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Meeting 2023 TMS Annual Meeting & Exhibition
Symposium Simulations/Experiments Integration for Next Generation Hypersonic Materials
Presentation Title Modeling Thermomechanical Buckling in Combined Extreme Environments
Author(s) Adedotun Banjo, Ali Gordon
On-Site Speaker (Planned) Adedotun Banjo
Abstract Scope Aerospace engineering advances have led to continuous improvements in the design of next generation hypersonic vehicles. In combined extreme environments (CEE), fuselage panels of hypersonic vehicles will experience aggressive thermomechanical and acoustic loading. Panel design considerations in terms of dimensions, accent-cruise-decent missions, thermal cycling are some of the factors responsible for the anticipated thermomechanical fatigue experienced by these hypersonic vehicles. As a result, service conditions, failure predictions and lifespan of components has become critical points of discussions. In this study, a simulation approach is employed via a general-purpose finite element analysis (FEA) software ANSYS to develop force-displacement predictions of panel buckling. Although the candidate material for the study is 304 SS, the findings from this study can be implemented more generally. As a consequence, the design of future hypersonic vehicles having higher cyclic load profiles at extreme temperatures can be realized.
Proceedings Inclusion? Planned:
Keywords Modeling and Simulation, High-Temperature Materials, Mechanical Properties

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Accelerating a Digital Twin of Direct Energy Deposition Additive Manufacturing
Composite Metal/Ceramic Coatings with Exceptional Thermal Shock Resistance
Computational Design of Ni-based SX Superalloys: A Critical Assessment of Machine-learned and Thermodynamic Models in View of Experimental Properties
Computational Discovery and Experimental Validation of Ultra-high Strength BCC Refractory Metal-based MPEAs for Extreme Environments
Degradation Resistance of Refractory Multi-principal Element Alloys for Extreme Environments
High-throughput CALPHAD Exploration of Multi-principal Element Alloy (MPEA) Space for Targeted Properties and Structure
How Do You Integrate Both Simulations and Experiments into a Materials Discovery Optimization Campaign? A Case Study in Multi-fidelity Optimization
Material Design by Additive Manufacturing of Multi-component Metal Alloys
Modeling Thermomechanical Buckling in Combined Extreme Environments
On the Deformation Processes of BCC Refractory Complex Concentrated Alloys
Phase Transforming Metal-ceramic Multilayers for Ultrahigh Temperatures
Simultaneous Bayesian Calibration of Strength, Kinetics, and Phase Boundaries

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