Effect of Fiber Concentration and Axial Ratio on the Rheological Properties of Cellulose Fiber Suspensions
スポンサーリンク
概要
- 論文の詳細を見る
The steady flow and the dynamic viscoelastic properties of cellulose fiber suspensions were investigated as functions of the suspension concentration and the fiber shape using a parallel-plate type rheometer. Various concentrations of the suspensions were made from various types of cellulose fibers, i.e., microcrystalline cellulose, bacterial cellulose, and fibrillated cellulose fibers. All the suspensions showed non-Newtonian flow even at very low concentrations. The flow property of each suspension showed a plateau of the shear stress, i.e., the yield stress, over a critical concentration. The critical concentration obtained from the experiment agreed well with the value theoretically calculated from the axial ratio of the fibers. The dynamic moduli of the suspensions were almost independent of the angular frequency, and they increased with the fiber concentration. The dynamic storage moduli increased in proportion to the 9/4th power of the fiber concentration. This power of 9/4 is coincident with that theoretically required for polymer gels. This fact suggests that the rigidity of the suspensions has appeared by the same mechanism from the order of cellulose fibers to microcrystalline cellulose fibers, and even to polymer molecules.
- 一般社団法人 日本レオロジー学会の論文
著者
-
巽 大輔
京都大学大学院農学研究科森林科学
-
MATSUMOTO Takayoshi
Division of Forest and Biomaterials Science, Graduate School of Agriculture, Kyoto University
-
Tatsumi Daisuke
Division Of Forest And Biomaterials Science Graduate School Of Agriculture Kyoto University
-
Ishioka Satoshi
Division of Forest and Biomaterials Science, Graduate School of Agriculture,Kyoto University
-
Matsumoto Takayoshi
Division Of Forest & Biomaterials Science Graduate School Of Agriculture Kyoto University
関連論文
- 由来の異なる天然セルロースの固体構造と塩化リチウム·アミド系溶媒への溶解性
- 515 由来の異なるセルロースの溶解性と溶液特性(ミクロな構造とマクロな物性のかかわり,木質材料とその周辺-構造・機能・物性-,オーガナイズドセッション4)
- セルロース(藻類),キシラン,およびリグニンの溶液特性
- 136 キシランおよびシクロデキストリン/セルロース溶液の構造と粘弾性(木質バイオマス利用の新地平III,オーガナイズドセッション4.木質バイオマス利用の新地平)
- ケナフのハイドロトロピックパルプ化と酵素漂白(木質材料)
- 高分子レオロジーと成形加工CAEの基礎-その中身と周辺問題- : (8)CAE用レオロジーの基礎 : 分散系のレオロジー
- 710 セルロース繊維分散系のネットワーク構造とレオロジー特性(高分子材料, 残留応力の測定と評価)
- 繊維ネットワークの粘弾性的性質
- ホヤおよび植物セルロース溶液のブレンド系のレオロジー特性(高分子材料)
- Sedimentation Method to Evaluate PEI Mill Beating Degree of Wood Pulp Fibers
- 最近のセルロース繊維分散系のレオロジー的研究について--進展と動向
- 原子間力顕微鏡および小角X線散乱によるセルロース繊維の表面構造解析(高分子材料)
- 解説・主張 溶液でみえるセルロース分子の多様性
- Floc Structure and Flow Properties of Pulp Fiber Suspensions
- 428 木材パルプ懸濁液のレオロジー特性と凝集構造の解析
- "化学系の統計力学入門", Benjamin Widom(著), 甲賀研一郎(訳), 2005年, 化学同人発行, A5版, 194ページ, 本体価格3000円
- ATR-FTIR法による高分子材料表面の定量分析(木質材料)
- Aggregate Structure and Rheological Properties of Mercerized Cellulose / LiCl·DMAc Solution
- Differences in Rheological Properties of Solutions of Plant and Bacterial Cellulose in LiCl/N,N-Dimethylacetamide
- Structure and Dynamic Viscoelastic Properties of Acylated Chitosans in the Melt State
- Viscoelastic Properties of Fatty Acid Soap/Water Colloidal Systems
- Structure and Viscoelastic Properties of Lamellar Phase Formed in Aerosol OT/Water Binary Systems
- Fiber Orientation and Flow Properties of Pulp Fiber Suspensions under Shear Flow Conditions
- Effect of Fiber Concentration and Axial Ratio on the Rheological Properties of Cellulose Fiber Suspensions
- Effect of Particle and Salt Concentrations on the Rheological Properties of Cellulose Fibrous Suspensions
- Layered Structure and Viscoelastic Properties of Wet Pulp Fiber Networks
- Miscibility and Rheological Properties of Concentrated Solution of Acrylic Copolymer Resins (不均質系のレオロジ-特集号)
- Aggregate Structure and Rheological Properties of Mercerized Cellulose/LiCl・DMAc Solution
- Differences in Rheological Properties of Solutions of Plant and Bacterial Cellulose in LiCl/N, N-Dimethylacetamide
- 動的光散乱法およびレオロジー測定による高分子電解質ナフィオンの基礎的研究
- Effect of Fiber Concentration and Axial Ratio on the Rheological Properties of Cellulose Fiber Suspensions
- Floc Structure and Flow Properties of Pulp Fiber Suspensions