Supplier sign in
Home
STAY INFORMED
Subscribe to our monthly newsletter.
Your email address will never be disclosed to any third party.
Read our privacy notice.

       

EVENT
29.10.2024 - 30.10.2024
Share this event
Type: Colloquium
Duration: 2 days
Starts: 29.10.2024
Ends: 30.10.2024
Place: Glatt Ingenieurtechnik, Weimar, Germany

Entry: paid

Glatt Colloquium on Powder Technology

Colloquium

Discover interesting possibilities for the synthesis and functionalization of advanced powder particles.

What to expect?
You will get a comprehensive overview of processes for thermal powder production:
  • Particle/process gas interaction
  • Production of raw materials and precursors
  • Processes in the synthesis reactor
  • Downstream processes
  • Analytics
  • Application examples

For synthesis, coating and calcination of micro- and and nanopowders, treatment in a pulsating hot gas pulsating hot gas flow has proven to be advantageous in numerous cases. Learn more about this technology and its potential.

We have succeeded in bringing together leading scientists in this field. In this way, we can shed light on the entire process chain in the production of novel powders, both theoretically and by means of selected examples.

Who should attend?

Are you a materials scientist, product developer and are you involved in research or production? The colloquium is basically aimed at anyone who is looking for novel ways to manufacture, coat and thermally post-treat fine powders – from the nano to the micrometer range.

Solutions for complex stoichiometry and crystal structure requirements, for example in mixed oxides, will be considered, as well as options for organic and inorganic core-shell coating and aspects of calcination.

The combination of theoretical considerations and practical experience takes into account different levels of prior knowledge.
 

Event organizer

Glatt Ingenieurtechnik GmbH
Glatt Ingenieurtechnik GmbH
Glatt is specialized in intelligent particle design for the generation and functionalization of powders and granulates with defined, adjustable properties. The focus is on particles and powders for pigments, catalytic, ceramic or battery materials as well as for granules and pellets as additives for e.g. industrial salts, detergents and cleaning agents, fertilizers, pesticides, food, feed, dietary supplements and pharmaceuticals. Encapsulation of flavors, enzymes, vitamins, microorganisms, probiotics or fatty acids (PUFA) is just as possible as encapsulation of essential oils and other active, sensitive substances to be protected. With Glatt APPtec®, a unique technology for spray calcination, it is possible to generate, coat and then calcine particles in a pulsing hot gas stream in a single process step. As a pioneer in fluid bed and spouted bed technologies, Glatt masters these important processes for the formulation and optimization of particle properties through defined spray agglomeration, spray granulation, spray coating or (micro)encapsulation as well as through combinations of these processes. Also in the high temperature range. Glatt supports the product idea from the early phase of product formulation through process development to scale-up to production scale. Under the leadership of the Glatt Process & Plant Engineering teams, customized production plants for nutrition, fine chemicals, pharmaceuticals, and biotech applications are successfully planned and commissioned. Worldwide. Whether based on powder synthesis, fluid bed or spouted bed technology, Glatt also offers certified contract manufacturing for customers without their own production capacities.
Last update: 07.06.2024

Related articles

Ceramic raw materials from the pulsating hot gas stream Creating customized raw material products on a technical scale. Example: barium strontium cobalt iron oxide (BSCF), doped and coated zirconium dioxide.
Ceramic raw materials from the pulsating hot gas stream
Creating customized raw material products on a technical scale. Example: barium strontium cobalt iron oxide (BSCF), doped and coated zirconium dioxide. By using Glatt’s innovative powder synthesis technology and the associated spray drying and calcination processes, new opportunities in raw material production have been explored. In this article, the inherent potential of barium strontium cobalt iron oxide (BSCF), doped and coated zirconium dioxide is described. Keywords Zirconium dioxide, BSCF, raw material development, spray drying, calcination, powder synthesis Authors Dr-Ing. Viktor Drescher is a materials engineer and holds a doctorate in coating technology from the Technical University of Berlin. At Glatt, he works in business development and is responsible for the high-temperature processes powder synthesis, high-temperature fluidized bed and chemical vapor deposition (CVD). Dr rer. nat. Johannes Buchheim obtained his PhD from Friedrich Schiller University in Jena, Germany. He has been working as a project engineer in Glatt’s Application and Formulation Technology department on powder synthesis
02.02.2024  |  1818x  |  Specialist article  | 
Pulversynthese - Partikeldesign optimiert Batteriematerialien
Pulversynthese - Partikeldesign optimiert Batteriematerialien

This item is only available in German
15.05.2023  |  1212x  |  Product description  |   | 
Beschichtetes Zirkonoxid für die Medizintechnik
Beschichtetes Zirkonoxid für die Medizintechnik

This item is only available in German
28.10.2021  |  2683x  |  Specialist article  |   | 

Related items

PORTALS
BulkSolids-Portal Schuettgut-Portal Recycling-Portal
Related
Bulkgids.nl
SIGN UP FOR OUR NEWSLETTER
Newsletter archive
Service and contact
ContactDisclaimerPrivacyAdvertising
FOLLOW US
Linked