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Meeting MS&T21: Materials Science & Technology
Symposium Ceramic Matrix Composites
Sponsorship ACerS Engineering Ceramics Division
Organizer(s) Narottam P. Bansal, NASA Glenn Research Center
Jacques Luc Lamon, CNRS
Sung R Choi, Naval Air Systems Command
Scope Monolithic ceramics are brittle and show catastrophic failure. In contrast, ceramic composites are strong, tough, and demonstrate graceful failure under loading and show promise for many advanced applications at elevated temperatures. This symposium would bring together scientists and engineers working on various aspects of the ceramic composites to discuss and exchange the latest developments. Proceedings of the symposium will be published by The American Ceramic Society in the Ceramic Transaction series.

The target audience for this symposium will be CMC manufacturers, scientists, engineers, graduate students and technologists from the industries, national and corporate research laboratories, universities, etc.

Session Topics:
Oxide and Non-oxide Fibers;
Composite Interfaces and Interface Coatings; Oxide, Non-oxide, Carbon-Carbon and Glass-Ceramic Composites; In-situ and Nanocomposites; Ultrahigh Temperature Ceramics and Composites; Geopolymers; Processing and Fabrication Methods; Characterization; Mechanical Properties at Room and Elevated Temperatures; Test Methods including NDE; Environmental Effects: Oxidation, moisture, ablation; Protective Coatings; Foreign Object Damage; Design and Lifing (Stress rupture, creep, fatigue, crack growth, etc.); Micromechanical Modeling and Damage Mechanics; Component Design and Fiber Architecture; Integration/Joining; Industrial Applications

Abstracts Due 04/15/2021
Proceedings Plan Undecided
PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

Ceramic matrix composite technologies for accident-tolerant fuel applications – progress and opportunities
Development and Evaluation of Carbon Fiber Coatings for Ultra High Temperature Ceramic Matrix Composites (UHTCMCs)
Development of low temperature, dense nano-composite material combining electrophoretic and atomic layer deposition technique.
Developmental Efforts on Alternative Building Material using Kaolin-based Geopolymer from Local Sources in Nigeria
Developments in Laser-CVD to produce SiC and Si3N4 fibers for CMC reinforcement
Effect of doping on the structural and morphological properties of hydroxyapatite and β-tricalcium phosphate Ceramics
Effectiveness of Mechanical Reinforcement of Carbon Nanotubes on Boron Carbide Through In-situ High Loading Indentation
High Performance Oxide-Oxide CMCs
Interfacial fracture toughness on SiC/SiC CMCs
Oxidation of BN coatings in SiC/SiC composites
Processing and fabrication of a ZrO2-CNT composite
Static Fatigue of Hi-Nicalon-S Fiber Tows at Elevated Temperature in Air and in Steam
Subcritical Crack Growth during Static Fatigue of Hi-Nicalon-S SiC Fiber
Synchrotron tomography of SiC/SiC minicomposites to observe and quantify damage evolution
Synergistic Effects of Oxidation and Applied Load on SiC/BN/SiC Ceramic Matrix Composite Durability at Intermediate Temperatures
The effect of nanosized additives on the properties of silicon carbide-based materials
Tribological Performance of HfB2-ZrB2 based Ultra High Temperature Ceramics consolidated via Spark Plasma Sintering
High temperature composites based on zirconia cement. High temperature composites based on ceramic cements.


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