Improved interaction between wood and synthetic polymers in wood/polymer composites   总被引：12，自引：0，他引：12  

Kristiina Oksman M.Sc. 《Wood Science and Technology》1996,30(3):197-205

Summary This article describes the properties of wood polymer composites consisting of linear low density polyethylene (LLDPE) and wood flour (WF). In an attempt to improve the interfacial adhesion between the matrix and the filler, different compatibilizers were used. The interaction between polymer and wood were studied by comparing LLDPE/WF composites with composites when compatibilizer was added. The experimental measurements were conducted by impact and tensile strength testing and Scanning Electron Microscopy (SEM). The mechanical properties of the composites were improved with SEBS triblock copolymer modified with maleic anhydride and with the ionomer polymer, Surlyn, as compatibilizers. SEM fractography confirmed better adhesion between wood particles and LLDPE matrix when SEBS was present.This study was financed by the Swedish National Board for Industrial and Technical Development (NUTEK) which is gratefully acknowledged  相似文献   

Field test of resistance of modified wood to marine borers     

《Wood material science & engineering》2013,8(1):34-38

Abstract

Five mineral fillers were tested for wood–plastic composites (WPCs): calcium carbonate, two different types of wollastonite, soapstone and talc. The impact of the fillers on the mechanical properties of the composites was studied. The experiments included bending tests, tensile tests, Brinell hardness and scanning electron microscopy experiments. The amount of wood, mineral and plastic (polypropylene) was kept steady. Only the mineral type was changed during the tests. A control sample without any mineral added was also manufactured. The mineral addition improved the tensile strength of the WPCs. The hardness of the composite was also improved when the minerals were added, and along with the increasing mineral hardness, the hardness of the composite increased. The wollastonite acicular shape was crushed during the manufacturing process, so the phase of the process in which the minerals are added requires careful consideration.  相似文献   

Micromorphology,moisture sorption and mechanical properties of a biocomposite based on acetylated wood particles and cellulose ester     

《Wood material science & engineering》2013,8(3-4):106-117

Abstract

One of the major issues in a long-term perspective for the use of wood–plastic composites (WPCs) in outdoor applications is the moisture sensitivity of the wood component and the consequent dimensional instability and susceptibility to biological degradation of the composite. In this work, the effects of using an acetylated wood component and a cellulose ester as matrix on the micromorphology, mechanical performance and moisture uptake of injection-moulded WPCs have been studied. Composites based on unmodified and acetylated wood particles, specially designed with a length-to-width ratio of about 5–7, combined with both cellulose acetate propionate (CAP) and polypropylene (PP) matrices were studied. The size and shape of the wood particles were studied before and after the processing using light microscopy, and the micromorphology of the composites was studied using a newly developed surface preparation technique based on ultraviolet laser irradiation combined with low-vacuum scanning electron microscopy (LV-SEM). The water vapour sorption in the composites and the effect of accelerated weathering were measured using thin samples which were allowed to reach equilibrium moisture content (EMC). The length-to-diameter ratio was only slightly decreased for the acetylated particles after compounding and injection moulding, although both the unmodified and the acetylated particles were smaller in size after the processing steps. The tensile strength was about 40% higher for the composite based on acetylated wood than for the composite with unmodified wood using either CAP or PP as matrix, whereas the notched impact strength of the composite based on acetylated wood was about 20% lower than those of the corresponding unmodified composites. The sorption experiments showed that the EMC was 50% lower in the composites with an acetylated wood component than in the composites with an unmodified wood component. The choice of matrix material strongly affected the moisture absorptivity of the WPC. The composites with CAP as matrix gained moisture more rapidly than the composites with PP as matrix. It was also found that accelerated ageing in a Weather-Ometer® significantly increased the moisture sensitivity of the PP-based composites.  相似文献   

木/塑复合材料界面增容研究的进展   总被引：8，自引：1，他引：7  

王志玲  王正 《木材工业》2005,19(3):12-15

木/塑复合材料是用途广泛的新型材料之一.从增强木/塑复合材料界面相容性,即界面增容着手,介绍了国内外的研究进展,提出增强木/塑界面相容性是木/塑复合材料产品开发和应用的关键之一,引入具有增容作用的组分对推动木/塑复合材料产业化意义重大;而研制适用的生产设备、开发不同树种木材和其它植物纤维与不同种类塑料在较高纤维含水率下复合所适用的新型增容剂是今后研究的方向之一.  相似文献   

Fundamental studies on wood/cellulose-plastic composites: effects of composition and cellulose dimension on the properties of cellulose/PP composite   总被引：2，自引：0，他引：2  

