Welcome to the Amira-Avizo Software Use Case Gallery

Below you will find a collection of use cases of our 3D data visualization and analysis software. These use cases include scientific publications, articles, papers, posters, presentations or even videos that show how Amira-Avizo Software is used to address various scientific and industrial research topics.

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Demarcation of arteriopulmonary segments: a novel and effective method for the identification of pulmonary segments

Demarcation of arteriopulmonary segments: a novel and effective method for the identification of pulmonary segments

Each pulmonary segment is an anatomical and functional unit. However, it is fundamentally difficult to precisely distinguish every pulmonary segment using the conventional pulmonary intersegmental planes from computed tomography images. Building arteriopulmonary segments is likely to be an effective way to identify pulmonary segments.

The three-dimensional reconstructed images showed the branches of the pulmonary artery ramified up to their eighth order covering the entire lung as well... Read more

Huijie Gao, Chao Liu

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3D computational anatomy of the scaphoid and its waist for use in fracture treatment

3D computational anatomy of the scaphoid and its waist for use in fracture treatment

A detailed understanding of scaphoid anatomy helps anatomic fracture reduction and optimal screw position. Therefore, we analyzed the size and shape variations of the cartilage and osseous surface, the distribution of volumetric bone mineral density (vBMD), and if the vBMD values differ between a peripheral and a central screw pathway?

Forty-three fresh frozen hand specimens (17 females, 26 males) were analysed with high-resolution peripheral quantitative computed tomography (HR-pQCT) ... Read more

Marc-Daniel Ahrend, Teun Teunis, Hansrudi Noser, Florian Schmidutz, Geoff Richards, Boyko Gueorguiev & Lukas Kamer

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Analysis of in vitro demineralised human enamel using multi-scale correlative optical and scanning electron microscopy, and high-resolution synchrotron wide-angle X-ray scattering

Analysis of in vitro demineralised human enamel using multi-scale correlative optical and scanning electron microscopy, and high-resolution synchrotron wide-angle X-ray scattering

Enamel caries is a highly prevalent worldwide disease that involves the demineralisation of the outer tooth structure. In this study, we report the analysis of artificially demineralised human enamel sections (‘slices’) etched using lactic acid (2% v/v) in comparison with healthy enamel using correlative techniques of optical and electron microscopy, as well as scanning diffraction. Demineralisation of the enamel was characterised at the micron to sub-micron scale. The structure of the he... Read more

Cyril Besnard, Robert A. Harper, Thomas E. J. Moxham, Jonathan D. James, Malte Storm, Enrico Salvati, Gabriel Landini, Richard M. Shelton, Alexander M.Korsunsky

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3D analysis of enamel demineralisation in human dental caries using high-resolution, large field of view synchrotron X-ray micro-computed tomography

3D analysis of enamel demineralisation in human dental caries using high-resolution, large field of view synchrotron X-ray micro-computed tomography

 

Unprecedented combination of resolution, field of view and contrast for the analysis human enamel carious lesions was achieved. Synchrotron X-ray micro-computed tomography revealed sub-micron details of enamel rod and inter-rod regions inaccessible by laboratory tomography. Successful segmentation and labelling allowed the extraction of enamel etching patterns and statistics. Correlation was obtained between synchrotron X-ray micro-tomography and FIB-SEM cross-sec... Read more

Cyril Besnard, Robert A. Harper, Thomas E. J. Moxham, Jonathan D. James, Malte Storm, Enrico Salvati, Gabriel Landini, Richard M. Shelton, Alexander M.Korsunsky

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Thermal Runaway of a Li-Ion Battery Studied by Combined ARC and Multi-Length Scale X-ray CT

Thermal Runaway of a Li-Ion Battery Studied by Combined ARC and Multi-Length Scale X-ray CT

Lithium ion battery failure occurs across multiple length scales. In this work, the properties of thermal failure and its effects on electrode materials were investigated in a commercial battery using a combination of accelerating rate calorimetry (ARC) and multi-length scale X-ray computed tomography (CT). ARC measured the heat dissipated from the cell during thermal runaway and enabled the identification of key thermal failure characteristics such as onset temperature and the rate of heat g... Read more

