Your search keyword '"J. Freudenberger"' showing total 34 results

1. Promoting abnormal grain growth in Fe-based shape memory alloys through compositional adjustments

Author

M. Vollmer, T. Arold, M. J. Kriegel, V. Klemm, S. Degener, J. Freudenberger, and T. Niendorf

Subjects

Science

Abstract

Novel iron-based shape memory alloys could be candidates for large-scale structural applications if their grains grew large and long enough. Here, the authors add titanium to an Fe–Mn–Al–Ni shape-memory alloy to promote large grains via compositional tuning of abnormal grain growth.

Published

2019

2. Solid solution strengthening in medium- to high-entropy alloys

Author

J. Freudenberger, F. Thiel, D. Utt, K. Albe, A. Kauffmann, S. Seils, and M. Heilmaier

Subjects

APT FIB, Technology, Mechanics of Materials, Mechanical Engineering, 2020-023 028393 [KNMF Proposal], KNMF Proposal: 2020-023 028393, General Materials Science, Condensed Matter Physics, ddc:600

Published

2022

3. Entropy Determination of Single-Phase High Entropy Alloys with Different Crystal Structures over a Wide Temperature Range

Author

Rainer Völkl, J. Freudenberger, Senol Gezgin, Uwe Glatzel, Sebastian Haas, Oleg N. Senkov, Mike Mosbacher, and Michael Feuerbacher

Subjects

Materials science, differential scanning calorimetry (DSC), Configuration entropy, Enthalpy, General Physics and Astronomy, Thermodynamics, lcsh:Astrophysics, multicomponent, 02 engineering and technology, Solidus, 01 natural sciences, Heat capacity, Article, symbols.namesake, Condensed Matter::Materials Science, 0103 physical sciences, lcsh:QB460-466, Entropy (information theory), Gas constant, ddc:510, lcsh:Science, HEA, 010302 applied physics, High entropy alloys, 021001 nanoscience & nanotechnology, lcsh:QC1-999, Gibbs free energy, symbols, lcsh:Q, specific heat, 0210 nano-technology, entropy, lcsh:Physics

Abstract

We determined the entropy of high entropy alloys by investigating single-crystalline nickel and five high entropy alloys: two fcc-alloys, two bcc-alloys and one hcp-alloy. Since the configurational entropy of these single-phase alloys differs from alloys using a base element, it is important to quantify the entropy. Using differential scanning calorimetry, cp-measurements are carried out from &minus, 170 &deg, C to the materials&rsquo, solidus temperatures TS. From these experiments, we determined the thermal entropy and compared it to the configurational entropy for each of the studied alloys. We applied the rule of mixture to predict molar heat capacities of the alloys at room temperature, which were in good agreement with the Dulong-Petit law. The molar heat capacity of the studied alloys was about three times the universal gas constant, hence the thermal entropy was the major contribution to total entropy. The configurational entropy, due to the chemical composition and number of components, contributes less on the absolute scale. Thermal entropy has approximately equal values for all alloys tested by DSC, while the crystal structure shows a small effect in their order. Finally, the contributions of entropy and enthalpy to the Gibbs free energy was calculated and examined and it was found that the stabilization of the solid solution phase in high entropy alloys was mostly caused by increased configurational entropy.

Published

2018

4. Mechanical behaviour of high nitrogen stainless steel reinforced conductor for use in pulsed high field magnets at cryogenic temperature

Author

J. Freudenberger, H. Jones, A. Gaganov, and A.L. Hickman

Subjects

Materials science, General Physics and Astronomy, chemistry.chemical_element, Cryogenics, Liquid nitrogen, Nitrogen, Conductor, chemistry, Magnet, High nitrogen, Ultimate tensile strength, General Materials Science, Composite material, Cooling down

Abstract

The use of copper - high nitrogen stainless steel macrocomposites for applications such as pulsed high magnetic field coils is demonstrated in this contribution. The macrocomposite reveal an enhancement of up to 40% in strength when cooling from 300 K down to liquid nitrogen temperature. An ultimate tensile strength of 1.53 ± 0.017 GPa is reached with a 3 mm × 2 mm wire with 52 vol.-% Cu and a logarithmic drawing strain of η = 2.8 at liquid nitrogen temperature. Compared to the low nitrogen stainless steel macrocomposites in use up to now, which have an UTS of 1.02 ± 0.017 GPa and reveal an enhancement of 28% in strength when cooling down, these values related to high nitrogen stainless steel macrocomposites bear great improvements. © 2003 Elsevier Science Ltd. All rights reserved.

Published

2016

5. Thermal stability of electrical and mechanical properties of cryo-drawn Cu and CuZr wires

Author

Alexander Kauffmann, David Geissler, and J. Freudenberger

Subjects

010302 applied physics, Materials science, Wire drawing, Annealing (metallurgy), Mechanical Engineering, Alloy, Metallurgy, Recrystallization (metallurgy), 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Microstructure, 01 natural sciences, Mechanics of Materials, 0103 physical sciences, Ultimate tensile strength, engineering, General Materials Science, Thermal stability, ddc:620, 0210 nano-technology, Crystal twinning, Engineering & allied operations