Rashmi Kumari  Hirokazu Ito  Masahiro Takatani  Miho Uchiyama  Tadashi Okamoto 《Journal of Wood Science》2007,53(6):470-480

Although wood/cellulose-plastic composites (WPC) of low wood/cellulose content have been more accepted worldwide and are promoted as low-maintenance, high-durability building products, composites containing high wood/cellulose content are not yet developed on an industrial scale. In this study, flow properties, mechanical properties, and water absorption properties of the compounds of cellulose microfiber/polypropylene (PP) and maleic anhydride-grafted polypropylene (MAPP) were investigated to understand effects of the high cellulose content and the dimensions of the cellulose microfiber. The molding processes studied included compression, injection, and extrusion. It was found that fluidity is not only dependent on resin content but also on the dimension of the filler; fluidity of the compound declined with increased fiber length with the same resin content. Dispersion of the composite was monitored by charge-coupled device (CCD) microscope. Increasing the plastic content in the cellulose-plastic formulation improved the strength of mold in addition to the bond development between resin and filler, and the tangle of fibers. The processing mode affected the physicomechanical properties of the cellulosic plastic. Compression-molded samples exhibited the lowest modulus of rupture (MOR) and modulus of elasticity (MOE) and the highest water absorption, while samples that were injection-molded exhibited the highest MOR (70 MPa) and MOE (7 GPa) and low water absorption (2%).  相似文献   

Improvement in compatibility and mechanical properties of modified wood fiber/polypropylene composites     

Wenjie Dang  Yongming Song  Qingwen Wang  Weihong Wang 《Frontiers of Forestry in China》2008,3(2):243-247

To improve the interfacial compatibility between wood fibers and polypropylene and the toughness of wood-fiber/polypropylene composites, maleic anhydride grafted polypropylene (PP-g-MAH) and maleic anhydride grafted styrene-ethylene-butadiene-styrene copolymers (SEBS-g-MAH) were used as modifiers. Mechanical properties of wood-fiber/polypropylene (WF/PP) composites were improved when PP-g-MAH or SEBS-g-MAH was added. When either of these copolymers was added, the composites had better interfacial compatibility than the unmodified composite. This was verified by scanning electron microscope (SEM) observations and dynamic mechanical analysis (DMA). The mechanical properties of the composites were significantly improved because of the good interfacial bonding between wood fibers and polypropylene when PP-g-MAH and SEBS-g-MAH were added. __________ Translated from Journal of Beijing Forestry University, 2007, 29(2): 133–137 [译自: 北京林业大学学报]  相似文献   

Photostable wood–inorganic composites prepared by the sol-gel process with UV absorbent     

Hisashi?MiyafujiEmail author  Hideki?Kokaji  Shiro?Saka 《Journal of Wood Science》2004,50(2):130-135

To enhance the photostability of wood against ultraviolet (UV) light, a UV absorbent, 2,2,4-trihydroxy-4-[2-hydroxy-3-(3-trimethoxysilylpropoxy)propoxy]benzophenone (BP), was applied to the reaction system for preparing SiO₂ wood–inorganic composites by sol–gel reaction. The BP–SiO₂ wood–inorganic composites obtained were examined for photostability by scanning electron microscope observations, color changes, and diffuse reflectance infrared fourier transform analyses. The results clearly indicated that compared with SiO₂ composites, BP–SiO₂ composites improved the photostability of wood. In addition, BP was stable against UV light without degradation so that the BP–SiO₂ composite should provide sustainable and high photostability of treated wood.Part of this report was presented at the 51st Annual Meeting of the Japan Wood Research Society at Tokyo, April, 2001  相似文献   

植物纤维/塑料复合材作地板基材的研究     

YANG Wen-bin LI Jian LIU Yi-xing 《林业研究》2005,16(3):245-246

Three kinds of composites （fiber/Polypropylene, fiber/Polyethelene, and fiber/Polystyrene） were made by using hot pressing process for substrate of floorboard and the properties of each kind of composites were tested. MORs of PP/wood fiber, PS/fiber, and PE/fiber composites with coupling agent added were raised by 18.4%, 37.1%, and 42%. respectively, compared to those without coupling agent. Among the three kinds of fiber/plastic composites, fiber/PP composite has best mechanical properties, and it can meet quality standard of eligible grade product and come up to the excellent grade products of China when the coupling agent is added. The performance of composite made of PE/fiber or PS/fiber can exceed qualified product grade only with coupling agent added.  相似文献   

Hygroscopic thickness swelling rate of composites from sawdust and recycled plastics   总被引：1，自引：1，他引：0  

