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Preparation of large-particle-size monodisperse latexes in space: The STS-3, STS-4, and STS-7 mission results (1984)

Tseng, C. M. ; El-Aasser, M. S. ; Silwanowicz, A. ; [et al.]

In: Other Sources

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Publication Date: 2016-06-07

Description: Large-particle-size monodisperse latexes were prepared on four STS missions of the space shuttles Columbia and Challenger using flight hardware comprising four automated 100 cm(3) polymerization reactors. Seven polymerizations carried out on the March 1982 STS-3 mission of the Columbia, and the April 1983 STS-6 and June 1983 STS-7 missions of the Challenger, gave monodisperse latexes of 5 to 18 micron diameter with narrower particle size distributions than the corresponding ground-based control polymerizations. The rates of polymerization in microgravity were the same as on Earth. The results of these experiments are reviewed, and the prospects of the development of a space production process are discussed.

Keywords: NONMETALLIC MATERIALS

Type: 2nd Symp. on Space Industrialization; p 75

Format: text

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12

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Column electrophoresis on the Apollo-Soyuz test project. Experiment MA-011 (1977)

Micale, F. J. ; Rhodes, P. H. ; Barlow, G. H. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: The experimental procedures of the electrophoresis of erythrocytes, lymphocytes and kidney cells on the Apollo Soyuz Test Project are given.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: Apollo-Soyuz Test Project; 68 p

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Preparation of large-particle-size monodisperse latexes in space (1986)

Vanderhoff, J. W. ; Sheu, H. R. ; Tseng, C. M. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Results are reported of latex sphere polymerization experiments performed on two flights of the Columbia and three flights of the Challenger. The trials were carried out because polymerization of the spheres in space avoids coagulation, nucleation of a new crop of particles, and excessive stirring requirements, and allows growth of spheres larger than 4 microns diam. The Monodisperse Latex Reactor (MLR) held four stirred 100 cc sealed stainless steel cylindrical containers. The mixtures were monitored for the conversion times, volume decreases as spheres formed and the mixture temperature. The spheres were grown from 0.19 micron seeds. Details of the flight preparation efforts are outlined. In flights which did not experience mechanical malfunctions spheres 3-30 microns diam were grown that had noticeably lower size variations than did the ground-based control particles. The 10 micron diam spheres grown on STS-6 were accepted as standard reference material by the NBS and became the first products made in space to be commercially sold on earth; the 30 micron spheres also became NBS standards. The experiments confirmed all projected benefits of producing the spheres in space, as well as provided the opportunity to grow more larger offsize spheres by finishing the growths on earth.

Keywords: ASTRONAUTICS (GENERAL)

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14

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Production of large-particle-size monodisperse latexes (1984)

Silwanowicz, A. ; Micale, F. J. ; Tseng, C. M. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The research program achieved two objectives: (1) it has refined and extended the experimental techniques for preparing monodisperse latexes in quantity on the ground up to a particle diameter of 10 microns; and (2) it has demonstrated that a microgravity environment can be used to grow monodisperse latexes to larger sizes, where the limitations in size have yet to be defined. The experimental development of the monodisperse latex reactor (MLR) and the seeded emulsion polymerizations carried out in the laboratory prototype of the flight hardware, as a function of the operational parameters is discussed. The emphasis is directed towards the measurement, interpretation, and modeling of the kinetics of seeded emulsion polymerization and successive seeded emulsion polymerization. The recipe development of seeded emulsion polymerization as a function of particle size is discussed. The equilibrium swelling of latex particles with monomers was investigated both theoretically and experimentally. Extensive studies are reported on both the type and concentration of initiators, surfactants, and inhibitors, which eventually led to the development of the flight recipes. The experimental results of the flight experiments are discussed, as well as the experimental development of inhibition of seeded emulsion polymerization in terms of time of inhibition and the effect of inhibitors on the kinetics of polymerization.

Keywords: NONMETALLIC MATERIALS

Type: NASA-CR-171267 , NAS 1.26:171267

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The first products made in space - Monodisperse latex particles (1987)

Kornfeld, D. M. ; Vanderhoff, J. W. ; El-Aasser, m. S. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Monodisperse latex particles developed by seeded emulsion polymerization on various Space Shuttle flights are analyzed. The flight hardware was composed of a monodisperse latex reactor and a support electronics package, and the particles were examined by optical microscopy and TEM. Data on the particle size distributions, larger and smaller off-size particles, and conversion-time curves for the particles are examined and compared to ground-based results. It is observed that the ground-based polymerizations have more coagulum than the flight polymerizations; the flight latex particles have narrower size distributions than the ground particles; and the number of off-size larger particles in the flight particles is smaller than in the ground data.

