繊維の圧縮特性に関する研究 : (第 20 報)単独繊維塊の履歴における温度依存性(負の温度領域) : 外圧∿体積歪率線図

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The purpose of the research in this paper is to make clear the behaviour of temperature dependence on the compressional behaviour of each single fibre's lump. Quantitative measurement of fibre is not easy to conduct chiefly because of its indefinite shape. The important condition required for the apparatus is ever to exactly record the changes of stress and strain imposed on the fibre. Where, the author used trial manufactured apparatus for this experiment. This trial manufactured apparatus is introduced in a series of these theses, Part twelve. And this trial manufactured apparatus is Japanese Patent Number 486847. The author searched for relation among many important factors. As these important factors, pressure P (kg/cm^2) in that time of increasing and decreasing pressure, strain of volume percentage Ev.p (%), percentage of critical strain of volume in theory E'v. p (%), temperature T (℃) in the range of minus and number of times in the hysteresis through increasing and decreasing of pressure N (no.) is taken into the consideration. The author will mention briefly the important factors among those. As a range of pressure P is from 0 (kg/cm^2) to 5 (kg/cm^2) through increasing and decreasing of pressure. And as a range of temperature T adopted range of minus in temperature of celsius. As a first step, range of temperature set within the limits from 0℃ to -20℃. And the experiment of behaviour of temperature dependence was tried by steps of -5℃ of temperature each. As the single fibre's lump of the test piece in this experiment is the following. Namely, Viscose Rayon (Crimped Dull) 3 deniers x 76m/m, Nylon 3 deniers x 70m/m and Beslon 3 deniers x 55m/m have been used. The arrangement of all these single fibre's lump is case of non-parallel in direction of single fibre's arrangement. And as a number of times in the hysteresis of increasing and decreasing of pressure adopted case of from the first time to fifth number of time in the hysteresis. Before the experiment, the author made control of fibre's weight into the gum ball. Also, the author made control of hand carding of single fibre's lump and moisture regain into each single fibre's lump as a test piece in this experiment. Also, before the experiment the author must obtain these factors as a measuring value for calculating the strain of volume percentage Ev・p (%) and percentage of critical strain of volume in theory E'v・p (%). These factors is made by ten factors : Wt (g), total weight (substituted by methanol) : Vt (cm^3), total volume (substituted by methanol) : Wr (g), weight of gum ball : {Wr+Wƒ} (g), weight of {(gum ball)+(fibre)} : Wƒ (g), weight of fibre : Vr (cm^3), volume of gum : Vo (cm^3), volume of fibre under the pressure P=0kg/cm^2 : Vƒ=Wƒ/δƒ (cm^3), real volume of fibre : T (℃), temperature of methanol at the moment : δM/T (g/cm^3), the specific gravity of methanol under the temperature at the moment. And these ten factors is shown in Table 2 of this paper. This experiment was performed in such a way that a strong gum ball stuffed with fibre may be dipped under the liquid of Methanol (Methyl Alcohol) CH_3OH[-94℃][66℃]in the tight-closed steel tank. Temperature of minus in range from zero degree of celsius to twenty degrees of celsius were made by means of handy cooler TRL-107SL Type. And temperature at the moment of liquid of Methanol in the tight-closed steel tank tried a slight regulation by means of electron refrigerator and heater of direct current hydroelectric resources 8-F Type. The results of these experiments of single fibre's lump was investigated through the relation that is made by the following each graph. Namely, this is a P∿Ev・p curve. This is a relative curve between pressure P (kg/cm^2) and strain of volume percentage Ev・p (%). And this is a relative curve in that time of each step from 0℃ to -20℃ in temperature through the several kinds of test piece. Also, this relative curve is a relative c
金城学院大学の論文
1987-03-20

著者

寺島功
金城学院大学

繊維の圧縮特性に関する研究 : (第 20 報)単独繊維塊の履歴における温度依存性(負の温度領域) : 外圧∿体積歪率線図

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