Saeed Kazemi Najafi  Azadeh Kiaeifar  Mehdi Tajvidi  Elham Hamidinia 《Wood Science and Technology》2008,42(2):161-168

The thickness swelling rates of compression molded wood plastic composites (WPCs) prepared from 50% by weight sawdust and 50% by weight virgin and/or recycled plastics (HDPE and PP) were studied. Thickness swelling rates of the manufactured WPCs were evaluated by immersing them in water at room temperature and monitoring thickness changes for several weeks. A swelling model developed by Shi and Gardner (Composites Part A, 37:1276–1285, 2006) was used to study the thickness swelling process of WPCs. The parameter K _SR of the model can be used to quantify the swelling rate. The results indicated that composites containing PP had lower equilibrium thickness swelling and also shorter equilibrium time (time to reach equilibrium thickness swelling). The swelling model developed was a good predictor of the hygroscopic swelling process of wood plastic composites. Composites containing PP (virgin and recycled) had higher K _SR than those containing HDPE. The minimum and maximum K _SR values were observed in composites made of virgin HDPE and a mixture of recycled plastics, respectively. With increasing recycled plastic content K _SR linearly decreased.  相似文献   

Dynamic-mechanical analysis and SEM morphology of wood flour/polypropylene composites   总被引：1，自引：0，他引：1  

GUO Chui-gen SONG Yong-ming WANG Qing-wen SHEN Chang-sheng 《林业研究》2006,17(4):315-318

Introduction It is well known that over the past few decades, polymers have replaced many conventional materials, such as metal and wood in many applications. This is due to the advantages of polymers over conventional materials (Maurizio et al. 1998; Adr…  相似文献   

Bending creep behavior of Acer Saccharum marsh veneered medium-density fiberboard composite     

P Chow 《Wood Science and Technology》1982,16(3):203-213

Summary This study was to determine the effects of shelling ratio (SR) 0.200, 0.314, and 0.400, relative humidity (RH) 50, 64, 78, and 92 percent, and temperature (T) 10°C, 24°C, and 38°C, on the initial elastic (Y_E) deformation, irrecoverable creep (Y_IR) and creep deformations (Y_C) of sugar maple-veneered-medium-density fiberboard (MDF) composite panels 16 mm thick, 229 by 584 mm in size for the purpose of developing a hardwood composite. This composite would possess creep resistance comparable to conventional softwood plywood and lumber. The Y_E, Y_C, and Y_IR of all composite panels were significantly (at 0.05 level) affected by the SR, RH, and T in this study. However, no differences in creep deformations were found in all specimens between the SR of 0.314 and 0.400, between the RH of 50 and 64 percent, and between the T of 10°C and 24°C conditions. Composite panels with an SR value of 0.314 and 0.400 had Y_C values approaching that of maple lumber. Panels with SR value of 0.200 displayed lower average Y_E, Y_C, and Y_IR values than those of the Douglas-fir plywood. The effect of T on creep deformation was small when compared to the effects of SR and RH. The Y_IR accounted for almost 2/3 of the Y_C for all composite panels. Predicted Y_E, Y_C, and Y_IR values obtained from the multiple regression models predict very well the observed test values. The creep behavior of the composites was explained well by a power-law equation in log-log form for periods of 2 to 10 minutes and 10 to 100 minutes. Reasonable approximations of Y_C at 2-week intervals were made by extrapolating the short-term creep test results of 10 to 100 minutes log-log regression analysis oor the veneered-MDF composites.  相似文献   

Relationship between degradation of wood and production of H2O2-producing or one-electron oxidases by brown-rot fungi     

A. Enoki  H. Tanaka  G. Fuse 《Wood Science and Technology》1989,23(1):1-12

Summary The one-electron oxidation activity of brown-rot fungi was determined by measuring ethylene production from KTBA. Ethylene production was related to degradation of lignin, cellulose, and wood itself. Extracellular protein that catalyzed oxidation of KTBA was isolated from wood-containing cultures. This protein required H₂O₂ for KTBA oxidation. It was also found to oxidize NADH, producing H₂O₂ via in the presence of O₂. The protein showed little phenol-oxidase activity under conditions giving high activity against KTBA. The results indicate that partially reduced oxygen may play a role in the initial degradation of the cellulose and lignin in wood in cultures of brown-rot fungi.  相似文献   

Preparation and characterization of conductive and corrosion-resistant wood-based composite by electroless Ni–W–P plating on birch veneer     

Changhong?Shi  Zhaojun?Tang  Li?Wang  Lijuan?WangEmail author 《Wood Science and Technology》2017,51(3):685-698

