30 August 2026 to 3 September 2026
Europe/Berlin timezone

Session

Sintering for additive manufacturing

31 Aug 2026, 14:10

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  1. Elisa Torresani (San Diego State university)
    31/08/2026, 14:10
    Sintering for additive manufacturing
    2. Invited speaker (by invitation only)

    In this study, the sintering behavior of stainless steel 316L components produced by binder jetting process is detailed. It explores the effects of initial particle/pores distribution, gravity, and friction on sintering, leading to anisotropic shrinkage and shape distortions. Dilatometry tests were conducted to experimentally investigate the anisotropy behavior and microstructural evolution at...

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  2. Christopher Lankhof (Delft University of Technology)
    31/08/2026, 14:40
    Sintering for additive manufacturing
    3. Oral presentation

    Silica glass is a versatile material prized for its transparency, chemical and thermal resistance. While it has been traditionally manufactured via glass blowing and the float glass method, recent advances in additive manufacturing (AM) for glass are enabling previously unattainable design freedom. One of the most widely used AM methods is based on powder processing, where a photoresin laden...

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  3. Ms Chantal-Liv Lehmann (wbk Institute of Production Science)
    31/08/2026, 15:00
    Sintering for additive manufacturing
    3. Oral presentation

    Vat photopolymerization (VPP) enables high-resolution additive manufacturing of ceramic components and offers significant potential for multi-material processing. A key challenge is the development of compatible binder systems that ensure defect-free debinding and subsequent sintering, particularly at material interfaces. In this work, a versatile binder system was developed and applied to...

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  4. Antonio Maria Asensio (Catalonia Institute for Energy Research (IREC))
    31/08/2026, 15:20
    Sintering for additive manufacturing
    3. Oral presentation

    The development of alternative electrolyte materials with higher ionic conductivity than conventional 8mol% yttria-stabilized zirconia (8YSZ) is of strong interest for solid oxide cells, particularly when combined with techniques such as ceramic additive manufacturing. Among these materials, ScSZ exhibits superior ionic conductivity; however, Sc-doped electrolytes been reported to promote the...

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  5. Inge Lindemann (Fraunhofer IFAM Dresden)
    31/08/2026, 16:00
    Sintering for additive manufacturing
    2. Invited speaker (by invitation only)

    Electrical steel sheets are conventionally produced by rolling followed by punching. With the ongoing electrification there is a growing demand for thinner laminations. However, further thickness reduction by conventional manufacturing is challenging. Moreover, alloy design is limited to compositions with sufficient ductility for mechanical processing.
    Additive screen printing represents an...

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  6. Dr Bram Neirinck (Schaeffler Aerosint SA)
    31/08/2026, 16:30
    Sintering for additive manufacturing
    3. Oral presentation

    In the current day industry laser based Additive Manufacturing (AM) of metals is a well-established production technique. Its main limitation, linked to inherent the rapid melting and solidification, is the narrow range of compatible materials. In comparison, sintering based AM offer a potentially much larger library to select from, including many of the traditional Powder Metallurgical...

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  7. Christian Weck
    31/08/2026, 16:50
    Sintering for additive manufacturing
    3. Oral presentation

    Metal Binder Jetting (MBJ) combined with sintering enables Additive Manufacturing (AM) of carbide rich steels that are standard in tooling but are prone to cracking in beam based AM.

    For high-speed steel HS6 5 3 (1.3344, AISI M3) and cold-work steel X245VCrMo10 5 1 (AISI A11) we developed printing, debinding and sintering parameters to yield crack free, low distortion parts. We map the...

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  8. Tesfaye Molla (The University of Melbourne)
    31/08/2026, 17:10
    Sintering for additive manufacturing
    3. Oral presentation

    Anisotropic shrinkage during sintering is limiting the widespread adoption of Binder Jet Additive Manufacturing (BJAM) by undermining its ability to produce near-net-shape parts. While emerging evidence indicates that powder segregation during BJ printing induces particle-size heterogeneities, its influence on the anisotropic sintering of BJ-printed samples has not been explored. This study...

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  9. Julian Fanghanel (Pennsylvania State University)
    Sintering for additive manufacturing
    1. Plenary speaker (by invitation only)

    The processing of electroceramic materials remains foundational to the trillion-dollar electronics industry, integral to our contemporary computational, communication, and Artificial Intelligence infrastructure. This lecture provides a comprehensive review of the state-of-the-art in electroceramic processing, spanning established, high-speed manufacturing and a transformative emerging...

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