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- CT (2)
- Computed Tomography (2)
- Abdominal appendages (1)
- Adult insects (1)
- Antemortem and perimortem lesions (1)
- Arachnida (1)
- Arrow wound (1)
- BAMline (1)
- Bauplan (1)
- Beta-eucryptite (1)
Organisationseinheit der BAM
Die Produktion von elektronischen, optischen und elektro-mechanischen Mikro- und Nanosystemen stellt hohe Anforderungen an die Messtechnik, um die Fertigungsprozesse zu optimieren und die Qualität zu prüfen. Existierende Messverfahren unterliegen Beschränkungen hinsichtlich des Auflösungsvermögens, der Messfeldgröße und des Ergebnisses der Messung. Der kombinierte Einsatz von Sensoren mit unterschiedlichen Fähigkeiten in den Auflösungsstufen mittels einer intelligenten Messstrategie ermöglicht eine effiziente Prüfung.
Neben den geeigneten Prüfstrategien werden auch Methoden zur Fusion und Auswertung der Daten von Sensoren mit unterschiedlichen Auflösungsfähigkeiten benötigt. Datenfusion bezeichnet dabei das Zusammenfügen verschiedener Messungen, um entweder unterschiedliche Eigenschaften eines Messobjekts in einem gemeinsamen Koordinatensystem angeben zu können oder um aus verschiedenen Messungen derselben Eigenschaft des Messobjekts einen Datensatz von höherer Qualität gegenüber den einzelnen Datensätzen zu erhalten. Voraussetzung für die Datenfusion ist Registrierung, die eine Überführung von Messdaten unterschiedlicher Messfelder oder Messmittel in ein gemeinsames Koordinatensystem darstellt und Thema dieses Beitrages ist.
In order to investigate their microcracking behaviour, the microstructures of several β-eucryptite ceramics, obtained from glass precursor and cerammed to yield different grain sizes and microcrack densities, were characterized by laboratory and synchrotron x-ray refraction and tomography. Results were compared with those obtained from scanning electron microscopy (SEM). In SEM images, the characterized materials appeared fully dense but computed tomography showed the presence of pore clusters. Uniaxial tensile testing was performed on specimens while strain maps were recorded and analyzed by Digital Image Correlation (DIC). X-ray refraction techniques were applied on specimens before and after tensile testing to measure the amount of the internal specific surface (i.e., area per unit volume). X-ray refraction revealed that (a) the small grain size (SGS) material contained a large specific surface, originating from the grain boundaries and the interfaces of TiO2 precipitates; (b) the medium (MGS) and large grain size (LGS) materials possessed higher amounts of specific surface compared to SGS material due to microcracks, which decreased after tensile loading; (c) the precursor glass had negligible internal surface. The unexpected decrease in the internal surface of MGS and LGS after tensile testing is explained by the presence of compressive regions in the DIC strain maps and further by theoretical arguments. It is suggested that while some microcracks merge via propagation, more close mechanically, thereby explaining the observed X-ray refraction results. The mechanisms proposed would allow the development of a strain hardening route in ceramics.
Data processing is an essential part of the evaluation of measurement results, e.g. in X-ray computed tomography
(CT). Some of these calculations are denoted as 'filtering'. Filtering is always a trade-off between an enhancement
of data quality and a loss of information. The standard reconstruction technique for CT data is t he filtered
back-projection. Additionally to the high-pass filter inherent to this technique, a suppression of high-frequency
noise is in most cases also necessary. Many different possible filter algorithms are found in the literature. Although
their effect on the signal-to-noise ratio and the spatial resolution is well-studied, it is not obvious how the
different filters affect the determination of the object's surface in the reconstructed data and, thus, the results of
dimensional CT measurements. We compare the results of industrial dimensional CT measurements obtained at
the same data set of a calibrated reference standard – a calotte cube – when using different filters and discuss the
implications. Filters under investigation are mainly median filters on projections and as well filters during filtered
backprojection and filters on the reconstructed volume.
Die Mikro- und Nanotechnologie gehört zu den Schlüsseltechnologien des 21. Jahrhunderts mit hohen Wachstumsprognosen, wie auch die im Auftrag des BMBF durchgeführte Studie “Nanotechnologie als wirtschaftlicher Wachstumsmarkt” von 2004 ausführlich darstellt. Aus diesem Trend resultiert ein steigender Bedarf an Messsystemen, die Nanostrukturen prozessnah bzw. im Fertigungsprozess charakterisieren können. Virtuelle Messgeräte liefern Erkenntnisse zur Entwicklung neuartiger Messsysteme, Analyse und Optimierung bestehender Verfahren sowie die Bestimmung der Messunsicherheit und modellbasierten Korrektur systematischer Fehler. Der virtuelle Messprozess umfasst neben dem Messmittel auch die Probe und die Wechselwirkungen zwischen beiden. In diesem Beitrag werden virtuelle Messgeräte vorgestellt sowie deren Anwendung diskutiert.