Abstract

Low temperature deformation results in a considerable refinement of the microstructure of polycrystalline copper by extensive deformation twinning in the case of cryogenic wire drawing. In order to improve the thermal stability of the obtained microstructure, we investigate the deformation of CuZr alloys with up to 0.21 at% (0.3 wt%) Zr by drawing in liquid nitrogen up to a true strain of 2.4. An ultimate tensile strength of 625 MPa in combination with an electrical conductivity of about 60%IACS was found for an initially solution annealed CuZr0.21 alloy. For an initially precipitation treated CuZr0.21, a slightly lower ultimate tensile strength of 600 MPa at about 86%IACS was observed in the as-deformed state. Deformation twinning could be identified in all investigated materials, leading to a refinement of the microstructure. Thermal stability of microstructure as well as electrical and mechanical properties can be significantly improved by the addition of Zr. For cryo-drawn copper the drop of hardness due to recovery and recrystallization occurs between 200 °C and 225 °C for an annealing duration of 30 min. Small recrystallized grains are already identified at 175 °C. In CuZr0.21, a stable microstructure is found up to 350 °C for the solution annealed material while small recrystallized grains are found already at 300 °C in the precipitation treated material. By annealing a homogenized and subsequently cryo-drawn CuZr0.21 at 350 °C for 30 min, ultimate tensile strength can be further increased up to 635 MPa while electrical conductivity is enhanced significantly to 70%IACS by partial precipitation of Cu 5 Zr. Dynamic resistivity measurements indicate that this heat treatment subsequent to cryo-drawing does not affect the thermal stability of the prepared material.

Published

2016

6. High strength and ductile ultrafine-grained Cu-Ag alloy through bimodal grain size, dislocation density and solute distribution

Author

Alexander Kauffmann, Jenő Gubicza, K. Sitarama Raju, Zoltán Hegedűs, Gerhard Wilde, J. Freudenberger, Martin Peterlechner, and V. Subramanya Sarma

Subjects

Microstructure analysis, Precipitation (chemical), Materials science, Dislocation densities, Silver, Polymers and Plastics, High-resolution scanning electron microscopies, Scanning electron microscope, Annealing (metallurgy), High-tensile strength, Ultrafine-grained, Ag particles, Solute distribution, Annealing, High strength, Ultimate tensile strength, Ultrafine-grained metals, Uniform elongation, Cold rolling, Cu-Ag alloys, X-ray line profile analysis, Composite material, Ductility, Plastic deformation, Microstructure, Ag-alloy, Bimodal microstructure, Ultrafine grained materials, Metallurgy, Metals and Alloys, Grain size, Electronic, Optical and Magnetic Materials, Severe plastic deformations, Annealed samples, High dislocation density, Ceramics and Composites, Tensile ductility, Single crystals, Severe plastic deformation, Elongation, Solute atoms, Bimodal grains, Grain size and shape, Scanning electron microscopy

Abstract

Ultrafine-grained materials produced by different severe plastic deformation methods show very high strengths but their tensile ductility is often very low. In the present work, we demonstrate an approach for retaining high strength while recovering ductility in a Cu-3 at.% Ag alloy through cold rolling and short-time annealing. X-ray line profile analysis of cold-rolled and annealed samples reveals the development of a heterogeneous solute atom distribution due to the dissolution of nanosized Ag particles in some regions of the matrix. In regions with higher solute (Ag) content, the high dislocation density present following rolling is stabilized, while in other volumes the dislocation density is decreased. High-resolution scanning electron microscopy confirms the presence of regions of varying Ag content in the matrix. Microstructure analysis of the rolled and annealed samples revealed bimodal grain size, dislocation density and solute Ag distributions as well as nanosized Ag precipitation. The as-rolled samples exhibit high tensile strengths of ?600-700 MPa with negligible uniform elongation (?1%). After short-time annealing the strength decreases only slightly to ?550-620 MPa with significant improvement in uniform elongation (from 1 to 10%); this is mainly attributed to the bimodal microstructure. � 2012 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

Published

2013

7. Critical current scaling and anisotropy in oxypnictide superconductors

Author

Alexander Kauffmann, Ludwig Schultz, Silvia Haindl, J. Freudenberger, Kazumasa Iida, Jens Hänisch, M. Kidszun, B. Holzapfel, and Thomas Thersleff

Subjects

Physics, Superconductivity, Field (physics), Condensed matter physics, Condensed Matter - Superconductivity, FOS: Physical sciences, General Physics and Astronomy, Epitaxy, Superconductivity (cond-mat.supr-con), Oxypnictide, Condensed Matter::Superconductivity, Anisotropy, Pinning force, Scaling, Critical field, Computer Science::Databases

Abstract

Investigating the anisotropy of superconductors permits an access to fundamental properties. Having succeeded in the fabrication of epitaxial superconducting LaFeAs(O,F) thin films we performed an extensive study of electrical transport properties. In face of multiband superconductivity we can demonstrate that a Blatter scaling of the angular dependent critical current densities can be adopted, although being originally developed for single band superconductors. In contrast to single band superconductors the mass anisotropy of LaFeAs(O,F) is temperature dependent. A very steep increase of the upper critical field and the irreversibility field can be observed at temperatures below 6K, indicating that the band with the smaller gap is in the dirty limit. This temperature dependence can be theoretically described by two dominating bands responsible for superconductivity. A pinning force scaling provides insight into the prevalent pinning mechanism and can be specified in terms of the Kramer model., 7 pages, 13 figures

Published

2010

8. Role of stacking fault energy in strengthening due to cryo-deformation of FCC metals

Author

Alexander Kauffmann, Jun Wang, Hans Conrad, J. Freudenberger, W. W. Jian, V. Subramanya Sarma, and Yuntian Zhu

Subjects

Dislocation slip, Materials science, Alloy, Dislocations, Stacking fault energy, engineering.material, High strain, Al alloys, Copper alloys, Stacking-fault energy, Alloys, General Materials Science, Strength differences, Cold rolling, Electron energy loss spectroscopy, Cryogenic temperature, Plastic deformation, Room temperature, Deformation mechanism, Mechanical Engineering, Metallurgy, Condensed Matter Physics, Severe plastic deformations, Mechanics of Materials, Metals, Hardening (metallurgy), engineering, FCC metals, Strengthening (metal), Deformation (engineering), Severe plastic deformation, Crystal twinning, Grain refinement, Grain size and shape, Stacking fault energies, Aluminum

