Experimental data for strain rate sensitivity, microstructure variations, and stress-assisted β → α'' phase transformation investigation on the mechanical behavior of dual-phased titanium alloys

Published: 4 June 2020| Version 1 | DOI: 10.17632/j578n3fpkx.1
Contributors:
Kartik Kapoor,

Description

Data required to reproduce the findings of the following publication: Kartik Kapoor, Priya Ravi, Diwakar Naragani, Jun-Sang Park, Jonathan D. Almer, Michael D. Sangid, Strain rate sensitivity, microstructure variations, and stress-assisted β → α” phase transformation investigation on the mechanical behavior of dual-phased titanium alloys, Materials Characterization, 2020, 110410, ISSN 1044-5803, https://doi.org/10.1016/j.matchar.2020.110410. The data consists of one Excel file with 8 sheets. Each sheet corresponds to the following figures in the paper: Sheet1 (Fig. 1b): Stress-strain curves for the alloys. Sheet2 (Fig. 3): SRS values corresponding to macroscopic strain for the alloys. Sheet3 (Fig. 4): Lattice strains corresponding to macroscopic strain for the alloys. Sheet4 (Fig. 5): Lattice hardening corresponding to applied stress for the alloys. Sheet5 (Fig. 7c): Lattice strain evolution corresponding to macroscopic strain in Ti-6246. Sheet6 (Fig. 7d): Volume fraction of the different phases corresponding to macroscopic strain in Ti-6246 specimen. Sheet7 (Fig. 8): Experimental and analytical lattice strain in α" phase in Ti-6246. Sheet8 (Fig. C1): Axial and transverse lattice strains corresponding to macroscopic strain for the alloys.

Files

Steps to reproduce

The excel file has sheets arranged according Fig. numbers in the paper.

Institutions

Purdue University

Categories

Materials Characterization

Licence