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第十屆先進(jìn)陶瓷國際研討會

江西省南昌市 2017-11-04 22:53-2017-11-07 22:53 會議論壇

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第十屆先進(jìn)陶瓷國際研討會

會議名稱(中文)：第十屆先進(jìn)陶瓷國際研討會
會議名稱(英文)：
所屬學(xué)科：材料科學(xué)基礎(chǔ)學(xué)科,無機(jī)非金屬材料
開始日期： 2017-11-04
結(jié)束日期： 2017-11-07
所在國家：中華人民共和國
所在城市：江西省南昌市
具體地點：
主辦單位： 中國硅酸鹽學(xué)會
協(xié)辦單位：
承辦單位：中國硅酸鹽學(xué)會特種陶瓷分會、南昌大學(xué)材料科學(xué)與工程學(xué)院、清華大學(xué)新型陶瓷與精細(xì)工藝國家重點實驗室
議題：
[ 組織結(jié)構(gòu) ]
會議主席：
組織委員會主席：
程序委員會主席：
會議嘉賓：
姓名職務(wù) 簡介演講題目
[ 重要日期 ]
摘要截稿日期： 2017-10-25
[ 會務(wù)組聯(lián)系方式 ]
聯(lián)系人：
聯(lián)系電話：
傳真：
E-MAIL： ccs-cicc@vip.163.com
通訊地址：
郵政編碼：
會議注冊費：
會議網(wǎng)站： http://www.ccs-cicc.com/CICC-Chinese/indenx-10.html
會議背景介紹：
先進(jìn)陶瓷國際研討會 (International Conference on High- Performance Ceramics, CICC) 是由中國硅酸鹽學(xué)會發(fā)起并主辦、中國硅酸鹽學(xué)會特種陶瓷分會具體承辦的一個系列性國際學(xué)術(shù)會議。
自1998年10月第一屆會議以來，經(jīng)過十多年的努力，CICC已經(jīng)發(fā)展成為在亞洲乃至世界都具有相當(dāng)影響力的一個大型學(xué)術(shù)會議。從2004年的第三屆會議 (CICC-3) 開始，各屆CICC會議的與會人數(shù)均超過500人。國際陶瓷界眾多知名學(xué)者都先后出席過CICC會議并在會議上做專題報告，而國內(nèi)絕大多數(shù)開展了從事先進(jìn)陶瓷研究的高等院校和科研院所均派出代表出席了幾乎每一屆 CICC 會議。
第十屆先進(jìn)陶瓷國際研討會將于2017年11月4日至7日在江西省南昌市召開
征文范圍及要求：
Session A: Advanced processing and manufacturing technologies

A1. Advanced powder synthesis and processing
A2. Aqueous synthesis and processing, colloidal processing
A3. Polymer-based processing
A4. Large scale / complicated shape processing
A5. Field-assisted sintering and related phenomenon at high temperatures
A6. Advanced composite manufacturing technologies, hybrid processes
A7. Additive manufacturing and 3-D printing technologies
A8. Joining, integration, machining, repair and refurbishment technologies

Session B: Ceramics and composites for structural applications

B1. Oxide ceramics and composites: processing, microstructure and properties
B2: Non-oxide ceramics and composites: processing, microstructure and properties
B3 MAX phases and their composites
B4: Environmental effects of ceramics and composites
B5. Machining of engineering ceramics and composites
B6: Transparent ceramics, laser ceramics and infrared ceramics
B7: Cements, refractories and silicate ceramics
B8: Glasses and glass-ceramics for structural applications

Session C: Electronic ceramics and their applications

C1. Multiferroic and magnetic materials
C2. Ferroelectric, relaxor materials and their applications
C3. Lead-free piezoelectrics: design, MPB and PPT
C4. Mixing conductors, transparent conductors and superconductors
C5. Microwave dielectrics, ceramic integration, packaging
C6. Electroceramic sensors
C7. Electro-optical and photonic ceramics
C8. Luminescent materials, fluorescence materials, phosphors

Session D: Bioceramics and Biocomposites

D1. Bio-synthetic interfaces and tissue-material interfaces
D2. Bioactive and resorbable ceramics
D3. Bio-inspired and biomimetic ceramics
D4. Ceramics for drug and gene delivery
D5. Antibacterial surfaces
D6. Medical and dental applications of bioceramics
D7. In-vitro and In-vivo characterization of bioceramics
D8. Mechanical properties of bioceramics

Session E: Porous ceramics: novel development and applications

E1. Synthesis and processing method of porous ceramics
E2. Structure and properties of porous ceramics
E3. Mirco-porous and meso-porous ceramics
E4. Ceramic membranes
E5. Ceramics with hierarchical porosity
E6. Porous ceramics for environmental, energy, biological and functional applications
E7. New characterization tools for porous structures

Session F: Materials for energy conversion and rechargeable energy storage

F1. Thermoelectric materials for energy harvesting
F2. Materials for thermionic and thermovoltaic applications
F3. Inorganic solar cell materials
F4. Advanced anode and cathode materials for lithium batteries
F5. Solid electrolytes for batteries
F6: Ceramics for capacitive energy storage (supercapacitors)
F7: Other energy-related materials

Session G: Ceramic coatings for structural, environmental and functional applications

G1. Thermal and environmental barrier coatings
G2. Coatings to resist CMAS, oxidation, corrosion, wear and erosion
G3. Advanced coating component systems for extreme environments
G4. Functionally graded coatings and materials
G5. Advanced coating processing methods and modeling
G6. Advanced testing and nondestructive evaluation methodologies
G7. Interface phenomena, adhesion and functional coating properties
G8. Multi-scale modeling of coating properties and life prediction

Session H: Crystalline materials for electrical, optical and medical applications

H1. Semiconductors for LED/LD, power device and sensor
H2. Optical materials for laser, nonlinear optics, optical isolator and phosphors
H3. Scintillators for X-ray, gamma-ray and neutron detection
H4. Piezo, ferro, and magneto-electric materials
H5. Transparent ceramics and nanocrystals
H6. Phase diagrams, defect chemistry and crystalline quality

Session I: Nanostructured materials and nanotechnology

I1. Nanotubes, nanorods , nanowires and other one-dimensional structures
I2. Synthesis, functionalization and assembly of metal oxides nanomaterials
I3. Metal oxides nanostructures for chemical and biological sensors
I4. Nanomaterials for photocatalysis, solar hydrogen and thermoelectrics
I5. Innovative techniques for characterization and manipulation of nanostructures

Session J: Carbon nanostructures (CNS) and other 2-D materials

J1. Synthesis of CNS and other 2-D materials
J2. Surface chemistry and surface functionalization
J3. Structural, electrical, mechanical and optical characterization
J4. Electronics, biomedical, energy and sensing applications
J5. Electronic band structure and transport theory of 2-D crystals
J6. General properties of 2-D-layered oxides, nitrides and sulfides
J7. New physical and chemical properties of 2-D materials

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