Abstract

The effectiveness of the cryogenic (CT) rolling vis-�-vis room temperature (RT) rolling on strengthening is significantly affected by stacking fault energy (SFE) and there is an optimum SFE at which CT rolling is most effective. Studies on Al, Al alloy AA6061, Cu, Cu-4.6Al, Cu-9Al and Cu-15Al (in at.%) alloys revealed that in metals with very high and very low SFEs, the strength difference between CT and RT rolled samples is

Published

2010

9. Magnetoresistance up to 50 T of highly strengthened Cu-Ag conductors for pulsed high field magnets

Author

H. Jones, N. Kozlova, J. Freudenberger, L. Schultz, A. Gaganov, and Holger Witte

Subjects

Materials science, Magnetoresistance, Field (physics), Condensed matter physics, General Physics and Astronomy, Atmospheric temperature range, Microstructure, Magnetic field, Metal, visual_art, Magnet, visual_art.visual_art_medium, General Materials Science, Electrical conductor

Abstract

The resistance of cold worked Cu-x wt.%Ag alloys (x = 7 and x = 24) is measured in dependence of magnetic field and temperature. The magnetoresistance (MR) in the field range 0 T ≤ B ≤ 50 T is positive and increases with magnetic field. If the magnetic field B is applied perpendicular to the transport current I, the magnetoresistance increases in the temperature range from 77 K to 300 K. The highest value of 14% for the MR is measured at 77 K and 50 T. For I {norm of matrix} B it was found that the MR is independent of the temperature in the investigated range from 77 K to 199 K. The MR is attributed to the microstructure of the alloys and appears to be independent of the Ag content of the alloys under investigation. © 2006 Elsevier Ltd. All rights reserved.

Published

2006

10. Specific heat and disorder in the mixed state of non-magnetic borocarbides

Author

D. Lipp, G. Fuchs, A. Gladun, Karl-Hartmut Müller, Konstantin Nenkov, Stefan-Ludwig Drechsler, J. Freudenberger, Matthias Schneider, Philipp Gegenwart, and Tomasz Cichorek

Subjects

Physics, Superconductivity, Condensed Matter - Materials Science, Specific heat, Condensed matter physics, Condensed Matter - Superconductivity, Analytical chemistry, General Physics and Astronomy, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, State (functional analysis), Disordered Systems and Neural Networks (cond-mat.dis-nn), Condensed Matter - Disordered Systems and Neural Networks, Magnetic field, Superconductivity (cond-mat.supr-con), Transition metal, Pairing, Condensed Matter::Superconductivity, ddc:530, Crystallite, Critical field

Abstract

The temperature and magnetic field dependence of the specific heat cp(T,H) in the superconducting mixed state as well as the upper critical field Hc2(T) have been measured for polycrystalline Y_xLu_{1-x}Ni_2B_2C and Y(Ni_{1-y}Pt_y)_2B_2C samples. The linear-in-T electronic specific heat contribution gamma(H)T exhibits significant deviations from the usual linear-in-H law for all x and y the transition metal site (T) resulting in a disorder dependent negative curvature of gamma(H). The deviations from that linear behaviour of our unsubstituted samples are the largest reported so far for any superconductor. The H_c2(T) data point to the quasi-clean limit for (Y,Lu)-substitutions and to a transition to the quasi-dirty limit for (Ni,Pt)-substitutions. The gamma(H) dependence is discussed in the unitary d-wave as well as in the quasi-clean s-wave limits. From a consideration of gamma(H) data only, d-wave pairing cannot be ruled out., Comment: 7pages, 7eps-figures, submitted to Europhysics Letters

Published

2002

11. Superconductivity in clean and disordered nonmagnetic borocarbides

Author

Karl-Hartmut Müller, Konstantin Nenkov, Helge Rosner, Stefan-Ludwig Drechsler, A. Gladun, J. Freudenberger, Philipp Gegenwart, D. Lipp, A. Kreyssig, S. V. Shulga, H. Eschrig, Klaus Koepernik, G. Fuchs, and Tomasz Cichorek

Subjects

Superconductivity, Materials science, Condensed matter physics, Intermediate layer, Energy Engineering and Power Technology, Electronic structure, Condensed Matter Physics, Curvature, Measure (mathematics), Electronic, Optical and Magnetic Materials, Highly sensitive, Nickel compounds, ddc:530, Electrical and Electronic Engineering, Critical field

Abstract

The effect of weak substitutional disorder in the rare-earth intermediate layer in between the NiB-networks upon various thermodynamic properties in the superconducting state of YxLu1-xC(NiB)2 is investigated theoretically as well as experimentally. The suppression of the upper critical field and its positive curvature near Tc are shown to be a highly sensitive measure of small amounts of disorder even at the rare-earth site.

Published

2000

12. Lineshape, linewidth and spectral density of parametric x-radiation at low electron energy in diamond

Author

R. Zahn, Achim Richter, J. P. F. Sellschop, Harald Genz, Victor L. Morokhovskii, U. Nething, V. V. Morokhovskii, and J. Freudenberger

Subjects

Physics, Photon, Physics and Astronomy (miscellaneous), Scattering, Diamond, Electron, engineering.material, Radiation, Spectral line, Crystal, Laser linewidth, Computer Science::Systems and Control, engineering, Atomic physics

Abstract

Applying an absorber technique, the experimental shape and width of a parametric x-radiation line has been determined. The 9 keV radiation was produced by bombarding a diamond crystal of 55 μm thickness with electrons of 6.8 MeV. The variance of the spectral line distribution was found to depend on the tilt angle of the crystal and to have a magnitude of σ=51 eV. Simulations based on a Monte Carlo method exhibit that the observed variance is mainly influenced by multiple scattering of electrons passing through the crystal (≈43 eV) and the finite detector opening (≈18 eV), leaving for the intrinsic linewidth a value of the order of 1 eV. The spectral density of the line was found to be J≈10−7 photons/(electron×sr×eV).

