Ceramics Folio
Technical ceramics, also known as “high-performance” or “engineered” ceramics, are characterized by combinations of inorganic materials with physical and thermal […]
Folio
Powder Metallurgy and Sintered Materials Folio
Powder metal products are used across a spectrum of industries such as aerospace, automotive, marine, and biomedical. Common products created
Milling and Sieving Folio
Milling and Sieving remains bound by the use of intermediaries, such as solvents, screens or milling media. This can be
Advanced Polymers Folio
The polymer and polymer-based materials industries continue to innovate with new products and procedures. These new polymers, and new manufacturing
Mechanochemistry Folio
Mechanochemistry used to rely on dated equipment for laboratory- and production-scale operations. ResonantAcoustic® Mixing brings a perfected system that can
Battery and Energy Storage Manufacturing Folio
The future needs millions of new batteries and energy storage devices, from on-chip batteries to reserves the size of buildings.
Energetics Mixing Folio
People in energetics are well aware of the difficulties involved in the research and production of their materials. So finding
Pharmaceutical Folio
Pharmaceutical manufacturers and engineers are often working with small quantities of delicate particles that need to be combined in very
Advanced Materials Processing Folio
The category of advanced materials generally includes technical ceramics, polymers, semiconductors, biomaterials and nanomaterials. Nanomaterials are generally defined as material
Adhesives and Sealants Folio
Working with materials designed to stick can be complicated when the engineers and manufacturers don’t want them to stick. This
Additive Manufacturing Folio
Contactless ResonantAcoustic® Mixing (RAM) technology is proving itself integral to groundbreaking Additive Manufacturing (AM) and 3D printing designs, materials, and processes with its speed, power, and repeatability. Additive manufacturers are using RAM to mix inks with high solids loading, and to develop inks for DIW (direct-ink-write) applications in a wide range of materials. NASA developed a new GRX-810 alloy with almost double the tensile strength, more than double the ductility, and orders of magnitude (10X-2000X) better creep rupture life than conventional
superalloys and current 3D-printable metal parts. GRX-810 can be used in space launch systems, heat exchangers in nuclear power plants and other extreme temperature environments, thanks to RAM technology.
Inhomogeneity adversely affects print quality, but RAM homogeneously mixes. RAM can also mill, sieve, and coat 10X-100X faster than conventional methods, yet gently enough for energetic and explosive inks.