Advanced Materials & Additive Manufacturing Demo Day

From Pellets to Ceramics: Advanced Materials & Additive Manufacturing Demo Day

Posted on by Mihir Mehta

Ceramic 3D Printing & Advanced Filament Extrusion Tour in Canada

Join SRC, 3DCERAM, and 3devo for a free on-site event series featuring expert talks, live instrument demonstrations, and application discussions on ceramic additive manufacturing, filament development, and advanced materials workflows.

Time: 9:00 AM ET – 1:45 PM ET

  • See the technology in person
  • Application-led presentations
  • Consult with experts

See additive manufacturing workflows beyond slides:

This tour is designed for researchers, engineers, and technical teams who want to move beyond product overviews and understand how ceramic 3D printing and filament extrusion fit into real development workflows. The program connects scientific challenges with process capability, materials behavior, instrument design, and practical application discussions led by SRC and supplier specialists.

Questions this event helps address

  • How can ceramic additive manufacturing expand design freedom for advanced materials?
  • When does extrusion-based ceramic printing make sense for dark ceramics such as silicon carbide and silicon nitride?
  • How can labs develop, validate, and optimize new filament materials with better process control?
  • What is learned faster when researchers can see the equipment, material flow, and printed parts in person?

Why this matters with SRC

  • SRC brings supplier expertise into a Canadian technical support context.
  • The event is structured for universities, government labs, and industrial R&D organizations.
  • Attendees can move directly into consultation meetings and application discussions after the sessions.
  • Live demos help teams assess workflow fit before planning a deeper technical evaluation.

Tour Details:

One event series, three Canadian stops. Each session includes technical talks, live demos, networking, and direct conversations with SRC, 3DCERAM, and 3devo. Replace the placeholder registration links below with your final event URLs.

Montreal Ottawa Hamilton

École de Technologie Supérieure (ETS):

  • Date: Tuesday, May 19, 2026
  • Time: 9:00 AM ET – 1:45 PM ET
  • Address: 531 R. Jean d’Estrées, Montréal, QC H3C 6M8
  • Room: B-3402, ÉTS Building B

University of Ottawa, STEM Complex:

  • Date: Wednesday, May 20, 2026
  • Time: 9:00 AM ET – 1:45 PM ET
  • Address: 150 Louis-Pasteur Private, Ottawa, ON K1N 9A7
  • Room: STM 117

McMaster Manufacturing Research Institute:

  • Date: Friday, May 22, 2026
  • Time: 9:00 AM ET – 1:45 PM ET
  • Address: 230 Longwood Rd S, Hamilton, ON L8P 0A6
  • Room: MMRI classroom

Event Agenda:

Each stop follows the same half-day format, combining expert presentations with networking and hands-on technology exposure.

9:00 AM – 9:15 AM Introduction by SRC
9:15 AM – 10:00 AM Jose’s talk – From Material Idea to Controlled Application: A Practical Approach to Filament Development and Q&A
10:00 AM – 10:15 AM

Coffee Break
10:15 AM – 11:00 AM
 Rouslan’s talk – Ceramic 3d printing with Multi-Additive Technology printer: capabilities, materials and applications and O&A
11:00 AM – 12:00 PM
 3devo Demo – Filament Maker TWO
12:00 PM – 12:45 PM 3DCERAM Demo – M.A.T. (Multi Additive Technology)
12:45 PM – 1:45 PM

Lunch and Discussions

Featured Presentations:

Two supplier-led sessions designed for technical audiences evaluating materials, process capability, and additive manufacturing workflow fit.

Rouslan Svintsitski - 3DCERAM José Rui Capitão - 3devo

Rouslan Svintsitski | Area Sales Manager, 3DCERAM Sinto SAS		 José Rui Capitão | Application Specialist, 3devo B.V.
Rouslan Svintsitski brings more than 30 years of experience in ceramic processes and technologies, spanning technical ceramics, extrusion, and international business development in ceramic 3D printing. His recent work has focused on advanced ceramic materials and additive manufacturing workflows for demanding applications in investment casting, aerospace, and defense.

Ceramic 3D Printing with Multi-Additive Technology Printer: Capabilities, Materials and Applications

This session explores extrusion-based ceramic additive manufacturing with a focus on fused filament fabrication for advanced ceramics. It examines why extrusion-based approaches can be especially relevant for dark ceramics such as silicon carbide, where optical limitations can make other ceramic AM routes more challenging.

  • Ceramic FFF workflow from feedstock to printed green part
  • Debinding and sintering pathway
  • Material opportunities including SiC and other advanced ceramics
  • Part quality, densification, and performance considerations
  • Applications where high-quality ceramic AM parts remain difficult to source
 José supports customers worldwide in material selection, material research, and recycling-oriented workflows using advanced extrusion technologies. He combines technical engineering expertise with customer-focused problem solving in material innovation environments.

Advanced Filament Extrusion: Turning Materials into Filament through Tools, Theory, and Innovation

This session provides a structured look at how raw materials are transformed into high-quality filament through controlled extrusion workflows. It covers key equipment, extrusion theory, material behavior, process parameters, and strategies for new material development.

  • Material preparation and feedstock considerations
  • Core filament extrusion theory
  • Critical process parameters and material behavior
  • Structured approaches to new material development
  • Technical comparison of filament-making capabilities across applications

 

 

Live Instrument Demonstrations:

The tour is designed to bring prospects into the room with the equipment. Attendees will see the instruments, discuss workflow details, and connect process capability to their own application requirements.

Filament Maker TWO – Advanced Extrusion System

3DCERAM M.A.T. (Multi Additive Technology)

See how extrusion-based additive manufacturing can support ceramic and metal part development using a platform designed to combine multiple deposition methods with integrated green machining. The session will center on capabilities relevant to complex ceramic geometries, dark ceramic processing, and post-print workflow considerations.

  • Explore ceramic 3D printing routes for advanced materials and complex parts
  • Understand workflow differences between filament, pellet, and paste-based approaches
  • Evaluate how green machining may improve part detail and surface finish
  • Discuss technical fit for research and industrial development workflows

3devo Filament Maker TWO

See a controlled filament extrusion workflow designed for material validation, process development, and repeatable filament production. This demonstration is especially relevant for teams developing new materials, refining process settings, or connecting filament performance to downstream additive manufacturing workflows.

  • Assess how filament development fits into material innovation workflows
  • Discuss parameter control, consistency, and repeatability
  • Explore material development and recycling-oriented use cases
  • Connect feedstock development with additive manufacturing readiness

 

Who Should Attend:

This event is designed for Canadian technical audiences working across material development, process engineering, and additive manufacturing.

Research & Academic Teams

  • Materials science researchers
  • Ceramic engineers
  • Additive manufacturing researchers
  • University labs and research centres

Government & Innovation Labs

  • Government laboratories
  • Advanced manufacturing groups
  • Process development specialists
  • Technology evaluation teams

Industrial R&D

  • Materials and polymer development teams
  • Manufacturing and production engineers
  • Technical managers evaluating new workflows
  • Innovation leaders seeking consultation discussions