Published

1997

13. Effect of antifungal agents on lipid biosynthesis and membrane integrity in Candida albicans

Author

B A Dix, P T Funke, N H Georgopapadakou, J Freudenberger, and S A Smith

Subjects

Econazole, Antifungal Agents, Chromatography, Gas, Miconazole, Biology, Allylamine, chemistry.chemical_compound, Lipid biosynthesis, Culture Techniques, Ergosterol, Candida albicans, medicine, Animals, Pharmacology (medical), Clotrimazole, Pharmacology, chemistry.chemical_classification, Cell Membrane, Cholestadienols, Fatty Acids, Fatty acid, Lipids, Cerulenin, Tolnaftate, Infectious Diseases, Ketoconazole, Biochemistry, chemistry, lipids (amino acids, peptides, and proteins), Chromatography, Thin Layer, medicine.drug, Research Article

Abstract

Eight antifungal agents were examined for effects on lipid biosynthesis and membrane integrity in Candida albicans. Lipids were labeled in vivo or in vitro with [14C]acetate and analyzed by thin-layer and gas chromatography. Membrane integrity was measured by a recently developed [14C]aminoisobutyric acid radiolabel release assay. The imidazole antifungal agents miconazole, econazole, clotrimazole, and ketoconazole, at concentrations inhibiting ergosterol biosynthesis (0.1 microM), decreased the ratio of unsaturated to saturated fatty acids in vivo but not in vitro. Similarly, naftifine, tolnaftate, and the azasterol A25822B, at concentrations inhibiting ergosterol biosynthesis (10, 100, and 1 microM, respectively), decreased the ratio of unsaturated to saturated fatty acids in vivo only. This suggests that the effect on fatty acids observed with ergosterol biosynthesis inhibitors may be secondary to the effect on ergosterol. With imidazoles, oleic acid antagonized inhibition of cell growth but not inhibition of ergosterol. This suggests that, with the C-14 demethylase inhibitors, decreased unsaturated fatty acids, rather than decreased ergosterol, are responsible for growth inhibition. Cerulenin, previously reported to be a potent inhibitor of both fatty acid and ergosterol biosynthesis, was found in the present study to inhibit the former (at 5 microM) but not the latter (up to 100 microM). Of the antifungal agents tested, econazole and miconazole (at 100 microM) produced complete release of [14C]aminoisobutyric acid, which is consistent with membrane damage.

Published

1987

14. Digital breast tomosynthesis system concept addressing the needs in breast cancer screening and diagnosis.

Author

Radicke M, Beister M, Dwars S, Freudenberger J, Garcia-Allende PB, Geiger B, Hall K, He W, Hebecker A, Heimann C, Hellingman D, Herbst M, Hoernig M, Klinnert T, Lueck F, Nanke R, Ritschl L, Schaffert S, Schneider S, Stein D, Wicklein J, and Kappler S

Abstract

Purpose: Digital breast tomosynthesis (DBT) has been introduced more than a decade ago. Studies have shown higher breast cancer detection rates and lower recall rates, and it has become an established imaging method in diagnostic settings. However, full-field digital mammography (FFDM) remains the most common imaging modality for screening in many countries, as it delivers high-resolution planar images of the breast. To combine the advantages of DBT with the faster acquisition and the unique in-plane resolution capabilities known from FFDM, a system concept was developed for application in screening and diagnosis., Approach: The concept comprises an X-ray tube with adaptive focal spot position based on the flying focal spot (FFS) technology and optimized X-ray spectra. This is combined with innovative algorithmic concepts for tomosynthesis reconstruction and synthetic mammograms (SMs)., Results: An X-ray tube with FFS was incorporated into a DBT system that performs 50-deg wide tomosynthesis scans with 25 projections in 4.85 s. Laboratory evaluations demonstrated significant improvements in the effective modular transfer function (eMTF). The improved eMTF as well as the effectiveness of the algorithmic concepts is shown in images from a clinical evaluation study., Conclusions: The DBT system concept enables high spatial resolution at short acquisition times. This leads to improved microcalcification visibility, reduced risk of motion artifacts, and shorter breast compression times. It shifts the in-plane resolution of DBT into the high-resolution range of FFDM. The presented technology leap might be a key contributor to facilitating the paradigm shift of replacing FFDM with DBT plus SM., (© 2024 The Authors.)

Published

2025

15. Speaking to a metronome reduces kinematic variability in typical speakers and people who stutter.

Author

Wiltshire CEE, Cler GJ, Chiew M, Freudenberger J, Chesters J, Healy MP, Hoole P, and Watkins KE

Subjects

Humans, Male, Adult, Female, Biomechanical Phenomena, Young Adult, Middle Aged, Case-Control Studies, Stuttering physiopathology, Speech physiology, Magnetic Resonance Imaging

