Changes in Surface Properties of Heat-Treated Phyllostachys pubescens Bamboo

Zhang, Yamei; Yu, Wenji

doi:10.15376/biores.10.4.6809-6818

Cited by 21 publications

(16 citation statements)

References 11 publications

(13 reference statements)

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“…A reduction in the wettability property was observed after heat treatment of spruce, poplar, beech, pine (Petrissans et al 2003) and Pinus pinaster and Eucalyptus globules (Esteves et al 2007). Similar observations were found in Phyllostachys pubescens (Zhang and Yu 2015).…”

Section: Introductionsupporting

confidence: 89%

“…The observations reported in the present study differed from the other studies. Previous studies by Hou et al 2011, Li et al (2015) and Zhang & Yu (2015) showed a significant increase in the contact angle after the thermal treatment of Phyllostachys pubescens. Similarly, an increase in contact angle was observed in beach wood (Hakkou et al 2005), spruce, poplar, beech and pine (Petrissans et al 2003), Pinus pinaster and Eucalyptus globules (Esteves et al 2007) after heat treatment.…”

Section: Effect Of Thermal Treatment On Wettability Property Of D Asmentioning

confidence: 77%

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Effect of Thermal Treatment on the Wettability of Giant Bamboo (Dendrocalamus Asper) and Kawayan Tinik (Bambusa Blumeana) in the Philippines

Marasigan¹,

Razal²,

Alipon³

2020

JTFS

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The study was conducted to compare the wettability of Dendrocalamus asper and Bambusa blumeana and to determine thermal treatment effect on the surface property of bamboo. Mature bamboo poles (3 samples per species) were collected from Barangay Masapang, Victoria, Laguna, Philippines. The culms were divided into three height segments representing the bottom, middle and top portions and prepared for the wettability test on the outside layer (towards the skin) and inner surface. The samples for wettability and physical property determination were collected from the middle internode in each portion. Wettability property was determined by the Cosine-Contact Angle (CCA) measurement. ANOVA showed significant differences between species, layers, treated and untreated bamboo and height. The top portion of D. asper and the middle portion of B. blumeana had the highest measured contact angles, which were found in the outside layer for both bamboos. Thermal treatment changed the color of both bamboos, decreased their density, and significantly improved the wettability property. The results showed that the D. asper contact angle was significantly lower at different height levels and layers than B. blumeana for both untreated and thermally-treated samples.

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Section: Introductionsupporting

confidence: 89%

Section: Effect Of Thermal Treatment On Wettability Property Of D Asmentioning

confidence: 77%

Effect of Thermal Treatment on the Wettability of Giant Bamboo (Dendrocalamus Asper) and Kawayan Tinik (Bambusa Blumeana) in the Philippines

Marasigan¹,

Razal²,

Alipon³

2020

JTFS

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“…In terms of chemical components, the content of alpha cellulose, hemicellulose, starch, and sugar decreased, the content of extraction and lignin increased, the pH value decreased, and the hydroxyl and hydrogen bonds of the cell surface decreased [31]. As for performance, the unit surface free energy and polarity decreased, the density, volume shrinkage, and equilibrium moisture content decreased, the hydrophobicity increased, and the elastic modulus of fibroblast and parenchyma cell wall remained unchanged, and the hardness increased significantly [32][33][34]. In the course of the above changes, the formation of cracks and the increase of grain size are conducive to the subsequent penetration of PF resin into the microstructure of bamboo.…”

