Your search keyword '"Drury, Martyn"' showing total 10 results

1. Cathodoluminescence as a tracing technique for quartz precipitation in low velocity shear experiments.

Author

Hamers MF, Niemeijer AR, and Drury MR

Subjects

Spectrum Analysis, Quartz, Aluminum Silicates

Abstract

Two simulated gouges (a pure quartz and a quartz-muscovite mixture) were experimentally deformed in a ring shear apparatus at a constant low velocity under hydrothermal conditions favourable for dissolution-precipitation processes. Microstructural analysis using scanning electron microscope cathodoluminescence imaging and cathodoluminescence spectroscopy combined with chemical analysis showed that quartz dissolution and precipitation occurred in both experiments. The starting materials and deformation conditions were chosen so that dissolution-precipitation microstructures could be unambiguously identified from their cathodoluminescence signal. Precipitated quartz was observed as blue luminescent fracture fills and overgrowths with increased Al content relative to the original quartz. In the pure quartz gouge, most of the shear deformation was localized on a boundary-parallel slip surface. Sealing of fractures in a pulverized zone directly adjacent to the slip surface may have helped keeping the deformation localized. In the quartz-muscovite mixture, some evidence was observed of shear-accommodating precipitation of quartz in strain shadows, but predominantly in fractures, elongating the original grains. Precipitation of quartz in fractures implies that the length scale of diffusive mass transfer in frictional-viscous flow is shorter than the length of the quartz domains. Additionally, fracturing might play a more important role than generally assumed. Our results show that cathodoluminescence, especially combined with chemical analysis, is a powerful tool in microstructural analyses of experimentally deformed quartz-bearing material and visualizing quartz precipitation., (© 2023. The Author(s).)

Published

2023

2. Microscale cavitation as a mechanism for nucleating earthquakes at the base of the seismogenic zone.

Author

Verberne BA, Chen J, Niemeijer AR, de Bresser JHP, Pennock GM, Drury MR, and Spiers CJ

Abstract

Major earthquakes frequently nucleate near the base of the seismogenic zone, close to the brittle-ductile transition. Fault zone rupture at greater depths is inhibited by ductile flow of rock. However, the microphysical mechanisms responsible for the transition from ductile flow to seismogenic brittle/frictional behaviour at shallower depths remain unclear. Here we show that the flow-to-friction transition in experimentally simulated calcite faults is characterized by a transition from dislocation and diffusion creep to dilatant deformation, involving incompletely accommodated grain boundary sliding. With increasing shear rate or decreasing temperature, dislocation and diffusion creep become too slow to accommodate the imposed shear strain rate, leading to intergranular cavitation, weakening, strain localization, and a switch from stable flow to runaway fault rupture. The observed shear instability, triggered by the onset of microscale cavitation, provides a key mechanism for bringing about the brittle-ductile transition and for nucleating earthquakes at the base of the seismogenic zone.

Published

2017

3. Cosmic impact or natural fires at the Allerod-Younger Dryas boundary: a matter of dating and calibration.

Author

van Hoesel A, Hoek WZ, van der Plicht J, Pennock GM, and Drury MR

Subjects

Geology methods, Meteoroids, Minor Planets

Published

2013

4. Nanodiamonds and wildfire evidence in the Usselo horizon postdate the Allerod-Younger Dryas boundary.

Author

van Hoesel A, Hoek WZ, Braadbaart F, van der Plicht J, Pennock GM, and Drury MR

Subjects

Geology, History, Ancient, Mass Spectrometry, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Netherlands, Particle Accelerators, Radiometric Dating, Time Factors, Disasters history, Fires history, Geologic Sediments analysis, Meteoroids, Nanodiamonds history, Nanodiamonds ultrastructure

Abstract

The controversial Younger Dryas impact hypothesis suggests that at the onset of the Younger Dryas an extraterrestrial impact over North America caused a global catastrophe. The main evidence for this impact--after the other markers proved to be neither reproducible nor consistent with an impact--is the alleged occurrence of several nanodiamond polymorphs, including the proposed presence of lonsdaleite, a shock polymorph of diamond. We examined the Usselo soil horizon at Geldrop-Aalsterhut (The Netherlands), which formed during the Allerød/Early Younger Dryas and would have captured such impact material. Our accelerator mass spectrometry radiocarbon dates of 14 individual charcoal particles are internally consistent and show that wildfires occurred well after the proposed impact. In addition we present evidence for the occurrence of cubic diamond in glass-like carbon. No lonsdaleite was found. The relation of the cubic nanodiamonds to glass-like carbon, which is produced during wildfires, suggests that these nanodiamonds might have formed after, rather than at the onset of, the Younger Dryas. Our analysis thus provides no support for the Younger Dryas impact hypothesis.

Published

2012

5. The porosity, acidity, and reactivity of dealuminated zeolite ZSM-5 at the single particle level: the influence of the zeolite architecture.

