Coarse-grained CFD-DEM modelling of dense gas-solid reacting flow

The pore spaces in sandstones are the result of the original depositional fabric and the degree of post-depositional alteration that the rock has experienced. The largest pore volumes are present in coarse-grained, well-sorted materials with high sphericity. The chief mechanisms which alter the shape and size of the pores are precipitation of cementing agents and the dissolution of soluble components. Each process may operate alone or in combination with the other, or there may be several generations of cementation and solution.The scanning electron microscope has ‘been used in this study to reveal the morphology of the pore spaces in a variety of moderate porosity, orthoquartzites.

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On the Origin of the Microscystalline Structure in Rapidly Solidified IN-100 Powder

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100078821 ◽

1977 ◽

Vol 35 ◽

pp. 260-261

Author(s):

J. M. Walsh ◽

K. P. Gumz ◽

J. C. Whittles ◽

B. H. Kear

Keyword(s):

The Other ◽

Coarse Grained ◽

Microcrystalline Structure ◽

Routine Examination ◽

Atomization Process ◽

Centrifugal Atomization ◽

Splat Quenching ◽

Powder Particles ◽

Dendritic Microstructures ◽

Rapidly Solidified

During a routine examination of the microstructure of rapidly solidified IN-100 powder, produced by a newly-developed centrifugal atomization process1, essentially two distinct types of microstructure were identified. When a high melt superheat is maintained during atomization, the powder particles are predominantly coarse-grained, equiaxed or columnar, with distinctly dendritic microstructures, Figs, la and 4a. On the other hand, when the melt superheat is reduced by increasing the heat flow to the disc of the rotary atomizer, the powder particles are predominantly microcrystalline in character, with typically one dendrite per grain, Figs, lb and 4b. In what follows, evidence is presented that strongly supports the view that the unusual microcrystalline structure has its origin in dendrite erosion occurring in a 'mushy zone' of dynamic solidification on the disc of the rotary atomizer.The critical observations were made on atomized material that had undergone 'splat-quenching' on previously solidified, chilled substrate particles.

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Correlation between dislocation, grain boundary and interface of duplex SS in stress corrosion cracking(SCC)

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100177775 ◽

1990 ◽

Vol 48 (4) ◽

pp. 928-929

Author(s):

Wang Zheng-fang ◽

Z.F. Wang

Keyword(s):

Stainless Steel ◽

Thermal Cycle ◽

Secondary Phase ◽

Corrosion Cracking ◽

Coarse Grained ◽

Test Environment ◽

Fine Grained ◽

Evaluation Test ◽

Welding Thermal Cycle ◽

Micro Analysis

The main purpose of this study highlights on the evaluation of chloride SCC resistance of the material,duplex stainless steel,OOCr18Ni5Mo3Si2 (18-5Mo) and its welded coarse grained zone(CGZ).18-5Mo is a dual phases (A+F) stainless steel with yield strength:512N/mm2 .The proportion of secondary Phase(A phase) accounts for 30-35% of the total with fine grained and homogeneously distributed A and F phases(Fig.1).After being welded by a specific welding thermal cycle to the material,i.e. Tmax=1350°C and t8/5=20s,microstructure may change from fine grained morphology to coarse grained morphology and from homogeneously distributed of A phase to a concentration of A phase(Fig.2).Meanwhile,the proportion of A phase reduced from 35% to 5-10°o.For this reason it is known as welded coarse grained zone(CGZ).In association with difference of microstructure between base metal and welded CGZ,so chloride SCC resistance also differ from each other.Test procedures:Constant load tensile test(CLTT) were performed for recording Esce-t curve by which corrosion cracking growth can be described, tf,fractured time,can also be recorded by the test which is taken as a electrochemical behavior and mechanical property for SCC resistance evaluation. Test environment:143°C boiling 42%MgCl2 solution is used.Besides, micro analysis were conducted with light microscopy(LM),SEM,TEM,and Auger energy spectrum(AES) so as to reveal the correlation between the data generated by the CLTT results and micro analysis.

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Coarse Grained Simulation and Turbulent Mixing

10.1017/cbo9781316480243 ◽

2016 ◽

Cited By ~ 6

Keyword(s):

Turbulent Mixing ◽

Coarse Grained

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Difficulties of Identifying Design Discharges in Steep, Coarse-Grained Channels in the Arid Southwestern US

Impacts of Global Climate Change ◽

10.1061/40792(173)576 ◽

2005 ◽

Author(s):

Michael D. Harvey ◽

Robert A. Mussetter

Keyword(s):

Coarse Grained

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Input of coarse-grained siliciclastics into the Pyrenean Basin during the PETM (1): overview

Rendiconti online della Società Geologica Italiana ◽

10.3301/rol.2014.108 ◽

2014 ◽

Vol 31 ◽

pp. 177-178

Author(s):

Victoriano Pujalte ◽

Juan Ignacio Baceta ◽

Birger Schmitz

Keyword(s):

Coarse Grained

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Patterns in diversity and composition of the microbenthos of subarctic intertidal beaches with different morphodynamics

Marine Ecology Progress Series ◽

10.3354/meps13419 ◽

2020 ◽

Vol 648 ◽

pp. 19-38

Author(s):

AI Azovsky ◽

YA Mazei ◽

MA Saburova ◽

PV Sapozhnikov

Keyword(s):

Species Abundance ◽

Abundance Ratio ◽

Wave Action ◽

Coarse Grained ◽

Sediment Properties ◽

Β Diversity ◽

Α Diversity ◽

Wide Range ◽

Similar Mode ◽

Abundance And Diversity

Diversity and composition of benthic diatom algae and ciliates were studied at several beaches along the White and Barents seas: from highly exposed, reflective beaches with coarse-grained sands to sheltered, dissipative silty-sandy flats. For diatoms, the epipelic to epipsammic species abundance ratio was significantly correlated with the beach index and mean particle size, while neither α-diversity measures nor mean cell length were related to beach properties. In contrast, most of the characteristics of ciliate assemblages (diversity, total abundance and biomass, mean individual weight and percentage of karyorelictids) demonstrated a strong correlation to beach properties, remaining low at exposed beaches but increasing sharply in more sheltered conditions. β-diversity did not correlate with beach properties for either diatoms or ciliates. We suggest that wave action and sediment properties are the main drivers controlling the diversity and composition of the intertidal microbenthos. Diatoms and ciliates, however, demonstrated divergent response to these factors. Epipelic and epipsammic diatoms exhibited 2 different strategies to adapt to their environments and therefore were complementarily distributed along the environmental gradient and compensated for each other in diversity. Most ciliates demonstrated a similar mode of habitat selection but differed in their degree of tolerance. Euryporal (including mesoporal) species were relatively tolerant to wave action and therefore occurred under a wide range of beach conditions, though their abundance and diversity were highest in fine, relatively stable sediments on sheltered beaches, whereas the specific interstitial (i.e. genuine microporal) species were mostly restricted to only these habitats.

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