Test Your Novel Alloy Composition with Our Atomised Powder Trials

Our Atomised Powder Trials offer you the unique opportunity to test your novel alloy compositions before committing to purchasing our cutting-edge atomiser technology. This is your chance to experience firsthand the quality and precision of our Vacuum Inert Gas Atomisation (VIGA) technology and see how it can revolutionise your projects.

MPI Ire 3A SM411 20

Experience Innovation

Why Choose Atomised Powder Trials?

When developing new materials, especially novel alloy compositions, the importance of high-quality, consistent powders cannot be overstated. Our Atomised Powder Trials provide a risk-free way to evaluate the performance and suitability of your innovative alloys. Here’s what you can expect:

Proof of Concept: Validate the potential of your alloy compositions in real-world applications.

Performance Evaluation: Test the mechanical properties, particle size distribution, and purity of the powders produced.

Optimisation: Fine-tune your alloy formulations with precise control over the atomisation process.

3D printer printing metal. Metallic powder for laser sintering machine for metal. Metal powder is sintered under of laser into desired shape. Modern additive technologies 4.0 industrial revolution

How It Works

Innovation begins with exploration. Our Atomised Powder Trials offer you the perfect platform to test and refine your novel alloy compositions with the assurance of using top-tier VIGA technology. Before you invest in our atomiser technology, experience the precision, quality, and potential that our atomised powders can bring to your projects.

Close-up of a 3D printing process using Direct Metal Laser Sintering to fabricate a detailed metal mechanical part with advanced manufacturing technology.

Submit Your Alloy Composition: Provide us with the details of your novel alloy composition and any specific requirements or goals you have.

3D printer printing metal. Metallic powder for laser sintering machine for metal. Metal powder is sintered under of laser into desired shape. Modern additive technologies 4.0 industrial revolution

Powder Production: Our experts will use VIGA technology to produce atomised powders from your alloy composition, ensuring top-quality results.

Steel blades of turbine propeller 3D printing. Close-up view. In B/W. Selected focus on foreground

Comprehensive Analysis: Receive a detailed report on the powder’s properties, including particle size distribution, purity, and mechanical characteristics.

3D printer printing metal. Laser sintering machine for metal. Metal is sintered under the action of laser into desired shape in working chamber. Modern additive technologies 4.0 industrial revolution

Review and Optimise: Use the trial results to refine your alloy composition and production parameters before making a final decision.

Alloys

Discover how our technology can transform your ideas into groundbreaking solutions. Contact us today to start your Atomised Powder Trial and take the first step towards unlocking the full potential of your novel alloys.

AlNiCo

Aluminium Bronze

Aluminium Lithium

Aluminium Silicon Magnesium

Aluminium Tin Copper

Aluminium Transition Lanthanides

Magnetic Properties

Marine Propellers

Aerospace Applications

Temperature Stable Structural Alloys

Automotive Bearings

High Strength Structural Alloys

Bismuth Telluride

Peltier Effect Devices

Chromium Aluminium Yttrium

Chromium Iron Carbon Silicon

High Performance Coatings

Thermal Spray Powders

Cobalt Chromium Transition Metals

Dental Alloys

Copper Barium

Copper Chromium Zirconium

Copper Indium Gallium Selenide (CIGS)

Copper Manganese Nickel

Copper Titanium Tin

Copper Yttrium

Superconductor Precursor Powders

Beryllium Free Electrical Conductors

Photovoltaic Materials

Metal Bonded Cutting Tools

Metal Bonded Cutting Tools

Superconductor Precursor Powders

Gold Platinum Palladium Silver Indium

Gold Silver Copper

Brazing Alloys

Thick Film Coatings / MIM Jewellery

Iron Chromium Carbon

Iron Manganese

Iron Neodymium Boron

Iron Silicon

Iron Silicon Aluminium

Tooling with Low Refractory Inclusions

Wear Resistant Rims for Rolling Stock

Magnets

Transformer Cores (Low-Loss)

Magnetic Components

Magnesium Alloys

QE25, AZ91 Alloys for Metal Matrix Alloys

Nickel Aluminides

Nickel Cerium

Nickel Chromium Iron Silicon Boron

Nickel Chromium Molybdenum Boron

Nickel Lanthanides

Nickel Titanium Silicon Boron

Structural Components & Coatings

Catalysis

Plasma Spray Powders

Corrosion Resistant Coatings

Fuel Cells/Hydrogen Storage/Batteries

Novel Brazing Powders

Silver Cadmium Zinc Copper

Silver Copper (72/28)

Brazing Alloy

Brazing Pastes

SS 304/316

Metal Injection Moulding

SS 304/316

Tooling Applications

Terbium Iron

Optico-Electronic Devices

Tin Bismuth

Tin Lead Silver Bismuth

Thick Film Solder Coatings

Surface Mount Technology