On the mechanical interaction between cellulose microfibrils and matrix substances in wood cell walls: effects of chemical pretreatment and subsequent repeated dry-and-wet treatment

We investigated the influences of chemical pretreatments and subsequent repeated dry-and-wet (RDW) treatments on the mechanical linkage between cellulose microfibrils (CMFs) and matrix substances (MT) in wood cell wall. Sugi (Cryptomeria japonica D. Don) quarter-sawn specimens were subjected to vari...

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Bibliographic Details
Published inJournal of wood science Vol. 59; no. 5; pp. 359 - 366
Main Authors Toba, Keisuke, Yamamoto, Hiroyuki, Yoshida, Masato
Format Journal Article
LanguageEnglish
Published Tokyo Springer-Verlag 2013
Springer Japan
Springer Nature B.V
Subjects
alkali treatment
Benzene
Biomedical and Life Sciences
cell walls
Cellulose
Cellulose fibers
Characterization and Evaluation of Materials
Cryptomeria japonica
Crystal defects
crystal structure
delignification
Drying
Ethanol
Life Sciences
Materials Science
Organic chemistry
Original Article
Pretreatment
Walls
wood
Wood Science & Technology
X-ray diffraction
Crystal size
X-ray diffraction
Crystallinity
Moisture adsorption
Lattice spacing
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Summary:We investigated the influences of chemical pretreatments and subsequent repeated dry-and-wet (RDW) treatments on the mechanical linkage between cellulose microfibrils (CMFs) and matrix substances (MT) in wood cell wall. Sugi (Cryptomeria japonica D. Don) quarter-sawn specimens were subjected to various types of chemical pretreatments, including ethanol and benzene extraction, delignification, alkali extraction, and hygrothermal treatment, to give substantial damages to principal constituents of wood cell wall, followed by 5 times of RDW treatment. After giving chemical pretreatment, the d-spacing of (200) lattice plane of cellulose Iᵦ (d ₂₀₀), the crystallinity of wood cell wall, and the crystal size of the cellulose were measured at the fiber saturated point, using X-ray diffraction techniques. Thereafter, these were measured again at the absolutely dried condition in the process of subsequent RDW treatments. The d ₂₀₀ in specimens, which were given to light pretreatments, largely expanded by drying at the early stages of RDW treatments, then it decreased and became constant after 5 times of RDW treatments. On the other hand, d ₂₀₀ in specimens, which were given to intensive pretreatments, remained constant at a relatively small level throughout the whole process of RDW treatments. After 5 times of RDW treatments, d ₂₀₀ became similar values between the above two groups. This suggests that RDW treatments have similar effects as intensive pretreatments, which induce substantial damages to the microscopic region in the wood cell wall such as interfacial separation between CMF, MT, and so forth. These defects would weaken mechanical interaction between CMF and MT in the wood cell wall during drying.
Bibliography:http://dx.doi.org/10.1007/s10086-013-1347-1
ISSN:1435-0211
1611-4663
DOI:10.1007/s10086-013-1347-1