Abstract

Background: Several studies indicate that people who stutter show greater variability in speech movements than people who do not stutter, even when the speech produced is perceptibly fluent. Speaking to the beat of a metronome reliably increases fluency in people who stutter, regardless of the severity of stuttering., Objectives: Here, we aimed to test whether metronome-timed speech reduces articulatory variability., Method: We analysed vocal tract MRI data from 24 people who stutter and 16 controls. Participants repeated sentences with and without a metronome. Midsagittal images of the vocal tract from lips to larynx were reconstructed at 33.3 frames per second. Any utterances containing dysfluencies or non-speech movements (e.g. swallowing) were excluded. For each participant, we measured the variability of movements (coefficient of variation) from the alveolar, palatal and velar regions of the vocal tract., Results: People who stutter had more variability than control speakers when speaking without a metronome, which was then reduced to the same level as controls when speaking with the metronome. The velar region contained more variability than the alveolar and palatal regions, which were similar., Conclusions: These results demonstrate that kinematic variability during perceptibly fluent speech is increased in people who stutter compared with controls when repeating naturalistic sentences without any alteration or disruption to the speech. This extends our previous findings of greater variability in the movements of people who stutter when producing perceptibly fluent nonwords compared with controls. These results also show, that in addition to increasing fluency in people who stutter, metronome-timed speech also reduces articulatory variability to the same level as that seen in control speakers., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Wiltshire et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

16. Thermodynamically Guided Improvement of Fe-Mn-Al-Ni Shape-Memory Alloys.

Author

Walnsch A, Bauer A, Freudenberger J, Freiberg K, Wüstefeld C, Vollmer M, Lippmann S, Niendorf T, Leineweber A, and Kriegel MJ

Abstract

A microstructural informed thermodynamic model is utilized to tailor the pseudoelastic performance of a series of Fe-Mn-Al-Ni shape-memory alloys. Following this approach, the influence of the stability and the amount of the B2-ordered precipitates on the stability of the austenitic state and the pseudoelastic response is revealed. This is assessed by a combination of complementary nanoindentation measurements and incremental-strain tests under compressive loading. Based on these investigations, the applicability of the proposed models for the prediction of shape-memory capabilities of Fe-Mn-Al-Ni alloys is confirmed. Eventually, these thermodynamic considerations enable the guided enhancement of functional properties in this alloy system through the direct design of alloy compositions. The procedure proposed renders a significant advancement in the field of shape-memory alloys., (© 2023 The Authors. Advanced Materials published by Wiley-VCH GmbH.)

Published

2024

17. The Influence of Cu-Additions on the Microstructure, Mechanical and Magnetic Properties of MnAl-C Alloys.

Author

Jürries F, Freudenberger J, Nielsch K, and Woodcock TG

Abstract

Alloys of the form (Mn 54 Al 44 C 2 ) 100-x Cu x (with x = 0, 1, 2, 4 and 6) were produced by induction melting. After homogenisation and quenching, most of the alloys consist entirely of the retained ε-phase, except for x = 6, in which the κ-phase was additionally present. After subsequent annealing, the alloys with x ≤ 2 consist entirely of a Cu-doped, ferromagnetic τ-phase, whereas the alloys with x > 2 additionally contain the κ-phase. The polarisation of the alloys at an applied field of 14 T decreases with increasing Cu-content, which is attributed i) to the dilution of the magnetic moment of the τ-phase unit cell by the Cu atoms, which do not carry a magnetic moment, and ii) at higher Cu-contents, to the formation of the κ-phase, which has a much lower polarisation than the τ-phase and therefore dilutes the net polarisation of the alloys. The Curie temperature was not affected by the Cu-additions. The stress needed to die-upset the alloys with x ≤ 2 was similar to that of the undoped alloy, whereas it was much lower for x = 4 and 6, due to the presence of intergranular layers of the κ-phase. The extrinsic magnetic properties of alloys with x ≤ 2 were improved by die-upsetting, whereas decomposition of the τ-phase during processing had a deleterious effect on the magnetic properties for higher Cu-additions.

Published

2020

18. Entropy of Conduction Electrons from Transport Experiments.

Author

Pérez N, Wolf C, Kunzmann A, Freudenberger J, Krautz M, Weise B, Nielsch K, and Schierning G

Abstract

The entropy of conduction electrons was evaluated utilizing the thermodynamic definition of the Seebeck coefficient as a tool. This analysis was applied to two different kinds of scientific questions that can-if at all-be only partially addressed by other methods. These are the field-dependence of meta-magnetic phase transitions and the electronic structure in strongly disordered materials, such as alloys. We showed that the electronic entropy change in meta-magnetic transitions is not constant with the applied magnetic field, as is usually assumed. Furthermore, we traced the evolution of the electronic entropy with respect to the chemical composition of an alloy series. Insights about the strength and kind of interactions appearing in the exemplary materials can be identified in the experiments.

Published

2020

19. Direct study of structural phase transformation in single crystalline bulk and thin film BaFe 2 As 2 .

Author

Pukenas A, Chekhonin P, Meißner M, Hieckmann E, Aswartham S, Freudenberger J, Engelmann J, Hühne R, Wurmehl S, Büchner B, and Skrotzki W

Abstract

The ternary iron arsenide compound BaFe 2 As 2 exhibits a structural phase transition from tetragonal to orthorhombic at a temperature of about 140 K. The twin lamellae arising below this transition temperature were studied in undoped single crystalline bulk and epitaxial thin film samples using electron backscatter diffraction in a scanning electron microscope equipped with a helium cryostat. Applying this technique on bulk single crystals a characteristic twin lamella size in the range of 0.1 μm up to a few μm was observed. In contrast, in epitaxially strained thin films the phase transition is not observed at temperatures above 19 K., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

20. A preclinical Talbot-Lau prototype for x-ray dark-field imaging of human-sized objects.

Author

Hauke C, Bartl P, Leghissa M, Ritschl L, Sutter SM, Weber T, Zeidler J, Freudenberger J, Mertelmeier T, Radicke M, Michel T, Anton G, Meinel FG, Baehr A, Auweter S, Bondesson D, Gaass T, Dinkel J, Reiser M, and Hellbach K

