Residual Strain Dependence on Matrix Structure in RHQ-Nb3Al Wires by   Neutron Diffraction Measurement

Xinzhe Jin (1); Tatsushi Nakamoto (1); Takayoshi Ito (2); Stefanus; Harjo (2); Akihiro Kikuchi (3); Takao Takeuchi (3); Kiyosumi Tsuchiya (1),; Tsutomu Hemmi (4); Toru Ogitsu (1); Akira Yamamoto (1) ((1) High Energy; Accelerator Research Organization (KEK); Oho; Tsukuba-shi; Ibaraki; Japan (2); Japan Atomic Energy Agency; Tokai-mura; Naka-gun; Ibaraki; Japan (3) National; Institute for Materials Science; Sengen; Tsukuba-shi; Ibaraki; Japan (4); Japan Atomic Energy Agency; Naka-shi; Ibaraki; Japan)

arXiv:1111.0747·cond-mat.supr-con·June 3, 2015

Residual Strain Dependence on Matrix Structure in RHQ-Nb3Al Wires by Neutron Diffraction Measurement

Xinzhe Jin (1), Tatsushi Nakamoto (1), Takayoshi Ito (2), Stefanus, Harjo (2), Akihiro Kikuchi (3), Takao Takeuchi (3), Kiyosumi Tsuchiya (1),, Tsutomu Hemmi (4), Toru Ogitsu (1), Akira Yamamoto (1) ((1) High Energy, Accelerator Research Organization (KEK), Oho, Tsukuba-shi

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TL;DR

This study measures residual strains in different Nb3Al wire structures using neutron diffraction, revealing how matrix composition influences residual strain levels in superconducting filaments.

Contribution

It introduces a multi-peak neutron diffraction analysis method to accurately estimate residual strains in various Nb3Al wire matrices, highlighting the impact of matrix material on residual strain.

Findings

01

Residual strains are tensile in all samples.

02

Matrix material affects residual strain magnitude.

03

Multi-peak analysis provides accurate strain measurements.

Abstract

We prepared three types of non-Cu RHQ-Nb3Al wire samples with different matrix structures: an all-Ta matrix,a composite matrix of Nb and Ta with a Ta inter filament, and an all-Nb matrix. Neutron diffraction patterns of the wire samples were measured at room temperature in J-PARC "TAKUMI". To obtain residual strains of materials, we estimated lattice constant a by multi-peak analysis in the wire. Powder sample of each wire was measured, where the powder was considered to be strain-free. The grain size of all the powder samples was below 0.02 mm. For wire sample with the all-Nb matrix, we also obtained lattice spacing d by a single-peak analysis. Residual strains of Nb3Al filament were estimated from the two analysis results and were compared. Result, residual strains obtained from the multi-peak analysis showed a good accuracy with small standard deviation. The multi-peak analysis…

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