Drasti Patel, James B. Robinson, Sarah Ball, Daniel J. L. Brett and Paul R. Shearing

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Influence of Copper Addition in AlSi7MgCu Alloy on Microstructure Development and Tensile Strength Improvement

Influence of Copper Addition in AlSi7MgCu Alloy on Microstructure Development and Tensile Strength Improvement

High market demands related to material quality and properties strongly influence redesigning of common safety loaded aluminum alloy castings. The quality of aluminum components and associated obtained mechanical properties are strongly dependent on the casting process and parameters, as well as on the chemical composition. Therefore, the redesigning of chemical composition of high-strength aluminum alloys becomes significant for safety critical structural components in automotive industry.Read more

Davor Stanić, Zdenka Zovko Brodarac, Letian Li

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Processing and Characterization of Bilayer Materials by Solid State Sintering for Orthopedic Applications

Processing and Characterization of Bilayer Materials by Solid State Sintering for Orthopedic Applications

Nowadays, industrial processes demand materials with specific properties and localized microstructures to improve material performance. To satisfy particular needs, the development of materials with changing mechanical properties and/or microstructures along a preferential direction has been developed. These are called Functional Graded Materials (FGMs). Among these materials, a variation on the porosity along the part is very useful for different industrial applications, such as microfiltrat... Read more

Jorge Sergio Téllez-Martínez, Luis Olmos, Víctor Manuel Solorio-García, Héctor Javier Vergara-Hernández, Jorge Chávez, Dante Arteaga

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SARS-CoV-2 structure and replication characterized by in situ cryo-electron tomography

SARS-CoV-2 structure and replication characterized by in situ cryo-electron tomography

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the causative agent of the COVID19 pandemic, is a highly pathogenic β-coronavirus. As other coronaviruses, SARS-CoV-2 is enveloped, replicates in the cytoplasm and assembles at intracellular membranes. Here, we structurally characterize the viral replication compartment and report critical insights into the budding mechanism of the virus, and the structure of extracellular virions close to their native state by in situ cryo-electr... Read more

Steffen Klein, Mirko Cortese, Sophie L. Winter, Moritz Wachsmuth-Melm, Christopher J. Neufeldt, Berati Cerikan, Megan L. Stanifer, Steeve Boulant, Ralf Bartenschlager, Petr Chlanda

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Multi-Scale Digital Image Correlation Analysis of In Situ Deformation of Open-Cell Porous Ultra-High Molecular Weight Polyethylene Foam

Multi-Scale Digital Image Correlation Analysis of In Situ Deformation of Open-Cell Porous Ultra-High Molecular Weight Polyethylene Foam

Since its invention and commercialization in the 1950s, ultra-high molecular weight polyethylene (UHMWPE) has been known as a high-performance polymer successfully applied in diverse engineering systems ranging from strong ropes for naval demands and wear-resistant liners in bearings, transportation belts and heavy trucks in mines and quarries, through the lining of chemical vessels and disposable bags in bioreactors, to sophisticated products such as orthopaedic implants and replacements of ... Read more

Eugene S. Statnik, Codrutza Dragu, Cyril Besnard, Alexander J.G. Lunt, Alexey I. Salimon, Aleksey Maksimkin and Alexander M. Korsunsky

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Combined quantitative microscopy on the microstructure and phase evolution in Li Al Ti (PO4) ceramics

Combined quantitative microscopy on the microstructure and phase evolution in Li Al Ti (PO4) ceramics

Lithium aluminum titanium phosphate (LATP) is one of the materials under consideration as an electrolyte in future all-solid-state lithium-ion batteries. In ceramic processing, the presence of secondary phases and porosity play an important role. In a presence of more than one secondary phase and pores, image analysis must tackle the difficulties about distinguishing between these microstructural features. In this study, we study the phase evolution of LATP ceramics sintered at temperatures b... Read more