Subjects

Animals, Equipment Design, Humans, Interferometry instrumentation, Lung diagnostic imaging, Models, Anatomic, Phantoms, Imaging, Pneumothorax diagnostic imaging, Radiation Dosage, Radiography instrumentation, Skin diagnostic imaging, Swine, Thorax diagnostic imaging, Whole Body Imaging instrumentation, Interferometry methods, Radiography methods, Whole Body Imaging methods, X-Rays

Abstract

Purpose: Talbot-Lau x-ray interferometry provides information about the scattering and refractive properties of an object - in addition to the object's attenuation features. Until recently, this method was ineligible for imaging human-sized objects as it is challenging to adapt Talbot-Lau interferometers (TLIs) to the relevant x-ray energy ranges. In this work, we present a preclinical Talbot-Lau prototype capable of imaging human-sized objects with proper image quality at clinically acceptable dose levels., Methods: The TLI is designed to match a setup of clinical relevance as closely as possible. The system provides a scan range of 120 × 30 cm 2 by using a scanning beam geometry. Its ultimate load is 100 kg. High aspect ratios and fine grid periods of the gratings ensure a reasonable setup length and clinically relevant image quality. The system is installed in a university hospital and is, therefore, exposed to the external influences of a clinical environment. To demonstrate the system's capabilities, a full-body scan of a euthanized pig was performed. In addition, freshly excised porcine lungs with an extrinsically provoked pneumothorax were mounted into a human thorax phantom and examined with the prototype., Results: Both examination sequences resulted in clinically relevant image quality - even in the case of a skin entrance air kerma of only 0.3 mGy which is in the range of human thoracic imaging. The presented case of a pneumothorax and a reader study showed that the prototype's dark-field images provide added value for pulmonary diagnosis., Conclusion: We demonstrated that a dedicated design of a Talbot-Lau interferometer can be applied to medical imaging by constructing a preclinical Talbot-Lau prototype. We experienced that the system is feasible for imaging human-sized objects and the phase-stepping approach is suitable for clinical practice. Hence, we conclude that Talbot-Lau x-ray imaging has potential for clinical use and enhances the diagnostic power of medical x-ray imaging., (© 2018 American Association of Physicists in Medicine.)

Published

2018

21. Thermomechanical processing of In-containing β-type Ti-Nb alloys.

Author

Pilz S, Geissler D, Calin M, Eckert J, Zimmermann M, Freudenberger J, and Gebert A

Subjects

Elastic Modulus, Materials Testing, Stress, Mechanical, Alloys chemistry, Biocompatible Materials chemistry, Niobium chemistry, Titanium chemistry

Abstract

In this study, the effect of thermomechanical processing on microstructure evolution of the indium-containing β-type Ti alloys (Ti-40Nb)-3.5In and (Ti-36Nb)-3.5In was examined. Both alloys show an increased β-phase stability compared to binary alloys due to In additions. This leads to a reduced α''-phase fraction in the solution treated and recrystallized state in the case of (Ti-36Nb)-3.5In and to the suppression of stress-induced α'' formation and deformation twinning for (Ti-40Nb)-3.5In. The mechanical properties of the alloys were subsequently studied by quasistatic tensile tests in the recrystallized state, revealing reduced Young's modulus values of 58GPa ((Ti-40Nb)-3.5In) and 56GPa ((Ti-36Nb)-3.5In) compared to 60GPa as determined for Ti-40Nb. For both In-containing alloys the ultimate tensile strength is in the range of 560MPa. Due to the suppressed α'' formation, (Ti-40Nb)-3.5In exhibits a linear elastic deformation behavior during tensile loading together with a low Young's modulus and is therefore promising for load-bearing implants., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

22. Effect of thermomechanical processing on the mechanical biofunctionality of a low modulus Ti-40Nb alloy.

Author

Helth A, Pilz S, Kirsten T, Giebeler L, Freudenberger J, Calin M, Eckert J, and Gebert A

Subjects

Elastic Modulus, Tensile Strength, Titanium, Alloys analysis, Biocompatible Materials analysis, Materials Testing

Abstract

Different hardening strategies were evaluated regarding their potential to improve the mechanical biofunctionality of the cast and solution-treated low modulus β-Ti alloy Ti 40Nb. The strategies are based on thermomechanical treatments comprised of different hot- and cold-rolling steps, as well as annealing treatments aiming at the successive exploitation of different hardening mechanisms (grain boundary hardening, work hardening and precipitation hardening). Quasi-static tensile testing revealed that grain refinement by one order of magnitude has only a small impact on improving the mechanical biofunctionality of Ti-40Nb. However, work hardening effectively improves the tensile strength by 30% to a value of 650MPa, while retaining Young׳s modulus at 60GPa. The α-phase precipitation hardening was verified to have an increasing effect on both, strength and Young׳s modulus. Thereby, the change of Young׳s modulus dominates the change of the strength, even at low α-phase fractions. The pseudo-elastic behavior of Ti 40Nb is discussed under consideration of the microstructural changes due to the thermomechanical treatment. The texture changes evolving upon cold-rolling markedly influence the recrystallization behavior. However, the present results do not show a significant effect of the texture on the mechanical properties of Ti-40Nb., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

23. Effect of microstructure on the mechanical properties of as-cast Ti-Nb-Al-Cu-Ni alloys for biomedical application.

Author

Okulov IV, Pauly S, Kühn U, Gargarella P, Marr T, Freudenberger J, Schultz L, Scharnweber J, Oertel CG, Skrotzki W, and Eckert J

Subjects

Elastic Modulus, Microscopy, Electron, Tensile Strength, Titanium chemistry, Alloys chemistry, Metals chemistry

