Media Summary: nx = 30 ny = 20 xmin = -30 xmax = 30 ymin = -20 ymax = 20 uniform_refine = nx = 120 ny = 80 xmin = -30 xmax = 30 ymin = -20 ymax = 20 initial_adaptivity = Phase-field; finite element method; thermodynamics; mass diffusion; right: conserved field variable; left: non-conserved field ...

Case Ii Two Particle Sintering - Detailed Analysis & Overview

nx = 30 ny = 20 xmin = -30 xmax = 30 ymin = -20 ymax = 20 uniform_refine = nx = 120 ny = 80 xmin = -30 xmax = 30 ymin = -20 ymax = 20 initial_adaptivity = Phase-field; finite element method; thermodynamics; mass diffusion; right: conserved field variable; left: non-conserved field ... Phase-field; finite element method; thermodynamics; mass diffusion; left: conserved field variable; right: non-conserved field ... The densification process and final shape of the laminate can predicted in advance with the help of simulation tool. The in situ observation of the first stage of

B. Buesser, A. Gröhn, S.E. Pratsinis, “

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Case-II-two-particle-sintering-(trial)-c
Case-II-two-particle-sintering-(trial)-dM/dc
Sintering - use case from the Particle Simulation group at the Fraunhofer IWM
Case-I-two particle sintering (trial)-c
Ceramic sintering simulation--two equal sized particles (successful case)
Sintering of two particles
Case-I-two particle sintering (trial)--dM/dc
Ceramic sintering simulation--two nonequal sized particles (successful case)
11 - Sintering & Densification: Solid-State vs Liquid-Phase
Simulation animation - Sintering of two layers laminate
Experimental observation of the first stage of sintering on CeO2 microspheres
Sintering-2
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Case-II-two-particle-sintering-(trial)-c

Case-II-two-particle-sintering-(trial)-c

nx = 30 ny = 20 xmin = -30 xmax = 30 ymin = -20 ymax = 20 uniform_refine =

Case-II-two-particle-sintering-(trial)-dM/dc

Case-II-two-particle-sintering-(trial)-dM/dc

nx = 30 ny = 20 xmin = -30 xmax = 30 ymin = -20 ymax = 20 uniform_refine =

Sintering - use case from the Particle Simulation group at the Fraunhofer IWM

Sintering - use case from the Particle Simulation group at the Fraunhofer IWM

Simulation of the

Case-I-two particle sintering (trial)-c

Case-I-two particle sintering (trial)-c

nx = 120 ny = 80 xmin = -30 xmax = 30 ymin = -20 ymax = 20 initial_adaptivity =

Ceramic sintering simulation--two equal sized particles (successful case)

Ceramic sintering simulation--two equal sized particles (successful case)

Phase-field; finite element method; thermodynamics; mass diffusion; right: conserved field variable; left: non-conserved field ...

Sintering of two particles

Sintering of two particles

Sintering

Case-I-two particle sintering (trial)--dM/dc

Case-I-two particle sintering (trial)--dM/dc

nx = 120 ny = 80 xmin = -30 xmax = 30 ymin = -20 ymax = 20 initial_adaptivity =

Ceramic sintering simulation--two nonequal sized particles (successful case)

Ceramic sintering simulation--two nonequal sized particles (successful case)

Phase-field; finite element method; thermodynamics; mass diffusion; left: conserved field variable; right: non-conserved field ...

11 - Sintering & Densification: Solid-State vs Liquid-Phase

11 - Sintering & Densification: Solid-State vs Liquid-Phase

Uncover the mechanics of

Simulation animation - Sintering of two layers laminate

Simulation animation - Sintering of two layers laminate

The densification process and final shape of the laminate can predicted in advance with the help of simulation tool.

Experimental observation of the first stage of sintering on CeO2 microspheres

Experimental observation of the first stage of sintering on CeO2 microspheres

The in situ observation of the first stage of

Sintering-2

Sintering-2

4 will go to 1 1 will go to

TiO2 Sintering by Molecular Dynamics

TiO2 Sintering by Molecular Dynamics

B. Buesser, A. Gröhn, S.E. Pratsinis, “