Helmut M. Reiche scite author profile

Carbides / High pressures and temperatures / Synchrotron radiation / Analytical electron microscopy / Density functional theory (DFT) / X-ray diffraction / Powder diffraction structure analysis Abstract. A combined X-ray diffraction, EELS and DFT study of the reaction of rhenium with carbon at high-(P, T ) conditions up to P max ¼ 67 GPa and T max ¼ 3800 K is presented. A hexagonal rhenium carbide, ReC x , was identified as the stable phase at high-(P, T ) conditions. A composition of ReC 0:5 is proposed. No evidence for a cubic ReC polymorph with rocksalt structure, as suggested in the literature, or for any other phase was found at the P-T conditions explored. A preliminary P-T rhenium-carbon phase diagram has been derived and properties such as bulk moduli and elastic stiffness coefficients were obtained.

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In situ analysis of LiFePO₄ batteries: Signal extraction by multivariate analysis

Rodriguez

Benthem

Ingersoll

et al. 2010

Powder Diffr.

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The electrochemical reaction behavior of a commercial Li-ion battery (LiFePO4-based cathode, graphite-based anode) has been measured via in situ neutron diffraction. A multivariate analysis was successfully applied to the neutron diffraction data set facilitating in the determination of Li bearing phases participating in the electrochemical reaction in both the anode and cathode as a function of state-of-charge (SOC). The analysis resulted in quantified phase fraction values for LiFePO4 and FePO4 cathode compounds as well as the identification of staging behavior of Li6, Li12, Li24, and graphite phases in the anode. An additional Li-graphite phase has also been tentatively identified during electrochemical cycling as LiC48 at conditions of ∼5% to 15% SOC.

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A six-axis robotic sample changer for high-throughput neutron powder diffraction and texture measurements

et al. 2014

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State‐of‐the‐art neutron time‐of‐flight diffractometers at modern neutron sources allow sample throughput at rates of much less than one hour per sample. Automated sample changes with a high degree of reliability and flexibility are essential to assure safe operation and efficient use of available neutron flux. At the High‐Pressure Preferred Orientation (HIPPO) diffractometer, a previous sample changer measured over 2300 texture and 400 powder samples at ambient conditions to study the properties of crystalline materials at the Lujan neutron scattering facility at the Los Alamos Neutron Science Center. Experience gained during operation of the sample changer for over a decade showed room for improvement and led to a new design using current industrial robot technology. Here, the new HIPPO versatile six‐axis robotic sample changer for neutron powder diffraction experiments including texture measurements is presented.

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High Pressure Phase-Transformation Induced Texture Evolution and Strengthening in Zirconium Metal: Experiment and Modeling

Zhang

Weldon

et al. 2015

Sci Rep

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We studied the phase-transition induced texture changes and strengthening mechanism for zirconium metal under quasi-hydrostatic compression and uni-axial deformation under confined high pressure using the deformation-DIA (D-DIA) apparatus. It is shown that the experimentally obtained texture for ω-phase Zr can be qualitatively described by combining a subset of orientation variants previously proposed in two different models. The determined flow stress for the high-pressure ω-phase is 0.5–1.2 GPa, more than three times higher than that of the α-phase. Using first-principles calculations, we investigated the mechanical and electronic properties of the two Zr polymorphs. We find that the observed strengthening can be attributed to the relatively strong directional bonding in the ω phase, which significantly increases its shear plastic resistance over the α-phase Zr. The present findings provide an alternate route for Zr metal strengthening by high-pressure phase transformation.

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A furnace with rotating load frame for in situ high temperature deformation and creep experiments in a neutron diffraction beam line

Reiche

Vogel

Mosbrucker

et al. 2012

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A resistive furnace combined with a load frame was built that allows for in situ neutron diffraction studies of high temperature deformation, in particular, creep. A maximum force of 2700 N can be applied at temperatures up to 1000 °C. A load control mode permits studies of, e.g., creep or phase transformations under applied uni-axial stress. In position control, a range of high temperature deformation experiments can be achieved. The examined specimen can be rotated up to 80° around the vertical compression axis allowing texture measurements in the neutron time-of-flight diffractometer HIPPO (High Pressure - Preferred Orientation). We present results from the successful commissioning, deforming a Zr-2.5 wt.% Nb cylinder at 975 °C. The device is now available for the user program of the HIPPO diffractometer at the LANSCE (Los Alamos Neutron Science Center) user facility.

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Helmut M. Reiche

Reaction of rhenium and carbon at high pressures and temperatures

In situ analysis of LiFePO₄ batteries: Signal extraction by multivariate analysis

A six-axis robotic sample changer for high-throughput neutron powder diffraction and texture measurements

High Pressure Phase-Transformation Induced Texture Evolution and Strengthening in Zirconium Metal: Experiment and Modeling

A furnace with rotating load frame for in situ high temperature deformation and creep experiments in a neutron diffraction beam line

Contact Info

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Helmut M. Reiche

Reaction of rhenium and carbon at high pressures and temperatures

In situ analysis of LiFePO4 batteries: Signal extraction by multivariate analysis

A six-axis robotic sample changer for high-throughput neutron powder diffraction and texture measurements

High Pressure Phase-Transformation Induced Texture Evolution and Strengthening in Zirconium Metal: Experiment and Modeling

A furnace with rotating load frame for in situ high temperature deformation and creep experiments in a neutron diffraction beam line

Contact Info

Product

Resources

About

In situ analysis of LiFePO₄ batteries: Signal extraction by multivariate analysis