A conductive and corrosion-resistant wood-based composite was obtained via electroless Ni–W–P plating on birch veneers. The W content of the Ni–W–P coatings obtained under different Na₂WO₄ concentrations in the plating bath was analyzed. The crystal structure, surface morphology, electrical resistivity, electromagnetic shielding effectiveness, surface wettability, adhesive strength and corrosion resistance of the composite were investigated. Energy-dispersive spectroscopy and X-ray photoelectron spectroscopy results showed that the coating consisted mainly of Ni⁰, Mo⁰ and P⁰ doped with little of their oxides. X-ray diffractometry analysis suggested the obtained coatings contained a nanocrystalline structure. Scanning electron microscopy images showed that the veneer surfaces were covered with uniform and continuous coatings. Birch veneers plated with Ni–W–P alloy exhibited good electrical conductivity with surface resistivity below 200 mΩ/cm² and shielding effectiveness above 35 dB from 9 kHz to 1.5 GHz. Ni–W–P films firmly adhered to the wood surface. Water contact angle of the composite reached about 130° indicating the hydrophobic surface. The Ni–W–P-plated veneers showed excellent corrosion resistance due to the polarization resistance above 3.1 kΩ/cm². This study further provides a new method for fabricating multifunctional wood-based composites.  相似文献   

Modeling and characterization of the moisture-dependent bilinear behavior of regenerated cellulose composites   总被引：1，自引：0，他引：1  

Rani F. El-Hajjar  Issam I. Qamhia 《Journal of Wood Science》2013,59(4):331-336

In this study, we investigate the tensile mechanical properties of unidirectional Lyocell/epoxy composites under wet and dry conditions using a multi-scale analysis approach. Characterization of the samples shows a bilinear stress–strain behavior of the fibers and composites under tension loading. The bilinear elastic–plastic stress–strain response of the Lyocell fibers is incorporated into a p-version finite element model for presenting a methodology for structural analysis of this composite system. The proposed finite element models were successfully able to relate the micro to macro-mechanical behavior enabling an approach for determining the 3D orthotropic elastic–plastic constants of regenerated cellulose/epoxy composites.  相似文献   

Recycled ionic liquid 1-ethyl-3-methylimidazolium acetate pretreatment for enhancing enzymatic saccharification of softwood without cellulose regeneration     

Umi Hamidah  Takuya Arakawa  Yin Ying H’ng  Akiko Nakagawa-izumi  Masanori Kishino 《Journal of Wood Science》2018,64(2):149-156

In this work, pretreatment of wood meals using a recycled ionic liquid (IL), 1-ethyl-3-methylimidazolium acetate ([Emim]Ac), enhanced glucose liberation by enzymatic saccharification, without dissolution of cellulose and lignin. In contrast, previous studies on IL pretreatment have mostly focused on lignocellulosic dissolution to regenerate cellulose and removing lignin. Softwood (Cryptomeria japonica) was pretreated with [Emim]Ac at 60–100 °C for 2–8 h without collecting regenerated cellulose. The pretreatment did not have a strong effect on wood component dissolution (weight of residues: 91.7–98.8%). The residues contained relatively high amounts of lignin (26.6–32.6%) with low adsorption of [Emim]Ac (0.9–2.7%). Meanwhile, the crystallinity index (C _r I) of cellulose in the wood was significantly reduced by pretreatment, from 50.9% to 28.4–37.1%. In spite of the high lignin contents in the residues, their glucose liberation values by enzymatic saccharification using a cellulase mixture were 3–16 times greater than that of untreated wood. A good correlation was found between the saccharification effectiveness of pretreated samples and the C _r I. Although lignin dissolved in [Emim]Ac continued to accumulate after repeated use of [Emim]Ac, the pretreatment was found to be effective for three consecutive cycles without the need to remove the dissolved materials.  相似文献   

Evaluation of decay resistance of wood products made from borax-impregnated wood and bonded with a formaldehyde-free cornstarch and tannin adhesive     

Amine Moubarik  Bertrand Charrier  Fatima Charrier  Antonio Pizzi  Ahmed Allal 《Annals of Forest Science》2009,66(1):109-109

? At present, the production of wood composites mainly relies on the petrochemical-based and formaldehyde-based adhesives such as phenol-formaldehyde (PF) resins and urea-formaldehyde (UF) resins, which are non-renewable and therefore ultimately limited in supply.

? This paper concerns the decay resistance of wood products bonded with a new, environment-friendly adhesive derived from abundant and renewable cornstarch and tannin. To improve the total resistance of the composite against both Coriolus versicolor and Coniophora puteana rot fungi, borax (di-sodium tetraborate) was added in proportions of 0.5%, 1% and 2% (w/w) to the cornstarch-tannin adhesives.

