Your search keyword '"Ali, Shalbafan"' showing total 38 results

1. Lightweight tubular fiberboard: Effect of hole diameters and number on panel properties

Author

Javad Khakzad, Ali Shalbafan, and Saeed Kazemi-Najafi

Subjects

Fiberboard, lightweight, tubular board, extrusion, furniture application, Forestry, SD1-669.5, Manufactures, TS1-2301

Abstract

Special tubular fiberboard with a density of 550 kg/m3 was manufactured using the round rods for creation of the holes. Physicomechanical properties of tubular fiberboard (6, 8, 10, 12 (mm)) with various hole diameters and number of hole (0, 1, 2 and 3 in a constant cross section) were evaluated. The surface layers density, especially on top of the holes, considerably elevated with increasing the hole diameter. This did create higher bending properties as well as higher internal bond and surface soundness. The structure of webs between the holes, when the holes’ number increases, were predominant factor influencing the panel properties. Weak and loose web structure were obtained by increasing the holes’ number from 1 to 3 within a constant cross section (50 mm × 16 mm) that was due to the less transferred fiber during pressing in the webs’ sections. A corresponding comparison of panel properties with those in American and European standards presents that the minimum requirements according to most of the standards (ANSI A208/2, EN 14755, EN 312/P2 and EN 622-5/P1) were obtained.

Published

2020

2. Preparation and characterisation of electromagnetic shielding medium-density fiberboard using Iron oxide nanoparticles

Author

Mohammad Pourjafar, Rabi Behrooz, Ali Shalbafan, and Vahid Nayyeri

Subjects

General Materials Science

Published

2022

3. Development of a One-Step Process for Production of Foam Core Particleboards using Rigid Polyurethane Foam

Author

Ali Shalbafan, Kamran Choupani Chaydarreh, and Johannes Welling

Subjects

Lightweight, Sandwich, Foam core particleboards, Rigid foam, Polyurethane, Biotechnology, TP248.13-248.65

Abstract

A simulated one-step process has been developed for the production of foam core particleboards using rigid polyurethane as the core layer. The results showed that the different techniques used for surface layer separation (unresinated particles and sprayed water) and foam injections (open system and closed system) had no influences on panels’ characteristics. Mechanical properties (e.g., bending strength and internal bond strength) were mostly influenced by the surface layer thickness, while the water absorption and edge screw withdrawal were influenced by the foam cell structure. The use of sprayed water for surface layer separation doubled the formaldehyde emission (FE) of the panels. The addition of urea (based on 10% of the dry resin) to the sprayed water had a positive effect of reducing the final FE. Furthermore, increasing the surface layer thickness had a positive, linear relationship with FE.

Published

2016

4. Biological Characterization of Panels Manufactured from Recycled Particleboards using Different Adhesives

Author

Ali Shalbafan, Jan T. Benthien, and Henrik Lerche

Subjects

WPCs, Recycled materials, Basidiomycetes, Outdoor applications, Biotechnology, TP248.13-248.65

Abstract

Transforming waste or recycled materials into value-added products is of high priority today. Wood plastic composites (WPCs) show high potential for the use of recycled materials in making durable composites. The applicability of WPC panels produced from recycled materials (ultralight foam core particleboards) for exterior building application was tested using wood-destroying basidiomycetes. The results showed that the panels were fully resistant against Coniophora puteana (Cp) and Gloeophyllum trabeum (Gt), but not very resistant against Pleurotus ostreatus (Po). The decay susceptibility index of Po-exposed specimens showed that the polystyrene-bonded (PS) samples were more resistant than solid beech wood samples that were used as references, followed by melamine-urea formaldehyde-bonded samples. A comparison with the reference samples also showed that the panel density had a significant influence on the panel’s resistance against basidiomycetes. The higher the panel density, the more resistance will be achieved in the panel.