Deniz Cihan GUNDUZ, Roland SCHIERHOLZ, Shicheng YUa, Hermann TEMPEL, Hans KUNGL, Rüdiger-A. EICHEL

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Influence of Isothermal Holding on the Microstructure and Mechanical Properties of Electron Beam Welded Dissimilar Inconel 718/ATI 718Plus® Joint

Influence of Isothermal Holding on the Microstructure and Mechanical Properties of Electron Beam Welded Dissimilar Inconel 718/ATI 718Plus® Joint

Inconel 718 (IN718) is the most popular precipitation-strengthened nickel-based superalloy introduced by the Huntington Alloys Division of INCO in 1959 (Ref Read more

Oskar Dziuba, Grzegorz Cempura, Agnieszka Wusatowska-Sarnek & Adam Kruk

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Centre of Rotation of the Human Subtalar Joint Using Weight-Bearing Clinical Computed Tomography

Centre of Rotation of the Human Subtalar Joint Using Weight-Bearing Clinical Computed Tomography

The subtalar joint describes an articulation between talus and calcaneus, forming one of two joints of the hindfoot with the tibiotalar or ankle joint above the talus and the subtalar joint below. The talus comprises of three facets (anterior, middle and posterior) that articulate with the mating facets on the calcaneus at the subtalar joint. The bones are connected by a complex of ligamentous structures that connect the talus to the calcaneus and both structures to the adjacent navicular bon... Read more

Marta Peña Fernández, Dorela Hoxha, Oliver Chan, Simon Mordecai, Gordon W. Blunn, Gianluca Tozzi & Andy Goldberg

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X-ray Micro-Computed Tomography of Polymer Electrolyte Fuel Cells: What is the Representative Elementary Area?

X-ray Micro-Computed Tomography of Polymer Electrolyte Fuel Cells: What is the Representative Elementary Area?

With the growing use of X-ray computed tomography (X-ray CT) datasets for modelling of transport properties, comes the need to define the representative elementary volume (REV) if considering three dimensions or the representative elementary area (REA) if considering two dimensions. The resolution used for imaging must be suited to the features of interest in the sample and the region-of-interest must be sufficiently large to capture key information. Polymer electrolyte fuel cells have a hier... Read more

Jennifer Hack et al 2020 J. Electrochem.

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An Anisotropic Microstructure Evolution in a Solid Oxide Fuel Cell Anode

An Anisotropic Microstructure Evolution in a Solid Oxide Fuel Cell Anode

A solid oxide fuel cell (SOFC) is an electrochemical device that converts the chemical energy of hydrogen directly into electricity. A single cell usually has a form of a flat plate in which an impervious and dense ion-conducting electrolyte is sandwiched between two porous catalytic electrodes: an anode and a cathode. Fuel is fed to the anode side, and the air is supplied to the cathode. The gasses cannot mix to avoid unproductive combustion. Instead, gasses hit catalyst material, lose their... Read more

Grzegorz Brus, Hiroshi Iwai, Janusz S. Szmyd

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Towards digital metal additive manufacturing via high-temperature drop-on-demand jetting

Towards digital metal additive manufacturing via high-temperature drop-on-demand jetting

Drop-on-demand jetting of metals offers a fully digital manufacturing approach to surpass the limitations of the current generation powder-based additive manufacturing technologies. However, research on this topic has been restricted mainly to near-net shaping of relatively low melting temperature metals. Here it is proposed a novel approach to jet molten metals at high-temperatures (>1000 °C) to enable the direct digital additive fabrication of micro- to macro-scale objects. […] ... Read more

Marco Simonelli, Nesma Aboulkhair, Mircea Rasa, Mark East, Chris Tuck, Ricky Wildman, Otto Salomons, Richard Hague

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Variation of 3D outer and inner crown morphology in modern human mandibular premolars

Variation of 3D outer and inner crown morphology in modern human mandibular premolars

This study explores the outer and inner crown of lower third and fourth premolars (P3, P4) by analyzing the morphological variation among diverse modern human groups.

