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About this Abstract
Meeting	MS&T22: Materials Science & Technology
Symposium	ACerS Robert B. Sosman Award Symposium: Advancing the Science of Materials for Extreme Environments
Presentation Title	From Academic Research on UHTCs to Industry R&D and Entrepreneurship
Author(s)	Sumin Zhu
On-Site Speaker (Planned)	Sumin Zhu
Abstract Scope	Studies on Ultra-High Temperature Ceramics (UHTCs) require the fundamental understanding of the structure, processing, properties, and performance of these ceramic materials. This presentation will highlight the author’s experience during his Ph.D. research on UHTCs, and then discuss why such research experience is extremely useful in new product development in industry. Further, this presentation will discuss the author’s entrepreneurial experience and conclude by sharing some examples of bridging research, manufacturing, and characterization of UHTCs.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Addressing Challenges to the Application of UHTCs in Extreme Environments

Advancing the Science of Materials for Extreme Environments

Effects of Liquid and Gas Phase Formation on Mechanisms of Ultra-high Temperature Ceramic Oxidation

Exploring Microstructural Complexity in UHTCs for New Heat Management Strategies Using Cost-Effective Manufacturing Approaches

Exploring Why Ultra-high Temperature Ceramic Ceramics Work in Extreme Environments

From Academic Research on UHTCs to Industry R&D and Entrepreneurship

High-entropy Rare-earth Zirconates for Thermal Barrier Coatings with Low Thermal Conductivity and Graceful Behavior during CMAS Corrosion

High-entropy Transition Metal Diborides: Local Structure vs. Long-range Chemical Homogenity

NSWC Research on UHTCs: A 40+ year Perspective

Progress in Manufacturing Ultra-High Temperature Ceramic Matrix Composites (UHTCMCS)

Regeneration, Co-generation and Generation via Ultra-High Temperature Ceramics

The Peculiarities of Deformation in Transition Metal Carbides

Thermodynamic Assessment of Zr-B-C-O System Applied to Ultra High Temperature Ceramic Processing & Oxidation

Ultra-High Temperature Ceramic Research at Missouri S&T

Vacancy Ordering in Zirconium Carbide

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