Computertomographische Aufnahmen von Objekten mit stark
voneinander abweichenden Absorptionseigenschaften stellen sowohl für den
Anwendungsbereich der zerstörungsfreien Prüfung als auch für den der
dimensionellen Messtechnik eine besondere Herausforderung dar. Die
Aufnahmekonfiguration kann bei Objekten dieser Art häufig nicht so gewählt
werden, dass die unterschiedlichen Materialeigenschaften mit ausreichender Qualität
abgebildet werden können. Aus diesem Grund ist eine objektive Bewertung der
Oberflächenmessung mit Hilfe eines in dieser Untersuchung eingeführten
Qualitätsmaßes erforderlich. Anhand der in dieser Arbeit vorgestellten
Prüfkörperserie soll der Einfluss der Materialzusammensetzung auf das
dimensionelle Messen mit CT erfasst und charakterisiert werden. Unter
Berücksichtigung der Qualitätsbewertung der Oberflächenpunkte erfolgt die
Berechnung der Form- und Abstandsabweichungen. Ziel ist es, die Genauigkeit der
Oberflächenmessung hinsichtlich unterschiedlicher Aufnahmeparameter und
Materialzusammensetzungen darzustellen. Anhand dieser Ergebnisse ist es möglich,
den computertomographischen Aufnahme- und Auswertungsprozess quantitativ zu
bewerten und Ursachen der Abweichungen zu diskutieren.
Despite their enormous diversity, the bauplan of adult winged insects (pterygotes) is remarkably conservative since the Lower Devonian: a five-segmented head, a three-segmented thorax with three pairs of walking legs and an eleven-segmented abdomen without any non-sexual appendages 1 and 2. The only known exceptions are the abdominal appendages of adult male sepsid flies on the fourth segment; however, these are also used as copulatory organs and are supposedly maintained through sexual selection [3]. Here, we report a rod-like paired appendage from the third and fourth abdominal segments in adults of the Southeast-Asian Hemiptera taxon Bennini (Figure 1A,B; Supplemental information). These are fully musculated, innervated, and movable and bear highly organized sensory and secretory units. The appendages, termed LASSO (lateral abdominal sensory and secretory organs), are consistent in topology and structure in all species studied and not sexually dimorphic. The existence of these non-sexual abdominal appendages reveals the potential of the 300 million year old conserved bauplan of insects.
The Bronze Age site in the Tollense valley, Germany, has yielded thousands of human and animal bones and a number of archaeological artifacts. Several of the human bones exhibit blunt and sharp force lesions, and the assemblage has been interpreted as representing victims of a large scale conflict. One of the earliest finds is a human humerus with an embedded flint arrowhead. Alleged signs of healing initially reported for this humerus based on clinical CT imaging were interpreted as evidence of an antemortem lesion. The present study, using micro-CT imaging, revealed that the arrowhead lesion in the humerus, contrary to the previous interpretation, shows no signs of healing. The structure previously assumed to represent a sclerotic margin around the wound canal was shown to actually represent compacted trabecular debris. Thus, our re-analysis of the specimen led to a re-classification of the arrow wound as a perimortem lesion. The findings of the present study demonstrate the value of micro-CT imaging as a non-destructive method for obtaining information on the nature of bone lesions and healing reactions critical for the reconstruction of interpersonal conflict scenarios in the past.
Most knowledge about the structure, function, and evolution of early compound eyes is based on investigations in trilobites. However, these studies dealt mainly with the cuticular lenses and little was known about internal anatomy. Only recently some data on crystalline cones and retinula cells were reported for a Cambrian trilobite species. Here, we describe internal eye structures of two other trilobite genera. The Ordovician Asaphus sp. reveals preserved crystalline cones situated underneath the cuticular lenses. The same is true for the Devonian species Archegonus (Waribole) warsteinensis, which in addition shows the fine structure of the rhabdom in the retinula cells. These results suggest that an apposition eye with a crystalline cone is ancestral for Trilobita. The overall similarity of trilobite eyes to those of myriapods, crustaceans, and hexapods corroborates views of a phylogenetic position of trilobites in the stem lineage of Mandibulata.
Digital Volume Correlation (DVC) is a powerful set of techniques used to compute the local shifts of 3D images obtained, for instance, in tomographic experiments. It is utilized to analyze the geometric changes of the investigated object as well as to correct the corresponding image misalignments for further analysis. It can therefore be used to evaluate the local density changes of the same regions of the inspected specimens, which might be shifted between measurements. In recent years, various approaches and corresponding pieces of software were introduced. Accuracies for the computed shift vectors of up to about 1‰of a single voxel size have been reported. These results, however, were based either on synthetic datasets or on an unrealistic setup. In this work, we propose two simple methods to evaluate the accuracy of DVC-techniques using more realistic input data and apply them to several DVC programs. We test these methods on three materials (tuff, sandstone, and concrete) that show different contrast and structural features.
Invasion of the land by arachnids required adaptations of numerous organs, such as gills evolving into lungs, as well as mechanisms facilitating sperm transfer in a terrestrial environment. Many modern arachnids use spermatophores for this purpose, i.e. sperm transmitters detached from the body. Exceptionally preserved Silurian (423 Ma) fossils of Eurypterus tetragonophthalmus Fischer, 1839 (Chelicerata: Eurypterida) preserve so-called horn organs which we here demonstrate as being equivalent to the spermatophore-producing parts of the genital tract in certain modern arachnids. This clarifies a long-running debate about sexing eurypterids based on the shape of the median abdominal (or genital) appendage. To our knowledge this is also the oldest direct evidence for spermatophoremediated sperm transfer in the fossil record and suggests that eurypterids had evolved mating techniques using spermatophores as early as the Silurian, a valuable prerequisite for life on land. Spermatophores are absent in sea spiders (Pycnogonida) and horseshoe crabs (Xiphosura); thus the shared presence of sclerotized sperm-transfer devices in eurypterids and arachnids is a novel character, newly elucidated here,which offers explicit support for (Eurypterida + Arachnida). For this clade the name Sclerophorata n. nov. is proposed. Arachnida can be further defined by fusion of the originally paired genital opening.