Abstract

The correlation between the microstructure and mechanical behavior during tensile loading of Ti68.8Nb13.6Al6.5Cu6Ni5.1 and Ti71.8Nb14.1Al6.7Cu4Ni3.4 alloys was investigated. The present alloys were prepared by the non-equilibrium processing applying relatively high cooling rates. The microstructure consists of a dendritic bcc β-Ti solid solution and fine intermetallic precipitates in the interdendritic region. The volume fraction of the intermetallic phases decreases significantly with slightly decreasing the Cu and Ni content. Consequently, the fracture mechanism in tension changes from cleavage to shear. This in turn strongly enhances the ductility of the alloy and as a result Ti71.8Nb14.1Al6.7Cu4Ni3.4 demonstrates a significant tensile ductility of about 14% combined with the high yield strength of above 820 MPa already in the as-cast state. The results demonstrate that the control of precipitates can significantly enhance the ductility and yet maintaining the high strength and the low Young's modulus of these alloys. The achieved high bio performance (ratio of strength to Young's modulus) is comparable (or even superior) with that of the recently developed Ti-based biomedical alloys., (© 2013.)

Published

2013

24. 4 strategies for achieving reform-ready IT.

Author

Freudenberger J, Schunder L, and Reid W

Subjects

Organizational Innovation, United States, Health Care Reform, Hospital Information Systems organization & administration

Abstract

Hospital leaders can take four strategic steps to ensure their IT systems are prepared to meet the requirements of healthcare reform: Examine the extent to which current IT system capacity is sufficient to meet future demands. Create a solid foundation for expanding IT capabilities or implementing a new IT system. Share ownership and accountability for IT development and implementation with end users. Reconsider the value of third-party solutions.

Published

2013

25. Critical current scaling and anisotropy in oxypnictide superconductors.

Author

Kidszun M, Haindl S, Thersleff T, Hänisch J, Kauffmann A, Iida K, Freudenberger J, Schultz L, and Holzapfel B

Abstract

Having succeeded in the fabrication of epitaxial superconducting LaFeAsO(1-x)F(x) thin films we performed an extensive study of electrical transport properties. In the face of multiband superconductivity we can demonstrate that an anisotropic Ginzburg-Landau scaling of the angular dependent critical current densities can be adopted, although being originally developed for single band superconductors. In contrast with single band superconductors the mass anisotropy of LaFeAsO(1-x)F(x) is temperature dependent. A very steep increase of the upper critical field and the irreversibility field can be observed at temperatures below 6 K, indicating that the band with the smaller gap is in the dirty limit. This temperature dependence can be theoretically described by two dominating bands responsible for superconductivity. A pinning force scaling provides insight into the prevalent pinning mechanism and can be specified in terms of the Kramer model., (© 2011 American Physical Society)

Published

2011

26. High upper critical fields and evidence of weak-link behavior in superconducting LaFeAsO1-xFx thin films.

Author

Haindl S, Kidszun M, Kauffmann A, Nenkov K, Kozlova N, Freudenberger J, Thersleff T, Hänisch J, Werner J, Reich E, Schultz L, and Holzapfel B

Abstract

Superconducting LaFeAsO1-xFx thin films were grown on single crystalline LaAlO3 substrates with critical temperatures (onset) up to 28 K. Resistive measurements in high magnetic fields up to 40 T reveal a paramagnetically limited upper critical field mu{0}H{c2}(0) around 77 T and a remarkable steep slope of -6.2 T K-1 near T{c}. From transport measurements we observed weak-link behavior in low magnetic fields and evidence for a broad reversible regime.

Published

2010

27. High-field pauli-limiting behavior and strongly enhanced upper critical magnetic fields near the transition temperature of an arsenic-deficient LaO0.9F0.1FeAs1-delta superconductor.

Author

Fuchs G, Drechsler SL, Kozlova N, Behr G, Köhler A, Werner J, Nenkov K, Klingeler R, Hamann-Borrero J, Hess C, Kondrat A, Grobosch M, Narduzzo A, Knupfer M, Freudenberger J, Büchner B, and Schultz L

Abstract

We report upper critical field Bc2(T) data for disordered (arsenic-deficient) LaO0.9F0.1FeAs1-delta in a wide temperature and magnetic field range up to 47 T. Because of the large linear slope of Bc2 approximately -5.4 to -6.6 T/K near Tc approximately 28.5 K, the T dependence of the in-plane Bc2(T) shows a flattening near 23 K above 30 T which points to Pauli-limited behavior with Bc2(0) approximately 63-68 T. Our results are discussed in terms of disorder effects within [corrected] unconventional superconducting pairings.

Published

2008

28. Simultaneous measurement of magnetization and magnetostriction in 50 T pulsed high magnetic fields.

Author

Doerr M, Lorenz W, Neupert T, Loewenhaupt M, Kozlova NV, Freudenberger J, Bartkowiak M, Kampert E, and Rotter M

Abstract

To simultaneously perform magnetization and magnetostriction measurements in high magnetic fields, a miniaturized device was developed that combines an inductive magnetometer with a capacitive dilatometer and, therefore, it is called "dilamagmeter." This combination of magnetic and magnetoelastic investigations is a new step to a complex understanding of solid state properties. The whole system can be mounted in a 12 mm clear bore of any cryostat usually used in nondestructive pulsed high field magnets. The sensitivity of both methods is about 10(-5) A m(2) for magnetization and 10(-5) relative changes in length for striction measurements. Measurements on a GdSi single crystal, which are corrected by the background signal of the experimental setup, agree well with the results of steady field experiments. All test measurements, which are up until now performed in the temperature range of 4-100 K, confirm the perfect usability and high stability in pulsed fields up to 50 T with a pulse duration of 10 ms.