Published

2016

5. Medium density fiberboard (MDF) with efficient electromagnetic shielding: Preparation and evaluation

Author

Mohammad Pourjafar, Rabi Behrooz, Vahid Nayyeri, and Ali Shalbafan

Subjects

Environmental Engineering, Bioengineering, Waste Management and Disposal

Abstract

Carbon fiber (CF)-filled fiberboard specimens for electromagnetic (EM) shielding applications were produced in this study by mixing CF with wood fiber (WF). The aim of this work was to study the panel properties with different loadings (1%, 2%, 3%, 5%, and 10%) of CF. The mechanical, physical, and electromagnetic interference (EMI) shielding properties of the produced medium density fiberboard (MDF) were analyzed. The shielding effectiveness (SE) of the CF1 sample was 23.5 dB to 35.0 dB in the frequency range of 8.2 GHz to 12.4 GHz. The maximum SE of 64 GHz to 76 dB was obtained for the CF10 sample. The investigation of the mechanical properties of MDF panel indicated that the modulus of rupture (MOR), modulus of elasticity (MOE), and internal bonding (IB) of the composite panels were less than those of the control panel. The MOR, MOE, IB, thickness swelling (TS), and water absorption (WA) of the panel with 1% CF (CF1) were 24.7 MPa, 2,510 MPa, 0.69 MPa, 14.5%, and 52.3% respectively. Generally, the MDF panels with 1% CF exhibited a greater ability for EM shielding applications because of their acceptable properties according to the EN 622-5 (2019) standard and appropriate EM shielding of at least 20 dB.

Published

2022

6. Geopolymer-Bonded Laminated Veneer Lumber as Environmentally Friendly and Formaldehyde-Free Product: Effect of Various Additives on Geopolymer Binder Features

Author

Ali Shalbafan and Heiko Thoemen

Subjects

geopolymer, mineral binder, additives, laminated veneer lumber, shear strength, aptes, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Environmentally friendly and formaldehyde-free laminated veneer lumber (LVL) was manufactured using geopolymer constituents as binder. The main aim of the study was to improve the bonding quality between the geopolymer binder and the wood constituents. To this end, the effect of various additives (phenol flakes, conventional silica fume, and grafted silica fume with 3-aminopropyltriethoxysilane (APTES)) in the geopolymer binder features were explored via gel time and viscosity measurements, differential scanning calorimetry (DSC), and Fourier transom infrared spectroscopy. The mechanical properties (shear, bending, and compression) of LVL panels were also determined. Results showed that adding both types of silica fume had a positive impact on the geopolymer binder features. The formation of an alkaline aluminosilicate network was proven by observing the characteristics peaks of geopolymer binder at about 683 and 970 cm−1. A peak temperature of about 98 °C was determined for the geopolymer binder curing via DSC analysis. The mechanical properties were the highest for LVL panels made of geopolymer binder with grafted silica fume. It is feasible that the APTES used as grafting agent created a better bonding mechanism with superficial wood cells. In summary, the produced LVL panel showed good properties, but it still needs to be further improved to reach the required levels for use in interior and humid application.

Published

2020

7. Investigating the Possibility of Geopolymer to Produce Inorganic-Bonded Wood Composites for Multifunctional Construction Material – A Review

Author

Siti Noorbaini Sarmin, Johannes Welling, Andreas Krause, and Ali Shalbafan

Subjects

Geopolymer, Wood composite, Inorganic binder, Alkaline activator, Biotechnology, TP248.13-248.65

Abstract

Wood-based composites are widely used in consumer products, either in structural or non-structural applications. One of the basic elements for wood-based composites is the binder itself. Recent years have seen great development and trends in the field of eco-friendly binders in wood-based composite. There have been many concerns on the effects of formaldehyde and volatile organic compounds (VOC) released from wood-based products. Researchers have put lot of effort into developing environmental friendly products with enhanced sustainability. Binder materials with a focus on geopolymers (i.e., alumino-silicates) are discussed in this publication. The development and utilization of geopolymeric binders is relatively new in the field of wood-based composites. Up to the present there has been insufficient information regarding the manufacturing conditions and properties of wood-nonwood composite materials prepared using a geopolymeric binder. This paper considers the background of geopolymer materials and the possibilities of producing inorganic-bonded wood composite using geopolymer.

