Charcterization of the Cellulosic Cell Wall applications of near infrared spectroscopy, x-ray diffraction, confocal microscopy and molecular coupling as a viscoelastic probe provide new insights into the ultrastructure and properties of cellulosic materials.
Contents
Cell Wall Assembly and Function: New Frontiers
- Tracheid and Sclereid Differentiation in Callus Cultures of Pinus Radiata
- Optimizing for Multiple Functions: Mechanical and Structural Contributions of Cellulose Microfibrils and Lignin in Strenghtening Tissues
- Mechanics of the Wood Cell Wall
- Prediction of Wood Structural Patterns in Trees by Using Ecological Models of Plant Water Relations
- Preparation and Properties of Cellulose/Xylan Nanocomposites
Probing Cell Wall Structure: Advances in Analysis
- Determining Xylem Cell Wall Properties by Using Model Plant Species
- The Temperature Dependence of Wood Relaxations: A Molecular Probe of the Woody Cell Wall
- Rapid Estimation of Tracheid Morphological Characteristics of Green and Dry Wood by Near Infrared Spectroscopy
- FTIR Imaging of Wood and Wood Composites
- Near Infrared Spectroscopic Monitoring of the Diffusion Process of Deuterium-Labed Molecules in Wood
- Wood Stiffness by X-ray Diffractometry
Mesostructure and Applications: Science in Practice
- Selected Mesostructure Properties in Loblolly Pine from Arkansas Plantations
- Changes of Microfibril Angle After Radial Compression of Loblolly Pine Earlywood Specimens
- Variation of Kink and Curl of Longleaf Pine Fibers
- Effect of Chemical Fractionation Treatments on Silicon Dioxide Content and Distribution in Oryza Sativa
- Characterization of Water-Soluble Components from MDF Fibers
- Effects of Refiner Pressure on the Properties of Individual Wood Fibers
- Wood Structure and Adhesive Bond Strength
- Adhesion Mechanisms of Durable Wood Adhensice Bonds
Index
to see books • videos • cd-roms of related interest