Author

Aramburo LR, Karwacki L, Cubillas P, Asahina S, de Winter DA, Drury MR, Buurmans IL, Stavitski E, Mores D, Daturi M, Bazin P, Dumas P, Thibault-Starzyk F, Post JA, Anderson MW, Terasaki O, and Weckhuysen BM

Subjects

Hydrogen-Ion Concentration, Microscopy, Confocal, Microscopy, Electron, Scanning, Photoelectron Spectroscopy, Porosity, Spectrophotometry, Infrared, Zeolites chemistry

Abstract

A combination of atomic force microscopy (AFM), high-resolution scanning electron microscopy (HR-SEM), focused-ion-beam scanning electron microscopy (FIB-SEM), X-ray photoelectron spectroscopy (XPS), confocal fluorescence microscopy (CFM), and UV/Vis and synchrotron-based IR microspectroscopy was used to investigate the dealumination processes of zeolite ZSM-5 at the individual crystal level. It was shown that steaming has a significant impact on the porosity, acidity, and reactivity of the zeolite materials. The catalytic performance, tested by the styrene oligomerization and methanol-to-olefin reactions, led to the conclusion that mild steaming conditions resulted in greatly enhanced acidity and reactivity of dealuminated zeolite ZSM-5. Interestingly, only residual surface mesoporosity was generated in the mildly steamed ZSM-5 zeolite, leading to rapid crystal coloration and coking upon catalytic testing and indicating an enhanced deactivation of the zeolites. In contrast, harsh steaming conditions generated 5-50 nm mesopores, extensively improving the accessibility of the zeolites. However, severe dealumination decreased the strength of the Brønsted acid sites, causing a depletion of the overall acidity, which resulted in a major drop in catalytic activity., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2011

6. Architecture-dependent distribution of mesopores in steamed zeolite crystals as visualized by FIB-SEM tomography.

Author

Karwacki L, de Winter DA, Aramburo LR, Lebbink MN, Post JA, Drury MR, and Weckhuysen BM

Subjects

Crystallization, Microscopy, Electron, Scanning, Porosity, Zeolites chemistry

Published

2011

7. Unified internal architecture and surface barriers for molecular diffusion of microporous crystalline aluminophosphates.

Author

Karwacki L, van der Bij HE, Kornatowski J, Cubillas P, Drury MR, de Winter DA, Anderson MW, and Weckhuysen BM

Subjects

Crystallization, Diffusion, Microscopy, Atomic Force, Microscopy, Confocal, Porosity, Zeolites chemistry, Aluminum Compounds chemistry, Phosphates chemistry

Published

2010

8. Morphology-dependent zeolite intergrowth structures leading to distinct internal and outer-surface molecular diffusion barriers.

Author

Karwacki L, Kox MH, de Winter DA, Drury MR, Meeldijk JD, Stavitski E, Schmidt W, Mertens M, Cubillas P, John N, Chan A, Kahn N, Bare SR, Anderson M, Kornatowski J, and Weckhuysen BM

Abstract

Zeolites play a crucial part in acid-base heterogeneous catalysis. Fundamental insight into their internal architecture is of great importance for understanding their structure-function relationships. Here, we report on a new approach correlating confocal fluorescence microscopy with focused ion beam-electron backscatter diffraction, transmission electron microscopy lamelling and diffraction, atomic force microscopy and X-ray photoelectron spectroscopy to study a wide range of coffin-shaped MFI-type zeolite crystals differing in their morphology and chemical composition. This powerful combination demonstrates a unified view on the morphology-dependent MFI-type intergrowth structures and provides evidence for the presence and nature of internal and outer-surface barriers for molecular diffusion. It has been found that internal-surface barriers originate not only from a 90 degrees mismatch in structure and pore alignment but also from small angle differences of 0.5 degrees-2 degrees for particular crystal morphologies. Furthermore, outer-surface barriers seem to be composed of a silicalite outer crust with a thickness varying from 10 to 200 nm.

Published

2009

9. Intergrowth structure of zeolite crystals and pore orientation of individual subunits revealed by electron backscatter diffraction/focused ion beam experiments.

Author

Stavitski E, Drury MR, de Winter DA, Kox MH, and Weckhuysen BM

Published

2008

10. Deep origin and hot melting of an Archaean orogenic peridotite massif in Norway.

Author

Spengler D, van Roermund HL, Drury MR, Ottolini L, Mason PR, and Davies GR

Abstract

The buoyancy and strength of sub-continental lithospheric mantle is thought to protect the oldest continental crust (cratons) from destruction by plate tectonic processes. The exact origin of the lithosphere below cratons is controversial, but seems clearly to be a residue remaining after the extraction of large amounts of melt. Models to explain highly melt-depleted but garnet-bearing rock compositions require multi-stage processes with garnet and clinopyroxene possibly of secondary origin. Here we report on orogenic peridotites (fragments of cratonic mantle incorporated into the crust during continent-continent plate collision) from Otrøy, western Norway. We show that the peridotites underwent extensive melting during upwelling from depths of 350 kilometres or more, forming a garnet-bearing cratonic root in a single melting event. These peridotites appear to be the residue after Archaean aluminium depleted komatiite magmatism.

Published

2006