Published

2014

8. Development of ultra-light foam-core fibreboard for furniture application

Author

Saeed Khojasteh-Khosro, Heiko Thoemen, and Ali Shalbafan

Subjects

040101 forestry, 0106 biological sciences, Materials science, Absorption of water, Forestry, 04 agricultural and veterinary sciences, Bending, Bead, 01 natural sciences, Core (optical fiber), chemistry.chemical_compound, Flexural strength, chemistry, 010608 biotechnology, visual_art, medicine, visual_art.visual_art_medium, 0401 agriculture, forestry, and fisheries, General Materials Science, Surface layer, Polystyrene, Swelling, medicine.symptom, Composite material

Abstract

Ultra-lightweight foam-core fibreboard with 19 mm thickness was produced with a novel one-step process using resinated wood fibres for the faces and expandable polystyrene (EPS) as core layer material. The aim of the current study was to investigate the panel properties produced with different EPS bead diameter (0.5, 1.5, and 2.5 mm) and surface layer thickness (1, 2, 3, 4, and 5 mm). The EPS bead diameter showed a significant effect on the properties of foam-core fibreboard. The most uniform foam with the smallest cell size and highest cell density was observed in panels with smaller EPS beads, which also resulted in a remarkable increase in bending strength and edge screw withdrawal resistance (SWR) of the foam-core panels. Increasing the surface layer thickness from 1 to 5 mm significantly raised the foam-core panels’ density from 220 to 460 kg/m3, respectively. The higher the panel density, the higher the bending properties and the face SWR. The physical properties (thickness swelling and water absorption) of foam-core panels were negatively influenced by thickening of the surface layers. In general, foam-core fibreboards made with smaller EPS beads (0.5 mm) and 3 mm surface layers (density of 340 kg/m3) showed excellent potential for furniture manufacturing due to their acceptable properties according to EN622-5/P1 while still having nearly 55% lower density compared to conventional fibreboard density (750 kg/m3).

Published

2021

9. Geopolymer as a multifunctional mineral binder to produce laminated veneer lumber: effect of various aluminosilicate powder types on panels and geopolymer binder features

Author

Dirk Berthold, Farzaneh Allahverdipoorazar, and Ali Shalbafan

Subjects

Thermogravimetric analysis, Materials science, Absorption of water, Silica fume, Forestry, Laminated veneer lumber, Geopolymer, Aluminosilicate, medicine, General Materials Science, Composite material, Swelling, medicine.symptom, Metakaolin

Abstract

Geopolymer was used as a multifunctional mineral binder to produce laminated veneer lumber (LVL). The main aim of the study was to characterize the various geopolymer binder formulations based on natural kaolin, metakaolin and silica fume. The effect of different combinations of aluminosilicate powder in geopolymer binder was characterized via FTIR, XRD and TGA analysis. The mechanical (shear, bending, and compression) and physical (thickness swelling and water absorption) properties of the LVL specimens were also evaluated. Results showed that characteristic bands attributed to the geopolymer binder were more pronounced with further replacement of kaolin with metakaolin and silica fume. The higher the metakaolin content, the greater the amorphous content of the reaction products. The mechanical properties of the LVL samples strongly depended on the unreacted components (Si and Al molecules) existing in the aluminosilicate powder as well as the Si/Al ratio in geopolymer binders. The content of unreacted components was reduced by decreasing of the kaolin content in the binder formulations. Furthermore, increasing of Si/Al ratio, via addition of silica fume, showed positive influence on kaolin-based binders, while it showed a slightly negative influence on metakaolin-based binders. Although metakaolin is more favored for geopolymer synthesis due to its better mechanical, chemical, thermal and durability properties, the combination of kaolin with metakaolin could enhance its characteristics to be used as an aluminosilicate source for geopolymer binder. Kaolin-based binders showed higher tendency to penetrate into the wood cell lumens compared to metakaolin-based binders.

Published

2020

10. Consumer behavior assessment regarding lightweight furniture as an environmentally-friendly product

Author

Heiko Thoemen, Saeed Khojasteh-Khosro, and Ali Shalbafan

Subjects

040101 forestry, 0106 biological sciences, ComputerSystemsOrganization_COMPUTERSYSTEMIMPLEMENTATION, media_common.quotation_subject, 04 agricultural and veterinary sciences, Certification, 01 natural sciences, Environmentally friendly, GeneralLiterature_MISCELLANEOUS, 010608 biotechnology, 0401 agriculture, forestry, and fisheries, Production (economics), Position (finance), General Materials Science, Quality (business), Business, Product (category theory), Marketing, Consumer behaviour, media_common

