F
Florian Heidelbach
Researcher at University of Bayreuth
Publications - 69
Citations - 2940
Florian Heidelbach is an academic researcher from University of Bayreuth. The author has contributed to research in topics: Dislocation creep & Dislocation. The author has an hindex of 27, co-authored 65 publications receiving 2673 citations. Previous affiliations of Florian Heidelbach include University of Minnesota & University of California, Berkeley.
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Journal ArticleDOI
Melt segregation and strain partitioning: implications for seismic anisotropy and mantle flow.
Benjamin K. Holtzman,David L. Kohlstedt,Mark E. Zimmerman,Florian Heidelbach,Takehiko Hiraga,J. W. Hustoft +5 more
TL;DR: It is demonstrated that the presence of melt weakens the alignment of a axes and when melt segregates and forms networks of weak shear zones, strain partitions between weak and strong zones, resulting in an alignment of an axes 90° from the shear direction in three-dimensional deformation.
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Shear deformation experiments of forsterite at 11 Gpa - 1400°C in the multianvil apparatus
Hélène Couvy,Hélène Couvy,Daniel J. Frost,Florian Heidelbach,Krisztián Nyilas,Tamás Ungár,Stephen J. Mackwell,Patrick Cordier +7 more
TL;DR: In this paper, synthetic forsterite samples were shear-deformed at 11 GPa, 1400°C in the multianvil apparatus, and the deformation microstructures have been characterised by SEM, EBSD, X-ray diffraction peak broadening and strain anisotropy analysis, and TEM.
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Aspects of X-ray diffraction on single spider fibers.
TL;DR: The orientation distribution of the polymer chains of the crystalline fraction along the fiber axis was found to be about 23 degrees full-width at half maximum (fwhm) and the azimuthal spread of the short-range order fraction was about 86 degrees fwhm.
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Crystal alignment of carbonated apatite in bone and calcified tendon: results from quantitative texture analysis.
TL;DR: Methods of quantitative X-ray texture analysis were used to determine the orientation distribution and texture strength of apatite in a calcified turkey tendon and in trabecular and cortical regions of osteonal bovine ankle bone (metacarpus).
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Analysis of the Native Structure of Starch Granules with X-ray Microfocus Diffraction
Thomas A. Waigh,Ian Hopkinson,Athene M. Donald,Michael F. Butler,Florian Heidelbach,Christian Riekel +5 more
TL;DR: In this article, microfocus X-ray diffraction at the ESRF was used to obtain oriented 2-D fiber patterns from the edge of B-type potato starch granules.