We studied three‐dimensional models of the outer enamel surface and the enamel–dentine junction (EDJ) from μCT datasets of 77 recent humans using both an assessment of seven nonmetric traits and a standard geometric morphometric (GM) analysis. For the latter, the dental crown was represented by ... Read more

Viktoria A. Krenn, Cinzia Fornai, Lisa Wurm, Fred L. Bookstein, Martin Haeusler, Gerhard W. Weber

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Fragmentation of wall rock garnets during deep crustal earthquakes

Fragmentation of wall rock garnets during deep crustal earthquakes

Deformation of the lithosphere by seismic slip along faults dissipates energy to the immediate surroundings as heat and elastic waves. Heat effects may occasionally cause frictional melting along the slip plane, leading to the formation of pseudotachylite, a characteristic fine-grained or glassy fault rock, interpreted as the quenched melt. Recently, it has been suggested that mechanical effects due to rapid loading, such as the formation of shiny “mirror” surfaces or pulverization of roc... Read more

Department of Geosciences, University of Oslo; Department of Earth Sciences, Utrecht University; Géosciences Montpellier, Université de Montpellier; Debye Institute for Nanomaterials Science, Utrecht University

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A novel approach for the quantification of inhomogeneous 3D current distribution in fuel cell electrodes

A novel approach for the quantification of inhomogeneous 3D current distribution in fuel cell electrodes

The electrode microstructural properties significantly influence the efficiency and durability of many electrochemical devices including solid oxide fuel cells. Despite the possibility of simulating the electrochemical phenomena within real three-dimensional microstructures, the potential of such 3D microstructural information has not yet been fully exploited. We introduce here a completely new methodology for the advanced characterization of inhomogeneous current distribution base... Read more

A.Bertei, V.Yufit, F.Tariq, N.P.Brandon

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Nanoporous Aluminum by Galvanic Replacement: Dealloying and Inward-Growth Plating

Nanoporous Aluminum by Galvanic Replacement: Dealloying and Inward-Growth Plating

In aqueous solutions, electro/chemically deposited metals usually grow outward into electrolyte. Here we report that the reduced Al grows inward into the sample, surprisingly, while Mg (in pure Mg and Al2Mg3 alloy) is galvanically replaced with Al in an ionic liquid. The galvanic replacement reaction (GRR) of Al2Mg3 involves a dealloying process that generates a nanoporous Al skeleton, and simultaneously the inward-growth plating of Al that thicke... Read more

Wei Yang, Xian-Gui Zheng, Shao-Gang Wang, Hai-Jun Jin

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Aging of a Pt/Al2O3 exhaust gas catalyst monitored by quasi in situ X-ray micro computed tomography

Aging of a Pt/Al2O3 exhaust gas catalyst monitored by quasi in situ X-ray micro computed tomography

Catalyst aging effects were analyzed using X-ray absorption micro-computed tomography in combination with conventional characterization methods on various length scales ranging from nm to μm to gain insight into deactivation mechanisms.

For this purpose, a 4 wt% Pt/Al2O3 model exhaust gas catalyst was coated on a cordierite honeycomb and subjected to sequential thermal aging in static air at 950 °C for 4, 8, 12 and 24 hours. The ag... Read more

Georg Hofmann, Amélie Rochet, Elen Ogel, Maria Casapu, Stephan Ritter, Malte Ogurreck and Jan-Dierk Grunwaldt

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Characterization of the Interface Between Coating and Fibrous Layers of Paper

Characterization of the Interface Between Coating and Fibrous Layers of Paper

Coated paper is an example of a multi-layer porous medium, involving a coating layer along the two surfaces of the paper and a fibrous layer in the interior of the paper. The interface between these two media needs to be characterized in order to develop relevant modeling tools. After careful cutting of the paper, a cross section was imaged using focused ion beam scanning electron microscopy. The resulting image was analyzed to characterize the coating layer and its transition to the fibrous ... Read more

H. Aslannejad, S. M. Hassanizadeh, M. A. Celia

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