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Abdullah Jabr (Montanuniversität Leoben, Chair of structural and functional ceramics)01/09/2026, 10:50Cold sintering3. Oral presentation
The rapid technological advancement has increased the demand for high-performance electroceramics. While extensive efforts have focused on discovering alternative materials, it is increasingly recognized that innovative processing strategies can unlock the full potential of established material systems. In this context, the cold sintering process (CSP) has emerged as a transformative approach,...
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Levent Karacasulu (University of Trento)01/09/2026, 11:40Cold sintering3. Oral presentation
Cold sintering has emerged as an effective low-temperature densification route for a wide range of ceramic systems, relying on dissolution–precipitation mechanisms promoted by a transient liquid phase under applied pressure. In this study, a natural aluminosilicate-based material, namely a volcanic ash originating from Mount Etna, Sicily, is investigated to elucidate the chemical and...
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Mr Emeric SANCHEZ (CIRIMAT)01/09/2026, 12:00Cold sintering3. Oral presentation
Recent advancements in low-temperature sintering techniques are driven by two key objectives: reducing energy consumption and environmental impact while enabling the synthesis of novel materials, composites, and functional devices. Among these methods, the Cold Sintering Process (CSP) emerges as a highly efficient approach for producing high-density ceramics. This process combines ceramic...
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Thomas Herisson de Beauvoir (CNRS, CIRIMAT Toulouse)01/09/2026, 13:40Cold sintering2. Invited speaker (by invitation only)
The Cold Sintering Process has emerged as a breakthrough in sintering science. Related to the chemical mechanisms leading to densification, new concerns about the composition/nature/behavior of grain boundaries (GB) emerged, different than what is usually observed in high temperature solid-state diffusion sintering techniques. This leads to widely affected properties of sintered materials, and...
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Nicolas Albar (CIRIMAT)01/09/2026, 14:10Cold sintering3. Oral presentation
The emergence of low-temperature sintering techniques (e.g., Cold Sintering Process (CSP), Hydrothermal Sintering (HS), Cold SPS (C-SPS), or ultra-fast SPS (Flash SPS)) allows the production of technical ceramics by activating mechanisms different from those involved in conventional sintering, to stabilize and densify metastable materials and/or to control microstructures (composition and...
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Dr Sergio Ferrer-Nicomedes (Universitat Jaume I)01/09/2026, 14:30Cold sintering3. Oral presentation
Sodium-ion batteries have recently gained attention as a sustainable alternative to lithium-based systems. However, the use of liquid electrolytes remains a major safety concern, motivating the development of solid-state alternatives. NASICON ceramics, particularly Na3Zr2Si2PO12 (NZSP), exhibit high ionic conductivity and excellent electrochemical stability, thus being strong candidates for...
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Ambre Tanniou01/09/2026, 14:50Cold sintering3. Oral presentation
The Cold Sintering Process (CSP)(1) is used to densify composite cathodes consisting of $Li_1._3Al_0._3Ti_1._7(PO_4)_3$ (LATP) as the solid-state electrolyte and $LiFePO_4$ (LFP) as the active cathode material. First, the parameters governing the CSP (pressure, temperature, nature and quantity of liquid phase) were optimized to densify each material independently. The (thermo-)chemical...
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Dr Yuki Yamaguchi (National Institute of Advanced Industrial Science and Technology (AIST))01/09/2026, 15:30Cold sintering2. Invited speaker (by invitation only)
In recent years, interest has grown in low-temperature ceramic sintering and fabrication of multi-materials for various devices. We have developed an acid-base chemical densification (ABCD) process capable of producing dense ceramic bulk materials at temperatures below 200ºC. This process applies the chemical reaction between metal oxide hydrous gels and alkaline hydroxide powders to...
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Mr Sheheryar Khan Awan (Universita di Trento (Italy))01/09/2026, 16:00Cold sintering3. Oral presentation
BaTiO3 is a lead-free piezoceramic of growing interest because of the new RoHS regulations on hazardous materials.Hence,there is a growing interest in the sustainable fabrication of BaTiO3 to be employed in piezoelectric devices e.g.,tunable devices for electronic and biomedical applications.Among various sustainable processing routes,Reactive Hydrothermal Phase Densification(rHLPD) is of...
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Mrs amna korbi (CIRIMAT - ICGM)01/09/2026, 16:20Cold sintering3. Oral presentation
The Cold Sintering Process (CSP) is an innovative consolidation technique enabling densification at low temperatures (below 300 °C) through the combined action of uniaxial pressure and a transient liquid phase. Unlike conventional sintering, CSP relies on solution mediated mass transport, making it particularly suitable for materials such as amorphous silica (SiO₂), which usually require much...
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Thomas Herisson de Beauvoir (CNRS, CIRIMAT Toulouse)Cold sintering2. Invited speaker (by invitation only)
The Cold Sintering Process has emerged as a breakthrough in sintering science. Related to the chemical mechanisms leading to densification, new concerns about the composition/nature/behavior of grain boundaries (GB) emerged, different than what is usually observed in high temperature solid-state diffusion sintering techniques. This leads to widely affected properties of sintered materials, and...
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