Adam Krajewski1,Shuang Lin1,Marcia Ahn1,Hui Sun1,Arindam Debnath1,Allison Beese1,Wesley Reinhart1,Zi-Kui Liu1
The Pennsylvania State University1
Adam Krajewski1,Shuang Lin1,Marcia Ahn1,Hui Sun1,Arindam Debnath1,Allison Beese1,Wesley Reinhart1,Zi-Kui Liu1
The Pennsylvania State University1
ULTERA database, developed under the ARPA-E's ULTIMATE program, is aimed at collecting literature data on high entropy alloys (HEAs) to facilitate rapid discovery of new ones using forward and inverse design, with the primary focus on creep behavior, yield stress, ductility, and hardness.<br/><br/>As of January 2022, ULTERA contains over 5,900 property-datapoints, corresponding to 1,900 unique HEAs, collected from 442 source DOIs. All data is available through a high-performance API, following FAIR principles, while statistics on it can be found at our phaseslab.com/ultera web page.<br/><br/>The database architecture is designed to automatically integrate starting literature data in real-time with methods such as experiments, generative modeling, predictive modeling, and validations.