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Enhancing elevated temperature strength of copper containing aluminum alloys by forming L1₂ Al₃Zr precipitates and nucleating θ" precipitates on them
This article presents a new approach in designing an Al-based alloy through solid state precipitation route.
Date:
March 16, 2017
Creator:
Makineni, S. K.; Sugathan, Sandeep; Meher, Subhashish; Kumar, Subodh & Chattopadhyay, K.
System:
The UNT Digital Library
Microstructural Design for Improving Ductility of An Initially Brittle Refractory High Entropy Alloy
This article presents a novel approach to microstructural engineering of refractory high-entropy alloys (RHEAs) to form an "inverted" BCC+B2 microstructure.
Date:
June 11, 2018
Creator:
Soni, V.; Senkov, O. N.; Gwalani, B.; Miracle, D. B. & Banerjee, Rajarshi
System:
The UNT Digital Library
A new combinatorial approach to assess the influence of alloy composition on the oxidation behavior and concurrent oxygen-induced phase transformations for binary Ti–xCr alloys at 650 °C
Article describes an experiment in which a combinatorial approach was used to investigate systematically the influence of composition and time on the oxidation of Ti–Cr system.
Date:
May 11, 2015
Creator:
Samimi, Peyman; Liu, Yue; Ghamarian, Iman; Brice, David A. & Collins, Peter
System:
The UNT Digital Library
Experimental study and finite element analysis of energy dissipating outriggers
This article uses experiments and finite element analyses to study the structural responses and energy dissipation capacities of three different outriggers of an actual tall building project.
Date:
November 11, 2016
Creator:
Yang, Qingshun; Lu, Xinzheng; Yu, Cheng & Gu, Donglian
System:
The UNT Digital Library
Insight into wild-type and T1372E TET2-mediated 5hmC oxidation using ab initio QM/MM calculations
This article studies the catalytic mechanism of oxidation of 5hmC to 5fC by WT and T1372E TET2 using an ab initio quantum mechanical/molecular mechanical (QM/MM) approach.
Date:
September 11, 2018
Creator:
Torabifard, Hedieh & Cisneros, Gerardo Andrés
System:
The UNT Digital Library