Section: Research Progress Of Bamboo Recombinationmentioning

confidence: 99%

Progress of Bamboo Recombination Technology in China

Huang

Zhang

et al. 2019

Advances in Polymer Technology

Self Cite

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At present, China is the world's largest producer of bamboo resource possessor and bamboo processing. The main processing method of bamboo recombination technology is rolling and compaction, by which a reconstituted material with bamboo fibrotic veneer as matrix and phenolic resin as reinforcement is prepared. It has excellent physical and mechanical properties and can replace high-quality wood to manufacture various engineering structural materials and building decoration materials. This paper reviewed the research process and progress of bamboo recombination technology, the existing technical problems and prospects, in order to provide references for future research on bamboo recombination theory and production practice. In recent years, as a new material with controllable properties, designable structures, and adjustable dimensions, bamboo reconstituted materials have been comprehensively studied from the aspects of pressing process parameters, physicochemical mechanical properties evaluation system, and microstructure characterization, but the research is not comprehensive and has not in-depth view. In the future, the relationship between microstructure and performance should be emphatically studied to clarify the law of mechanical performance change and ultimate mechanical performance under synergistic enhancement effect, as well as the performance change and interface formation of the resin during the entire molding process. Meanwhile, the reliability and relevance of applied research should be further expanded, and the integration of natural and artificial aging environment, process and performance, and macroand microscales should be strengthened.

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“…The utilization of thermally modified wood for indoor or outdoor applications has progressively increased due to its above-mentioned advantages. Previous studies have reported that the surface of the wood after the TM shows some changes when compared to unmodified wood (Hakkou et al 2005;Zhang et al 2015;Miklečić and Jirouš-Rajković 2016;Hill et al 2021). These changes include a decreased wettability and an inactivation of the surface.…”

Section: Introductionmentioning

confidence: 98%

“…Some chemical reactions occur in the wood during the thermal treatment, e.g., hydrolysis and oxidation, which cause the reduction of free hydroxyl groups and surface inactivation (Hakkou et al 2005;Petric et al 2009;Miklečić and Jirouš-Rajković 2016). Previous studies reported that the surface inactivation caused by the TM influences the wettability, which plays a role in the bonding mechanism between wood and certain coatings (Jarusombuti et al 2010;Hubbe et al 2015;Zhang and Yu 2015). Coating systems need to spread and penetrate the surface of the wood for good bonding to occur.…”

Section: Introductionmentioning

confidence: 99%

Effect of thermal modification on the surface quality of a coating applied to wood via the electrostatic spray deposition technique

Ayrılmış

Akkuş

Yılmaz

2021

BioRes

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The surface properties of thermally modified ash wood with a powder coating were investigated, and the results were compared to the unmodified wood. The wood specimens were sanded with 80 grit sandpaper and then pre-heated at 80 °C for 5 min in an infrared oven. The surface of the unmodified and the modified wood specimens were coated with an epoxy/polyester (1 to 1 ratio) hybrid coating using an electrostatic corona spray gun at the pilot plant established in the laboratory. The coatings on the wood specimens were cured at different curing conditions in an infrared oven, i.e., 120 °C/15 min, 140 °C/10 min, and 160 °C/10 min. The results showed that the thermal modification (TM) of the wood caused a slight decrease in the mechanical performance of the surface system (wood substrate and coating film). For example, the scratch and abrasion resistance of the unmodified specimens at the curing temperature of 120 °C were 3.33 N and 135 revolutions but were 3.12 N and 120 revolutions after the TM. However, the average surface roughness (1.26 mu) and contact angle (60.8°) of the distilled water on the cured coatings on the modified wood were lower than those on the unmodified wood (1.86 mu and 80.8°, respectively).

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Changes in Surface Properties of Heat-Treated Phyllostachys pubescens Bamboo

Cited by 21 publications

References 11 publications

Effect of Thermal Treatment on the Wettability of Giant Bamboo (Dendrocalamus Asper) and Kawayan Tinik (Bambusa Blumeana) in the Philippines

Effect of Thermal Treatment on the Wettability of Giant Bamboo (Dendrocalamus Asper) and Kawayan Tinik (Bambusa Blumeana) in the Philippines

Progress of Bamboo Recombination Technology in China

Effect of thermal modification on the surface quality of a coating applied to wood via the electrostatic spray deposition technique

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