? The results show that increasing the concentration of borax in the adhesive decreased the mechanical properties of the composite. The best way to avoid this problem was to use wood impregnated with borax.

? Biodegradation studies were conducted on new composites, first without any treatment, followed by borax at 0.5% aqueous solution treatment. The results show that wood impregnated with borax, in the presence of tannin and sodium hydroxide in the adhesive improves the total resistance of the wood composite against both Coriolus versicolor and Coniophora puteana rot fungi.

  相似文献   

Photodegradation of wood flour/polypropylene composites incorporated with carbon materials with different morphologies     

Yao Peng  Xiong Li  Wen Wang 《Wood material science & engineering》2020,15(2):104-113

ABSTRACT

In this study, wood flour/polypropylene (WF/PP) composites were prepared by incorporating 2?wt% carbon materials with different morphologies, including carbon black (CB), graphite (G), and multi-walled carbon nanotubes (CNTs). WF/PP composite without any additives was included as a reference. All composites were placed in the accelerated UV weathering tester for a total of 960 h. The physical and mechanical properties of composites were compared. The changes in surface morphology and surface chemistry were characterized by SEM AFM, and ATR-FTIR. The results showed that: (1) the addition of CNTs improved both flexural and impact properties of composites; (2) composites containing CNTs exhibited better color stability and less severe surface cracking during weathering; and (3) ATR-FTIR results revealed that all the additives alleviated surface photo-oxidation of composites due to their UV-screening effect. Overall, due to the improved interfacial bonding between WF and PP, CNTs were more effective in protecting wood–plastic composites from photodegradation.  相似文献   

亚麻屑/高密度聚乙烯复合材料性能研究     

石祎  衣明  刘保滨  姜海波 《林业机械与木工设备》2014,(7):26-28

采用两步法工艺和设备,按照9组实验配方,在基础配方的基础上,添加铁红和UV531作为添加剂,制备出亚麻屑/高密度聚乙烯复合材料。分析了加入不同添加剂的复合材料老化前后的弯曲性能、冲击性能和密度。实验数据表明,亚麻屑含量为60%、添加抗老化剂UV531的木塑复合材料物理及力学性能较好,得出了加工亚麻屑/HDPE复合材料的最优工艺和实验配方。  相似文献   

Evidence of Si–O–C bonds in cellulosic materials modified by sol–gel-derived silica     

Michael Bücker  Christian Jäger  Dietmar Pfeifer  Brita Unger 《Wood Science and Technology》2014,48(5):1033-1047

The present study contributes to the controversial discussion in the literature whether Si–O–C bonds in wood–silica–gel composites exist. ¹³C NMR is a suitable method to proof such bonds. Because of the low concentration of ¹³C isotopes in natural wood, ¹³C cellulose was used as ¹³C-enriched substitute. A tailored sol for the impregnation of that cellulose was chosen by liquid ²⁹Si NMR pre-investigations of various sols whose reactivity and stability were time-dependently analysed. It is based on a sub-stoichiometric hydrolysis of tetraethoxysilane (TEOS) with 1 mol water per mol TEOS. Thermal analyses were performed to show a comparability of the thermal behaviour of wood–silica–gel and cellulose–silica–gel composites. There are two strong hints of the existence of stable Si–O–C bonds: (1) by thermal analysis, a shift in the fire behaviour of 100 K can be observed with a change in pyrolysis behaviour of the composite and (2) the proof by REDOR NMR that a dipolar coupling between ²⁹Si and ¹³C nuclei exists.  相似文献   

Performance of three-layer composites with densified surface layers of Nothofagus pumilio and N. antarctica from Southern Patagonian forests     

Matthew Schwarzkopf  Michael Burnard  Guillermo Martínez Pastur  Lucas Monelos  Andreja Kutnar 《Wood material science & engineering》2018,13(5):305-315

Nothofagus pumilio and N. antarctica forests of Southern Patagonia, Argentina are currently being managed for production of saw logs with fast growing conditions. The result of these management strategies is faster growing forests, but also an increase in the percentage of low-density wood. The motivation for this study was to find a way to valorise this low-density wood. Surface and bulk densification treatments were applied these wood species and were then applied as face layers in three-layer composites. The mechanical properties of three-layer composites were studied. The modulus of elasticity, modulus of rupture, and modulus of hardness were improved compared to many types of structural composite lumber. This increase in mechanical properties of N. pumilio and N. antarctica wood opens the possibility for its use in structural composites and added value to these otherwise underutilised and undervalued species.  相似文献