Keywords: MATERIALS PROCESSING

Type: AIAA PAPER 87-0389

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16

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Process for preparation of large-particle-size monodisperse latexes (1981)

El-Aasser, M. S. ; Vanderhoff, J. W. ; Micale, F. J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Monodisperse latexes having a particle size in the range of 2 to 40 microns are prepared by seeded emulsion polymerization in microgravity. A reaction mixture containing smaller monodisperse latex seed particles, predetermined amounts of monomer, emulsifier, initiator, inhibitor and water is placed in a microgravity environment, and polymerization is initiated by heating. The reaction is allowed to continue until the seed particles grow to a predetermined size, and the resulting enlarged particles are then recovered. A plurality of particle-growing steps can be used to reach larger sizes within the stated range, with enlarge particles from the previous steps being used as seed particles for the succeeding steps. Microgravity enables preparation of particles in the stated size range by avoiding gravity related problems of creaming and settling, and flocculation induced by mechanical shear that have precluded their preparation in a normal gravity environment.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

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The first products made in space: Monodisperse latex particles (1988)

El-Aasser, M. S. ; Sudol, E. D. ; Micale, F. J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The preparation of large particle size 3 to 30 micrometer monodisperse latexes in space confirmed that original rationale unequivocally. The flight polymerizations formed negligible amounts of coagulum as compared to increasing amounts for the ground-based polymerizations. The number of offsize large particles in the flight latexes was smaller than in the ground-based latexes. The particle size distribution broadened and more larger offsize particles were formed when the polymerizations of the partially converted STS-4 latexes were completed on Earth. Polymerization in space also showed other unanticipated advantages. The flight latexes had narrower particle size distributions than the ground-based latexes. The particles of the flight latexes were more perfect spheres than those of the ground-based latexes. The superior uniformity of the flight latexes was confirmed by the National Bureau of Standards acceptance of the 10 micrometer STS-6 latex and the 30 micrometer STS-11 latexes as Standard Reference Materials, the first products made in space for sale on Earth. The polymerization rates in space were the same as those on Earth within experimental error. Further development of the ground-based polymerization recipes gave monodisperse particles as large as 100 micrometer with tolerable levels of coagulum, but their uniformity was significantly poorer than the flight latexes. Careful control of the polymerization parameters gave uniform nonspherical particles: symmetrical and asymmetrical doublets, ellipsoids, egg-shaped, ice cream cone-shaped, and popcorn-shaped particles.

Keywords: MATERIALS PROCESSING

Type: NASA, Washington, Microgravity Science and Applications Flight Programs, January - March 1987, Selected Papers, Volume 2; p 773-789

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18

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Production of Large-Particle-Size Monodisperse Latexes in Microgravity (1985)

Vanderhoff, J. W. ; El-Aasser, M. S. ; Kornfeld, M. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A latex is a suspension of very tiny (micrometer-size) plastic spheres in water, stabilized by emulsifiers. The growth of billions of these tiny plastic spheres to sizes larger than can be grown on Earth is attempted while keeping all of them exactly the same size and perfectly spherical. Thus far on several of the Monodisperse Latex Reactor (MLR) flights, the latex spheres have been returned to Earth with standard deviations of better than 1.4%. In microgravity the absence of buoyancy effects has allowed growth of the balls up to 30 micrometers in diameter thus far. The MLR has now flown 5 times on the Shuttle. The MLR has now produced the first commercial space product; that is the first commercial material ever manufactured in space and marketed on Earth. Once it is demonstrated that these large-size-monodisperse latexes can be routinely produced in quantity and quality, they can be marketed for many types of scientific applications. They can be used in biomedical research for such things as drug carriers and tracers in the body, human and animal blood flow studies, membrane and pore-sizing in the body, and medical diagnostic tests.

Keywords: ASTRONAUTICS (GENERAL)

Type: NASA, Washington Microgravity Sci. and Appl. Program Tasks; p 154-155

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19

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Analysis of results of ASTP experiment in electrophoresis (1977)

Vanderhoff, J. W. ; Micale, F. J. ; Krumrine, P. H.

In: CASI

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Publication Date: 2019-06-27

Description: The Apollo-Soyuz Test Project (ASTP) included an electrophoretic separation experiment of biological cells. The nature separation results of aldehyde-fixed rabbit, human and horse red blood cells, which were taken in the form of photographs taken at three-minute intervals, are the subject of this report. The electrophoretic separation was successful in that fractionation according to mobility did occur and was found in the sliced samples. Photographic evidence indicates that the low electroosmotic methylcellulose coating was successful in reducing the electroosmosis to a near zero value. Also, the flight film shows that the bands migrated down the column as theory would predict, producing two bands of high cell concentration separated and surrounded by regions of lower cell concentration. However, most likely some clumping of cells occurred to cause the trailing band to be larger than expected from theory. Overall, the experiment was a success in demonstrating a static electrophoresis separation under microgravity conditions with a resolution not possible on earth.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: NASA-CR-150469

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20

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Electrophoresis experiment for space (1976)

Vanderhoff, J. W. ; Micale, F. J.

In: CASI

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Publication Date: 2019-06-27

Description: The Apollo 16 electrophoresis experiment was analyzed, demonstrating that the separation of the two different-size monodisperse latexes did indeed take place, but that the separation was obscured by the pronounced electroosmotic flow of the liquid medium. The results of this experiment, however, were dramatic since it is impossible to carry out a similar separation on earth. It can be stated unequivocally from this experiment that any electrophoretic separation will be enhanced under microgravity conditions. The only question is the degree of this enhancement, which can be expected to vary from one experimental technique to another. The low-electroosmotic-mobility coating (Z6040-MC) developed under this program was found to be suitable for a free-fluid electrophoretic separation such as the experiment designed for the ASTP flight. The problem with this coating, however, is that its permanency is limited because of the slow desorption of the methylcellulose from the coated surface.

Keywords: AEROSPACE MEDICINE

Type: NASA-CR-149925

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