Hollow Microsperes

Hollow microspheres are spherically symmetrical particles consisting of at least two phases. Their sales are continuously increasing because of a large number of well‐known and new applications. While most of the current needs for hollow microspheres are met by inorganic byproducts of combustion pro...

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Published inChemical engineering & technology Vol. 27; no. 8; pp. 829 - 837
Main Authors Bertling, J., Blömer, J., Kümmel, R.
Format Journal Article
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 01.08.2004
WILEY‐VCH Verlag
Subjects
Microstructure
Modeling
Product properties
Spheres
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Abstract Hollow microspheres are spherically symmetrical particles consisting of at least two phases. Their sales are continuously increasing because of a large number of well‐known and new applications. While most of the current needs for hollow microspheres are met by inorganic byproducts of combustion processes (cenospheres), the fabrication of tailor‐made hollow sphere structures by processes like spray‐drying as well as dripping, emulsion and suspension techniques is gaining more and more interest. Surface phenomena play an important role as far as formation, properties and stability of hollow microspheres are concerned. Template techniques can be used to yield structures that have not been available so far. Modeling and simulation of the formation processes are useful tools to understand the formation mechanisms and to simplify the scaleup. Hollow microspheres are gas‐filled spherical particles with diameters between 1 and 1000 microns. They show a promising potential because of their advantageous properties like low effective density and high specific surface. The wall material consists of glass, oxide ceramics, mixed oxides, silicates, polymers, or metals. The fabrication of tailor‐made hollow microsphere strucures by processes like spray‐drying as well as dripping, emulsion and suspension techniques is becoming more popular.
AbstractList Abstract Hollow microspheres are spherically symmetrical particles consisting of at least two phases. Their sales are continuously increasing because of a large number of well‐known and new applications. While most of the current needs for hollow microspheres are met by inorganic byproducts of combustion processes (cenospheres), the fabrication of tailor‐made hollow sphere structures by processes like spray‐drying as well as dripping, emulsion and suspension techniques is gaining more and more interest. Surface phenomena play an important role as far as formation, properties and stability of hollow microspheres are concerned. Template techniques can be used to yield structures that have not been available so far. Modeling and simulation of the formation processes are useful tools to understand the formation mechanisms and to simplify the scaleup. Hollow microspheres are gas‐filled spherical particles with diameters between 1 and 1000 microns. They show a promising potential because of their advantageous properties like low effective density and high specific surface. The wall material consists of glass, oxide ceramics, mixed oxides, silicates, polymers, or metals. The fabrication of tailor‐made hollow microsphere strucures by processes like spray‐drying as well as dripping, emulsion and suspension techniques is becoming more popular.
Hollow microspheres are spherically symmetrical particles consisting of at least two phases. Their sales are continuously increasing because of a large number of well‐known and new applications. While most of the current needs for hollow microspheres are met by inorganic byproducts of combustion processes (cenospheres), the fabrication of tailor‐made hollow sphere structures by processes like spray‐drying as well as dripping, emulsion and suspension techniques is gaining more and more interest. Surface phenomena play an important role as far as formation, properties and stability of hollow microspheres are concerned. Template techniques can be used to yield structures that have not been available so far. Modeling and simulation of the formation processes are useful tools to understand the formation mechanisms and to simplify the scaleup. Hollow microspheres are gas‐filled spherical particles with diameters between 1 and 1000 microns. They show a promising potential because of their advantageous properties like low effective density and high specific surface. The wall material consists of glass, oxide ceramics, mixed oxides, silicates, polymers, or metals. The fabrication of tailor‐made hollow microsphere strucures by processes like spray‐drying as well as dripping, emulsion and suspension techniques is becoming more popular.
Author Kümmel, R.
Blömer, J.
Bertling, J.
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  doi: 10.1016/B978-0-12-579652-1.50007-7
– ident: e_1_2_1_15_2
– ident: e_1_2_1_12_2
– ident: e_1_2_1_3_2
  doi: 10.1016/0021-9797(91)90442-B
– start-page: 527
  year: 1990
  ident: e_1_2_1_45_2
  publication-title: Chem. Eng. Sci.
  contributor:
    fullname: Nešic' S.
SSID ssj0001516
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Snippet Hollow microspheres are spherically symmetrical particles consisting of at least two phases. Their sales are continuously increasing because of a large number...
Abstract Hollow microspheres are spherically symmetrical particles consisting of at least two phases. Their sales are continuously increasing because of a...
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istex
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StartPage 829
SubjectTerms Microstructure
Modeling
Product properties
Spheres
Title Hollow Microsperes
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