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Table of contents
- Rheology of Biological Soft Matter : Isamu Kaneda :
- Rheology of Biological Soft Matter
- Fundamentals and Applications
Please contact This email address is being protected from spambots. The registration form is provided below. Late abstracts will also still be considered.
Flyer with registration form: KARC flyer. Programme outline: KARC outline. Chemeca is the annual conference of the Australian and New Zealand community of chemical engineers and industrial chemists.
- Experimental Soft Condensed Matter Group?
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This year the organisers of Chemeca have added rheology as one of the official conference themes. Tailings is billed as the "first international seminar on tailings management". In conjunction with the conference, a workshop will also be held on " Material characterisation for the design of tailings and rock pile management ", presented by Dr.
Dirk Van Zyl and Dr. Andy Fourie. This two-hour seminar will guide attendees through some of the fundamental properties of dispersed systems and demonstrate how these affect rheological properties and how this understanding allows the rheology of the material to be controlled.
Rheology of Biological Soft Matter : Isamu Kaneda :
Organ additive fabrication or biofabrication has provided the opportunity for rheology to play a key role in developing polymer scaffolds to light medical biorheological devices. The developed biorheological material and devices might be not only be used in biofabrication but take the next step as a countermeasure or intervention, with examples including biorheological creams, gels, glues and foams.
The conference will focus on the application of computational fluid dynamics CFD in the oil and gas, metal production, mineral processing, power generation, chemicals, food, bioengineering and other process industries. A rheology workshop will be held at The University of Auckland covering the basics of rheological testing methods, including a hands-on session, and will have a particular focus on food and material rheology and data interpretation, along with a special lecture on large deformation rheology.
For enquires contact Associate Professor Yacine Hemar This email address is being protected from spambots. Flyer: New Zealand Rheology Workshop. Bringing together a panel of highly proficient experts in the design, construction, operation and maintenance of long distance mineral slurry pipelines.
A forum for sharing new results and ideas in experimental and theoretical suspension mechanics.
Rheology of Biological Soft Matter
The conference was organised by the Korean Society of Rheology , in consultation with the Australian Society of Rheology. The conference website provides more information. For more details, please visit the Conference Website or contact the This email address is being protected from spambots. This conference showcased the broad field of statistical physics and all its interdisciplinary developments, and culminated in the awarding of the esteemed Boltzmann medal, the highest recognition in the field of statistical physics.
For more details, please visit the Conference Website.
A formal membership to the ASR requires the completion of a membership application form before an online account can be activated. See rheology. Chemeca will explore exciting new areas of chemistry, discuss upcoming challenges to the industry, explore the boundaries of the traditional types of chemistry and examine future trends in chemistry and the related sciences Website: chemistryviews.
Fundamentals and Applications
Call for papers has been extended to Monday 27th June Plenary lectures: Prof. Chongyoup Kim Prof. Ravi Jagadeeshan Keynote Lectures Prof. Kangtaek Lee Dr. Anthony Stickland Authors are also invited to submit abstracts words max. Note: ASR is running a rheology sub-theme to be held on the Monday. ISMIP8 will bring together the global fluid mixing community.
The next meeting is planned to be held in Australia. At higher frequencies, the torque stress applied by the rheometer motor shaft to rotate the rod and top plate rapidly increased with frequency due to inertia and exceeded the torque needed to strain the low viscosity bio-fluids. In the current LSR setup, focused beam illumination and full-field collection led to a broad distribution of optical path lengths for received rays, with each length probing a different time-scale frequency of the sample dynamics .
The multi-speckle collection enabled shorter acquisition and better statistical accuracy by exploiting both ensemble and temporal averaging eqn. To permit depth-resolved mapping of bio-fluids' mechanical properties, spatio-temporal processing of speckle patterns can be employed as previously described . Low coherence interferometery e.
M-mode OCT techniques can also probe particle dynamics in specific depths within the medium with superior resolution and potentially evaluate the viscosity  , .
This is because in LSR the detected light has scattered multiple times over a volume of interest. Therefore, even minute motions fraction of a wavelength of particles give rise to cumulative phase changes over an ensemble of light paths within the measured volume and induce detectable reduction in speckle intensity temporal autocorrelation. By measuring g 2 t over multiple speckles as in LSR, particle displacements as small as a few angstroms can be detected  ,  , .
In OCT however, single scattered light is detected. Therefore, a substantially larger displacement of particles is required to induce a sufficient path length change and noticeable reduction of speckle intensity temporal autocorrelation particularly in highly viscous media with smaller particle MSD  ,  ,  , . As described earlier, in the current work TiO 2 particles were used to sufficiently validate our approach by tuning the reduced scattering coefficient over a range of scattering concentrations.
Adding the extrinsic scattering particles, at various arbitrary concentrations enabled complete evaluation of scattering variations effects, and validation of the proposed compensation algorithm. In future, we anticipate that LSR will be used to measure bio-fluid viscoelasticity in the native state without addition of extrinsic light scattering particles. This will require additional information about particle size parameter, a , to be evaluated experimentally. In addition, LSR can potentially be conducted via needle-based probes or endoscopes to enable future in vivo use.
By limiting the illumination and collection volume at the interrogation site residual scattering from surrounding structures could be potentially restricted. We anticipate that the demonstrated capability of LSR for the non-contact and accurate evaluation of viscoelastic properties and the potential of this technology in probing rheological properties of bio-fluids will open multiple new avenues for clinical applications of LSR in the future. Conceived and designed the experiments: ZH SK.
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Performed the experiments: ZH. Analyzed the data: ZH SK.
Wrote the paper: ZH SK. Browse Subject Areas? Click through the PLOS taxonomy to find articles in your field. Abstract Biological fluids fulfill key functionalities such as hydrating, protecting, and nourishing cells and tissues in various organ systems. Introduction Biological fluids like synovial fluid, vitreous humor, cerebrospinal fluid, blood, lymph, and mucus are biopolymer solutions of water, protein macromolecules, and cells  , .
Materials and Methods Sample preparation The studies below were performed using glycerol and bio-fluid samples. LSR optical setup Laser speckle frame series of samples were acquired using the optical setup shown in Fig. Download: PPT. Measurement of speckle intensity temporal autocorrelation curves from time-varying speckle patterns For glycerol samples, time-varying speckle images were captured for 2 second at frames per second fps Fig.
Figure 3. LSR of aqueous glycerol mixtures of different viscosities. Figure 4. Figure 5. Figure 6. Figure 7. Figure 8. Speckle intensity temporal autocorrelation curves of synovial fluid and vitreous humor.