Published

2008

29. New x-ray tube performance in computed tomography by introducing the rotating envelope tube technology.

Author

Schardt P, Deuringer J, Freudenberger J, Hell E, Knüpfer W, Mattern D, and Schild M

Subjects

Reproducibility of Results, Rotation, Scattering, Radiation, Sensitivity and Specificity, Technology Assessment, Biomedical, Equipment Design, Equipment Failure Analysis, Radiographic Image Enhancement methods, Technology, Radiologic instrumentation, Technology, Radiologic methods, Tomography, X-Ray Computed methods

Abstract

The future demands of computed tomography imaging regarding the x-ray source can be summarized with higher scan power, shorter rotation times, shorter cool down times and smaller focal spots. We report on a new tube technology satisfying all these demands by making use of a novel cooling principle on one hand and of a novel beam control system on the other hand. Nowadays tubes use a rotating anode disk mainly cooled via radiation. The Straton x-ray tube is the first tube available for clinical routine utilizing convective cooling exclusively. It is demonstrated that this cooling principle makes large heat storage capacities of the anode disk obsolete. The unprecedented cooling rate of 4.8 MHU/min eliminates the need for waiting times due to anode cooling in clinical workflow. Moreover, an electronic beam deflection system for focal spot position and size control opens the door to advanced applications. The physical backgrounds are discussed and the technical realization is presented. From this discussion the superior suitability of this tube to withstand g-forces well above 20 g created by fast rotating gantries will become evident. Experience from a large clinical trial is reported and possible ways for future developments are discussed.

Published

2004

30. Parametric X rays observed under bragg condition: boost of intensity by a factor of Two

Author

Freudenberger J, Genz H, Morokhovskyi VV, Richter A, and Sellschop JP

Abstract

Parametric x rays (PXR) produced by bombarding silicon and diamond crystals with electrons of 30 to 87 MeV were detected at 180 degrees relative to the direction of the electron beam. It was found that the dependence of the intensity on the orientation of the crystal agrees with the predictions of the kinematical theory of PXR. The absolute intensity is twice as large as predicted. These findings can be explained considering dynamical effects that govern the x-ray crystal interaction. Additionally, x rays caused by self-diffracted transition radiation have been observed.

Published

2000

31. Parametric x-ray radiation observed in diamond at low electron energies.

Author

Freudenberger J, Gavrikov VB, Galemann M, Genz H, Groening L, Morokhovskii VL, Morokhovskii VV, Nething U, Richter A, Sellschop JP, and Shul'ga NF

Published

1995

32. Inhibition of Escherichia coli TEM-2 beta-lactamase by the sulfated compounds izumenolide, panosialin and sodium dodecyl sulfate.

Author

Bush K, Freudenberger J, and Sykes RB

Subjects

Lactones, Alkanes pharmacology, Benzene Derivatives pharmacology, Escherichia coli enzymology, Sodium Dodecyl Sulfate pharmacology, beta-Lactamase Inhibitors

Published

1980

33. Effect of antifungal agents on lipid biosynthesis and membrane integrity in Candida albicans.

Author

Georgopapadakou NH, Dix BA, Smith SA, Freudenberger J, and Funke PT

Subjects

Allylamine analogs & derivatives, Allylamine pharmacology, Animals, Candida albicans metabolism, Cell Membrane drug effects, Cerulenin pharmacology, Cholestadienols pharmacology, Chromatography, Gas, Chromatography, Thin Layer, Clotrimazole pharmacology, Culture Techniques, Econazole pharmacology, Ergosterol biosynthesis, Fatty Acids biosynthesis, Ketoconazole pharmacology, Miconazole pharmacology, Tolnaftate pharmacology, Antifungal Agents pharmacology, Candida albicans drug effects, Lipids biosynthesis

Abstract

Eight antifungal agents were examined for effects on lipid biosynthesis and membrane integrity in Candida albicans. Lipids were labeled in vivo or in vitro with [14C]acetate and analyzed by thin-layer and gas chromatography. Membrane integrity was measured by a recently developed [14C]aminoisobutyric acid radiolabel release assay. The imidazole antifungal agents miconazole, econazole, clotrimazole, and ketoconazole, at concentrations inhibiting ergosterol biosynthesis (0.1 microM), decreased the ratio of unsaturated to saturated fatty acids in vivo but not in vitro. Similarly, naftifine, tolnaftate, and the azasterol A25822B, at concentrations inhibiting ergosterol biosynthesis (10, 100, and 1 microM, respectively), decreased the ratio of unsaturated to saturated fatty acids in vivo only. This suggests that the effect on fatty acids observed with ergosterol biosynthesis inhibitors may be secondary to the effect on ergosterol. With imidazoles, oleic acid antagonized inhibition of cell growth but not inhibition of ergosterol. This suggests that, with the C-14 demethylase inhibitors, decreased unsaturated fatty acids, rather than decreased ergosterol, are responsible for growth inhibition. Cerulenin, previously reported to be a potent inhibitor of both fatty acid and ergosterol biosynthesis, was found in the present study to inhibit the former (at 5 microM) but not the latter (up to 100 microM). Of the antifungal agents tested, econazole and miconazole (at 100 microM) produced complete release of [14C]aminoisobutyric acid, which is consistent with membrane damage.

Published

1987

34. Determination of protein immobilized on solid support by tryptophan content.

Author

Eskamani A, Chase T Jr, Freudenberger J, and Gilbert SG

Subjects

Acrylamides, Amylases analysis, Aspergillus enzymology, Cellulose, Collagen, Escherichia coli enzymology, Evaluation Studies as Topic, Ion Exchange Resins, Macromolecular Substances, Methods, Polysaccharides, Protein Binding, Spectrophotometry, Tendons, Galactosidases, Tryptophan analysis

Published

1974