.6.The current Coffin anson universal slopes equation for LCF prediction overestimated
.6.The existing Coffin anson universal slopes equation for LCF prediction overestimated the fatigue life from the AM specimens at applied strain amplitudes of three and 4 . Fatigue-life predictions at the 3 and four strain amplitudes had been over-estimated by 119 and 213 , respectively. An empirical ULCF capacity equation for AM 17-4 PH stainless steel is proposed herein. Extra testing demonstrated good agreement together with the proposed equation predictions (supplying fatigue-life estimations inside 10 on average involving the two extra verification tests). Future ULCF testing would be beneficial in additional refining the proposed empirical model.Author Contributions: Conceptualization, G.S.P.; methodology, D.G.-N., G.S.P. and T.S.; formal analysis, D.G.-N., T.S. and G.S.P.; investigation, D.G.-N., T.S. and G.S.P.; resources, G.S.P.; data curation, D.G.-N., T.S. and G.S.P.; writing–original draft preparation, D.G.-N., T.S. and G.S.P.; writing–review and PHA-543613 medchemexpress editing, D.G.-N. and G.S.P.; visualization, D.G.-N. and G.S.P.; supervision, G.S.P.; funding acquisition, G.S.P. All authors have study and agreed towards the published version of your manuscript. Funding: This study was funded by the US National Science Foundation, grant quantity 1751699. Institutional Critique Board Statement: Not applicable. Informed Consent Statement: Not applicable. Information Availability Statement: All data generated or used in the course of the study are out there in the corresponding author by request. Acknowledgments: This material is based upon work supported by the US National Science Foundation under Grant No. 1751699. In-kind help of AM material specimens provided by the National Institute of Standards and Technologies (NIST) as well as specimen CT-scanning assistance offered by the US Army Corps Engineering Study and Improvement Center (ERDC) is acknowledged and drastically appreciated. Conflicts of Interest: The authors declare no conflict of interest.
metalsArticleOptimization on the Microwave-Assisted Carbothermical Reduction Approach for Diversity Library medchemexpress Metals from Electric Arc Furnace Dust with BiocharAnton Anzulevich 1, , Leonid Butko 1, Dmitrii Kalganov 2 , Dmitrii Pavlov 1, Valentin Tolkachev 1, Alexander Fedii 1, Vasiliy Buchelnikov 1 and Zhiwei PengPhysics Faculty, Chelyabinsk State University, 129 Br. Kashirinykh Str., 454021 Chelyabinsk, Russia; [email protected] (L.B.); [email protected] (D.P.); [email protected] (V.T.); [email protected] (A.F.); [email protected] (V.B.) Institute of Advanced Data Transfer Systems, ITMO University, Kronverksky Pr. 49, Bldg. A, 197101 St. Petersburg, Russia; [email protected] College of Minerals Processing and Bioengineering, Central South University, Changsha 410083, China; [email protected] Correspondence: [email protected]; Tel.: 7-963-462-Citation: Anzulevich, A.; Butko, L.; Kalganov, D.; Pavlov, D.; Tolkachev, V.; Fedii, A.; Buchelnikov, V.; Peng, Z. Optimization from the Microwave-Assisted Carbothermical Reduction Procedure for Metals from Electric Arc Furnace Dust with Biochar. Metals 2021, 11, 1765. https://doi.org/10.3390/ met11111765 Academic Editors: Antoni Roca and Francisco Paula G ez Cuevas Received: 31 August 2021 Accepted: 29 October 2021 Published: three NovemberAbstract: The key objective of this function was to extract important metals from EAF dust using the addition of Biochar, using microwaves to handle and optimize the carbothermical reduction method. To attain improved microwave penetration as well as the most homogeneous electromagnetic heat supply distributio.
