Modeling phase transitions during the crystallization of a multicomponent fat under shear

The crystallization of multicomponent systems involves several competing physicochemical processes that depend on composition, temperature profiles, and shear rates applied. Research on these mechanisms is necessary in order to understand how natural materials form crystalline structures. Palm oil w...

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Veröffentlicht in:	Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics Statistical physics, plasmas, fluids, and related interdisciplinary topics, 2005-04, Vol.71 (4 Pt 1), p.041607-041607, Article 041607
Hauptverfasser:	Mazzanti, Gianfranco, Marangoni, Alejandro G, Idziak, Stefan H J
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Sprache:	eng
Schlagworte:	AGGLOMERATION CRYSTAL GROWTH CRYSTALLIZATION CRYSTALLOGRAPHY CRYSTALS FATS GRAIN ORIENTATION MATERIALS SCIENCE MELTING NUCLEATION PALM OIL SHEAR SIMULATION SYNCHROTRON RADIATION TEMPERATURE DEPENDENCE TEMPERATURE RANGE 0273-0400 K TWO-DIMENSIONAL CALCULATIONS X-RAY DIFFRACTION
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container_end_page	041607
container_issue	4 Pt 1
container_start_page	041607
container_title	Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics
container_volume	71
creator	Mazzanti, Gianfranco Marangoni, Alejandro G Idziak, Stefan H J
description	The crystallization of multicomponent systems involves several competing physicochemical processes that depend on composition, temperature profiles, and shear rates applied. Research on these mechanisms is necessary in order to understand how natural materials form crystalline structures. Palm oil was crystallized in a Couette cell at 17 and 22 degrees C under shear rates ranging from 0 to 2880 s(-1) at a synchrotron beamline. Two-dimensional x-ray diffraction patterns were captured at short time intervals during the crystallization process. Radial analysis of these patterns showed shear-induced acceleration of the phase transition from alpha to beta(') . This effect can be explained by a simple model where the alpha phase nucleates from the melt, a process which occurs independently of shear rate. The alpha phase grows according to an Avrami growth model. The beta(') phase nucleates on the alpha crystallites, with the amount of beta(') crystal formation dependent on the rate of transformation of alpha to beta(') as well as the growth rate of the beta(') phase from the melt. The shear induced alpha- beta(') phase transition acceleration occurs because under shear, the alpha nuclei form many distinct small crystallites which can easily transform to the beta(') form, while at lower shear rates, the alpha nuclei tend to aggregate, thus retarding the nucleation of the beta(') crystals. The displacement of the diffraction peak positions revealed that increased shear rate promotes the crystallization of the higher melting fraction, affecting the composition of the crystallites. Crystalline orientation was observed only at shear rates above 180 s(-1) at 17 degrees C and 720 s(-1) at 22 degrees C .
doi_str_mv	10.1103/PhysRevE.71.041607
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The shear induced alpha- beta(') phase transition acceleration occurs because under shear, the alpha nuclei form many distinct small crystallites which can easily transform to the beta(') form, while at lower shear rates, the alpha nuclei tend to aggregate, thus retarding the nucleation of the beta(') crystals. The displacement of the diffraction peak positions revealed that increased shear rate promotes the crystallization of the higher melting fraction, affecting the composition of the crystallites. 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E, Statistical physics, plasmas, fluids, and related interdisciplinary topics</title><addtitle>Phys Rev E Stat Nonlin Soft Matter Phys</addtitle><description>The crystallization of multicomponent systems involves several competing physicochemical processes that depend on composition, temperature profiles, and shear rates applied. Research on these mechanisms is necessary in order to understand how natural materials form crystalline structures. Palm oil was crystallized in a Couette cell at 17 and 22 degrees C under shear rates ranging from 0 to 2880 s(-1) at a synchrotron beamline. Two-dimensional x-ray diffraction patterns were captured at short time intervals during the crystallization process. Radial analysis of these patterns showed shear-induced acceleration of the phase transition from alpha to beta(') . This effect can be explained by a simple model where the alpha phase nucleates from the melt, a process which occurs independently of shear rate. The alpha phase grows according to an Avrami growth model. The beta(') phase nucleates on the alpha crystallites, with the amount of beta(') crystal formation dependent on the rate of transformation of alpha to beta(') as well as the growth rate of the beta(') phase from the melt. The shear induced alpha- beta(') phase transition acceleration occurs because under shear, the alpha nuclei form many distinct small crystallites which can easily transform to the beta(') form, while at lower shear rates, the alpha nuclei tend to aggregate, thus retarding the nucleation of the beta(') crystals. The displacement of the diffraction peak positions revealed that increased shear rate promotes the crystallization of the higher melting fraction, affecting the composition of the crystallites. 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E, Statistical physics, plasmas, fluids, and related interdisciplinary topics</jtitle><addtitle>Phys Rev E Stat Nonlin Soft Matter Phys</addtitle><date>2005-04</date><risdate>2005</risdate><volume>71</volume><issue>4 Pt 1</issue><spage>041607</spage><epage>041607</epage><pages>041607-041607</pages><artnum>041607</artnum><issn>1539-3755</issn><issn>1063-651X</issn><eissn>1550-2376</eissn><eissn>1095-3787</eissn><abstract>The crystallization of multicomponent systems involves several competing physicochemical processes that depend on composition, temperature profiles, and shear rates applied. Research on these mechanisms is necessary in order to understand how natural materials form crystalline structures. Palm oil was crystallized in a Couette cell at 17 and 22 degrees C under shear rates ranging from 0 to 2880 s(-1) at a synchrotron beamline. Two-dimensional x-ray diffraction patterns were captured at short time intervals during the crystallization process. Radial analysis of these patterns showed shear-induced acceleration of the phase transition from alpha to beta(') . This effect can be explained by a simple model where the alpha phase nucleates from the melt, a process which occurs independently of shear rate. The alpha phase grows according to an Avrami growth model. The beta(') phase nucleates on the alpha crystallites, with the amount of beta(') crystal formation dependent on the rate of transformation of alpha to beta(') as well as the growth rate of the beta(') phase from the melt. The shear induced alpha- beta(') phase transition acceleration occurs because under shear, the alpha nuclei form many distinct small crystallites which can easily transform to the beta(') form, while at lower shear rates, the alpha nuclei tend to aggregate, thus retarding the nucleation of the beta(') crystals. The displacement of the diffraction peak positions revealed that increased shear rate promotes the crystallization of the higher melting fraction, affecting the composition of the crystallites. Crystalline orientation was observed only at shear rates above 180 s(-1) at 17 degrees C and 720 s(-1) at 22 degrees C .</abstract><cop>United States</cop><pmid>15903682</pmid><doi>10.1103/PhysRevE.71.041607</doi><tpages>1</tpages></addata></record>
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subjects	AGGLOMERATION CRYSTAL GROWTH CRYSTALLIZATION CRYSTALLOGRAPHY CRYSTALS FATS GRAIN ORIENTATION MATERIALS SCIENCE MELTING NUCLEATION PALM OIL SHEAR SIMULATION SYNCHROTRON RADIATION TEMPERATURE DEPENDENCE TEMPERATURE RANGE 0273-0400 K TWO-DIMENSIONAL CALCULATIONS X-RAY DIFFRACTION
title	Modeling phase transitions during the crystallization of a multicomponent fat under shear
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