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Photostability of the laser dye DCM in various inorganic-organic host matrices (1995)

Yagi, K. ; Shibata, S. ; Yano, T. ; [et al.]

Springer

Journal of sol gel science and technology 4 (1995), S. 67-73

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ISSN: 1573-4846

Keywords: photostability of laser-dye ; inorganic-organic matrix ; optical solid material ; fluorescence decay ; mobility of dye

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The laser dye, 4-dicyanomethylene-2-methyl-6-p-dimethylaminostyryl-4H-pyran (DCM) was incorporated in various inorganic-organic host matrices by the sol-gel technique. The photostability of the DCM-doped materials under CW argon laser irradiation was investigated. The absorption of DCM monomer ar 480 nm decreased with increasing irradiation time and was accompanied by an increase in the absorption at 352 nm by inactive photoproducts. Photostability was estimated by measuring the decay rates of DCM fluorescences in different host matrices. The rates exhibited two components; a rapid decay within the first several tens of seconds followed by a slower luminescence decay. The rapid decay depended upon the DCM content in the matrix while the slow decay component was related to the mobility of the DCM in the different matrices. The silica host matrix containing phenyl and a small amount of epoxy groups exhibited the best photostability of the materials examined.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00486704

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Multistage stretching of high-density polyethylene monofilaments in melt spinning (1978)

Yagi, K. ; Han, C. D.

New York, NY [u.a.] : Wiley-Blackwell

Journal of Applied Polymer Science 22 (1978), S. 2553-2571

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ISSN: 0021-8995

Keywords: Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics , Physics

Notes: An experimental study was carried out to investigate the influence of molecular weight distribution on stretchability and thread nonuniformity of high-density polyethylene monofilaments. For the study, a melt-spinning/multistage stretching device was constructed, and the monofilaments were extruded first into a quench tank and subsequently stretched twice in an annealing bath. Processing variables investigated were (a) the extrusion temperature, (b) the shear rate in the spinnerette hole, (c) the air-gap distance, (d) the annealing bath temperature, (e) the take-up speed at the first-stage stretching, and (f) the take-up speed at the second-stage stretching. Fiber samples were collected at each stage of stretching, namely, (a) as melt-spun, (b) after the first-stage stretching, and (c) after the second-stage stretching. The maximum stretch rate at which thread breakage occurs was determined at the first-and second-stage stretching in the annealing bath. The melt-spun materials were three different grades of Mitsui Petrochemicals high-density polyethylene and two different grades of Union Carbide high-density polyethylene. Also melt spun were blends of two Mitsui polyethylenes and the two Union Carbide polyethylenes. An attempt was made (a) to correlate stretchability with the molecular weight distribution of the high-density polyethylene; (b) to identify the influence of spinning conditions on stretchability for a given polymer; (c) to correlate the variations of the fiber diameter with the molecular weight distribution and spinning conditions, and (d) to correlate the stretchability of a blend system with blending ratio. tensile properties (the tensile strength at the yield point, tensile elastic modulus, and percent elongation at break) were determined for all fiber samples collected, using the Instron tensile tester. For some fiber samples of special interest, selected on the basis of the spinning experiment results, wide-angle x-ray diffraction measurements were taken to determine the molecular orientation in a filament.

Additional Material: 19 Ill.