as a white pigment.

Yttrium

Utilized for ceramic, catalysts, lasers, metallurgy, and phosphors.

Who We are

VXM Secure is a Service-Disabled Veteran-Owned Small Business (SDVOSB) specializing in Strategic Mineral Sourcing, Medical Equipment and IT Services such as Cyber Security, Network deployment & Infrastructure.

Our experts have many years of experience serving the needs of U.S. government agencies, including the Department of Defense (DoD), the Department of Energy (DOE), and NASA. We are proud to be a trusted partner to all US Government agencies, and we are committed to providing them with the highest quality products and services.

LEARN MORE



NEW JERSEY

Headquarters

VMX Secure – Making the impossible, possible!
1- 877 VXM-7927

www.vxmsecure.com

info@vxmsecure.com

LOCATIONS

We Are Everywhere




GET IN TOUCH

Follow Our Activity

Follow us on social media, where you can stay connected and up-to-date with our latest news and insights.