The Dielectric Properties of Wood V, On the Dielectric Anisotropy of Wood.
スポンサーリンク
概要
- 論文の詳細を見る
この論文は国立情報学研究所の学術雑誌公開支援事業により電子化されました。This paper deals with the dielectric anisotropy of wood in relation to the structures of wood and the mechanism of the relaxation process due to the motion of CH_2OH group in the disordered region of wood substance. In very high frequency range in which only optical and infra-red polarizations contribute to dielectric constant, the value of dielectric constant of wood substance in parallel to grain direction was equal to that in perpendicular to grain direction. The dielectric anisotropy of wood, therefore, is mainly caused by the macroscopic structures. On the other hand, in the frequency range in which the relaxation process due to the motion of dipole contributes to dielectric constant, the value of dielectric constant of wood substance in parallel to grain direction was always greater than that in perpendicular to grain direction, and the frequency corresponding to dielectric loss factor maximum in parallel to grain direction was lower than that in perpendicular to grain direction. These results show that the transition probability of dipole jump to an adjacent site when the electric field applies to longitudinal direction is greater than that when the electric field applies to the other directions, and the heights of potential barriers among sites in longitudinal direction are higher than those in the other directions. The dielectric anisotropy of wood in low frequency range, therefore, depends not only upon the macroscopic structures but also upon the molecular structures and motions in wood substance.
- 京都大学の論文
- 1971-08-31
著者
-
Norimoto Misato
Division Of Wood Physics Wood Research Institute Kyoto University
-
YAMADA Tadashi
Divison of Wood Physics, WOOD RESEARCH INSTITUTE, KYOTO UNIVERSITY
-
Yamada Tadashi
Division Of Wood Physics Wood Research Institute Kyoto University
関連論文
- Study on Young's Modulus and Internal Friction of Wood in Relation to the Evaluation of Wood for Musical Instruments
- Dielectric Properties of Wood
- Crystallinity Change in the Growing Stage of Bamboo (Phyllostachys mitis)
- On Relationship between Dielectric Properties and Crystallinity of Cellulose
- The Dielectric Properties of Wood VI : On the Dielectric Properties of the Chemical Constituents of Wood and the Dielectric Anisotropy of Wood
- The Dielectric Properties of Wood V, On the Dielectric Anisotropy of Wood.
- The Dielectric Properties of Wood IV : On Dielectric Dispersions of Oven-dried Wood
- A Consideration on Stress Relaxation of Wood Cell Wall
- Some Physical Properties of Wood and Cellulose Irradiated with Gamma Rays
- Small Angle X-ray Scattering of Woody Plants
- On the Discrete Diffraction of Small Angle X-ray Scattering of Bamboo (Phyllostachs mitis)
- X-ray Analysis of Tyrosine in Growing Stage of Bamboo (Phyllostachs edulis A. & C. Riviere)
- Porous Structure of Wood and its Relaxation Modulus, II
- The Viscoelastic Properties of Wood Used for the Musical Instruments I
- Effect of Indole-3-Acetic Acid on Stress Relaxation of Japanese Black Pine Seedling
- On the YOUNG'S Modulus during Growth of Pine Seedlings
- Structural Observation on Wood and Bamboo by X-ray
- Stress Relaxation of Ramie Fiber during Acid Hydrolysis
- The Viscoelastic Properties of Wood Used for Musical Instruments II
- Effect of Indole-3-Acetic Acid on Tensile Creep of Japanese Black Pine Hypocotyl