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Kawabata

Nakamura T, Taohibana H, Yumara M, Matsumoto M, Azumi R, Tanaka M and Kawabata Y 1992 Formation of Langmuir-Biodgett fiims of a fuiierene Langmuirs 4-6... [Pg.2429]

Taohibana FI, Nakamura T, Matsumoto M, Komizu FI, Manda E, Niino FI, Yabe A and Kawabata Y 1989 Photoohemioal switohing in oonduotive Langmuir-Blodgett films J. Am. Chem. See. 111 3080-1... [Pg.2632]

K. Takemoto. N. Ueda, and T. Kawabata, Technol. Reports Osaka Univ., 21, 757 (1971) Chem. Abstr.. 77, 3501IW. [Pg.501]

S. Kawabata, The S tandardi tion andHnaljsisofHandFpaluation, 2nd ed.. Textile Machinery Society of Japan, Osaka, Japan, 1980. [Pg.175]

Years of development have led to a standardized system for objective evaluation of fabric hand (129). This, the Kawabata evaluation system (KES), consists of four basic testing machines a tensile and shear tester, a bending tester, a compression tester, and a surface tester for measuring friction and surface roughness. To complete the evaluation, fabric weight and thickness are determined. The measurements result in 16 different hand parameters or characteristic values, which have been correlated to appraisals of fabric hand by panels of experts (121). Translation formulas have also been developed based on required levels of each hand property for specific end uses (129). The properties include stiffness, smoothness, and fullness levels as well as the total hand value. In more recent years, abundant research has been documented concerning hand assessment (130—133). [Pg.462]

To predict the comfort of a material, a combination of hand evaluation, eg, using the Kawabata system, as well as deterrnination of the heat and moisture transport properties, is necessary. Often, these values are correlated with a sensory evaluation of the tactile qualities of the material by a human subject panel. A thorough discussion of the many physical and psychological factors affecting comfort is available (134,135). [Pg.463]

Kawabata, R., Miyase S. and Tagaya, M. Effects of Alloying Elements on Flash Points... [Pg.738]

Kawabata, S. and Kawai, H. Strain Energy Density Functions of Rubber Vulcanizates from Biaxial Extension. Vol. 24, pp. 89 — 124. [Pg.155]

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See also in sourсe #XX -- [ Pg.174 , Pg.175 , Pg.181 , Pg.182 ]

See also in sourсe #XX -- [ Pg.12 , Pg.83 ]



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Kawabata, Takeo

Proof of the Kawabata formula

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