第十二届先进陶瓷国际会议
Invited Speakers
A.High and Ultrahigh Temperature Ceramics and Composites
B.Nano-laminated Ternary Carbides, Nitrides and Borides and Their 2D Counterparts MXenes/MBenes
C.Polymer-derived Ceramics
D.Transparent Ceramics and Luminescent Materials
E.Advanced Porous Ceramics For Energy and Environment Application
F.Ceramic Thin Films and Coatings
G.Advances in Ceramic Matrix Composites
H.Advances in Powder Processing and Sintering
Originated from traditional firing processes for structural and functional components, modern sintering technology arises as an advanced and essential tool for a variety of applications. In recent years, two trends have been witnessed in this old and new research field. One is the perusing of high efficiency in sintering, for which external fields such as electricity or stress are usually exploited. The other one is realization of sintering at low temperature, for which reaction process during densification are typically involved.
 
Accordingly, novel technologies such as flash sintering, cold sintering and bioinspired densification (mineralization) are under rapid development in ceramic community. Moreover, as the properties of raw powders significantly affect sintering kinetics and quality, advances in powder processing is of great interest from both scientific and industrial point of view. Finally, the novel sintering processing could result in distinct microstructure of ceramics, and thus directly affects the mechanical and functional properties.

This symposium seeks to provide a platform for global researchers to share the latest developments in sintering science and technology, as well as microstructural evolution for powder-based materials. Additionally, to honor the contribution of the late Prof. Zhijian Shen in ceramic sintering, a memorial symposium will be set in this symposium. The topics will include but not limit to the following symposiums.

H01 Advanced powder processing
H02 Fielded assisted sintering
H03 Low temperature densification
H04 Sintering for applications
H05 Memorial to Prof. Zhijian Shen

Co-organizers:
Yuchi Fan (Donghua University)
Yiguang Wang (Beijing Institute of Technology)
Na Ni (Shanghai Jiaotong University)
Jing Guo (Xi’an Jiaotong University)
Yanhao Dong (Massachusetts Institute of Technology)
Chaoyong Zou (Wuhan University of Technology)
Wei Ji (Wuhan University of Technology)
Chunfeng Hu (Southwest Jiaotong University)

Point of Contact: 
Yuchi Fan (yuchifan@dhu.edu.cn)
  • Clive Randall
    The Pennsylvania State University, USA
    Cold Sintering of Functional Materials
  • Hui Gu
    Shanghai University, China
    Quantitative Analysis of Phase Transformations and Microstructure Tailoring in Sintering of Si-based Ceramics
  • Jian Luo
    University of California, San Diego, USA
    From Flash Sintering to Ultrafast Sintering without Electric Fields or Controlling Microstructural Evolution with Electric Fields
  • Eduardo Saiz
    Imperial College of London, UK
    Sintering of Multimaterial Structures Fabricated using Additive manufacturing
  • Yoshio Sakka
    NIMS, JAPAN
    Fabrication of highly structure-controlled ceramics by advanced powder processing
  • Takashi Goto
    Wuhan University of Technology, China
    Spark Plasma Sintering of Diamond-based Composites
  • Akira Kawasaki
    Tohoku University,, Japan
    Micro viscous flow processing of mono-sized spherical particles of Fe-based metallic glass
  • Jiangtao Li
    Technical Institute of Physics and Chemistry, CAS., China
    On the progress of combustion synthesis of nitride ceramics
  • Jiangong Li
    Lanzhou University, China
    Challenges and Strategies in Tough Alumina Ceramic
  • Zhiguo Xia
    South China University of Technology, China
    Design and synthesis of oxide-based red phosphors activated by Eu2+
  • Wei Luo
    Donghua University, China
    The Design and Low Temperature Sintering of Mesoporous Powder
  • Yiquan Wu
    New York State College of Ceramics, Alfred University , China
    Chemical synthesis and sintering of sulfide-based ceramic materials
  • Chengtie Wu
    Shanghai Institute of Ceramics, Chinese Academy of Sciences, China
    3D Printing of Biomimetic Materials
  • Jinling Liu
    Southwest Jiaotong University, China
    Preparation of Al2O3/YAG composite by electric field treatment
  • Chen Xu
    China Academy of Engineering Physics , China
    The Application of Flash Sintering Techniques in Energy Field
  • Li Junqin
    Shenzhen University, China
    Lab made spark plasma sintering systems and some sintering  examples for high-performance materials
  • Xiaojian Mao
    Shanghai Institute of Ceramics, CAS, China
    Densification of oxynitride ceramics in hot isostatic pressing (HIP) assisted by intermediate additive
  • Ian M. Reaney
    University of Sheffield, UK
    Cold Sintering of Advanced Ceramics and Glass
  • Xuetong Zhao
    Chongqing University, China
    Cold sintering process assisted spark plasma sintering of ZnO ceramics
  • André R. Studart
    ETH Zurich, Switzerland
    Geologically inspired CO2-based strong ceramics
  • Qunfeng Cheng
    Beihang University, China
    Bioinspired Graphene-based Materials
  • Chang-An Wang
    Tsinghua University, China
    Hollow-Grained “Voronoi Foam” Ceramics with High Strength and Thermal Superinsulation
  • Jie Yin
    Shanghai Institute of Ceramics, China
    Surface modification of chopped Cf and SiC powders for laser 3D printing of C/SiC composites
  • Jishi Du
    Institute of Electronic Engineering, CAEP, China
    Effects of Pores on Dielectric Breakdown Strength of Alumina Ceramic
  • Kuibao Zhang
    Southwest University of Science and Technology, China
    Nuclear waste immobilization using ceramic-based materials and the stability evaluation
  • Jiamin Wu
    Huazhong University of Science and Technology, China

    Research on Additive Manufacturing of Degradable Bioceramics

  • Qiang Song
    Northwestern Polytechnical University, China
    Direct Growth of Edge-Rich Graphene on Si3N4 for electromagnetic wave suppression
  • Jianlin Li
    Hainan University, China, China
    Phase transformation sintering
I.Progress in 3D Printing and Additive Manufacturing
J.Advanced Refractories and Traditional Ceramics
K.Microwave Dielectric Ceramics
L.Dielectrics/Ferroelectrics for Energy Storage
M.Lead-Free Ferroelectric/Piezoelectric Ceramics
N.Perovskites for Solar Cells, LEDs, and Other Applications
O.Thermoelectric Materials and Devices for Sustainable Energy Utilization
P.Ferroelectric/Multiferroic Materials & Devices
Q.Sensitive Materials and Devices
R.Ionic and mixed conducting ceramics
S.Advances in Bioceramics
T.Nanoscale Characterizations of Ceramics
U.Modeling and Design of Ceramics and Composites
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