Abstract

This study was aimed to evaluate the position of lightweight panels and their application in furniture production in Iran by investigating consumers’ behavior and preferences. Here, consumers’ preferences toward effective criteria to choose furniture made of wood-based panels (WBPs) were evaluated on the basis of analytical network process method. Furthermore, respondents were asked about their attitudes and preferences regarding lightweight furniture. The results revealed that the main sub-criteria for buying furniture were product quality, design, price, environmentally-friendly, and guarantee features. Furthermore, the technological feature was the most important criterion affecting consumers buying decisions more than the visual/appearance and economical features of the furniture. Consumers believed that conventional WBPs were heavy for some applications in the furniture. Respondents emphasized that they would buy lightweight furniture, even with a bit more price (5–9%) in comparison to conventional furniture (furniture made of WBPs) if there would be a product guarantee, more varieties of the products available in the market, and environmentally-friendly certification. In general, the consumers showed a willingness to buy furniture made by panels with mid-range density (480 kg/m3 density), but they should have to be sure of the panels’ quality and the furniture made thereof before buying this product.

Published

2020

11. Preferences of furniture manufacturers for using lightweight wood-based panels as eco-friendly products

Author

Heiko Thoemen, Saeed Khojasteh-Khosro, and Ali Shalbafan

Subjects

040101 forestry, 0106 biological sciences, Product design, Manufacturing process, media_common.quotation_subject, Woodworking, Forestry, 04 agricultural and veterinary sciences, 01 natural sciences, Environmentally friendly, Manufacturing engineering, Product (business), 010608 biotechnology, Furniture manufacturing, Potential market, 0401 agriculture, forestry, and fisheries, General Materials Science, Quality (business), Business, media_common

Abstract

Lightweight panels, as an eco-friendly element for furniture manufacturing, offer several potential market and production opportunities for many secondary woodworking companies. In this study, the perceptions of Iranian furniture manufacturers were evaluated by means of ANP-based multi-type questionnaires, regarding the conditions and requisite features of lightweight panels in furniture manufacturing. The ANP results revealed that product design, quality and price were effective sub-criteria for furniture manufacturers. The most important attributes for choosing panels during the manufacturing process were: lack of panel warping, product abundance in the market, and withdrawal resistance of connectors. Manufacturers indicated that they were aware of the advantages lightweight panels would bring them, but they were still in need of further persuasion concerning the quality and workability of lightweight panels. Combining lightweight and conventional panels for furniture manufacturing could lead to an increased interest in assuring furniture quality. In addition, further development of lightweight panels is necessary to increase the variation in the market.

Published

2020

12. Influence of Pressing Schedule and Adhesive Content on the Rheological Behavior of Wood Fiber-Furnish Mats

Author

Thoemen, Ali Shalbafan and Heiko

Subjects

medium-density fiberboard, density profile, adhesive content, mat-furnish, modelling, rheology, pressing schedule

Abstract

In this study, for a better understanding of the hot-pressing process, the influence of adhesive content (AC) on various features of a typical pressing schedule for medium-density fiberboard (MDF) production, including fiber mat compressibility, heat transfer during hot-pressing, density profile and board properties, were evaluated. It was found that increasing the AC (urea formaldehyde) leads to faster heat transfer towards the mat’s central plane, mainly due to higher heat release from the adhesive polycondensation reaction. Moreover, the results indicate that the time needed to reach the critical mark of 100 °C in the central plane of the mat depends on the duration of the first densification level (FD). Importantly, the pressure peaks (pmax and p2nd) needed for mat densification are significantly reduced when increasing the AC, which might be attributed to the slippery effect created by the adhesive on the fiber surfaces. The duration of the FD also showed obvious effects on the intermediate density maxima (ρinter) and the core layer density (ρcore). In general, the physical and mechanical properties of MDF panels are significantly impacted by the pressing schedule and AC. All in all, the results of this study are valuable information for refining existing rheological models to improve their accuracy and their ability to simulate the vertical density profile during industrial production.

Published

2022

13. Influence of Pressing Schedule and Adhesive Content on the Rheological Behavior of Wood Fiber-Furnish Mats

Author

Ali, Shalbafan and Heiko, Thoemen

Abstract

In this study, for a better understanding of the hot-pressing process, the influence of adhesive content (AC) on various features of a typical pressing schedule for medium-density fiberboard (MDF) production, including fiber mat compressibility, heat transfer during hot-pressing, density profile and board properties, were evaluated. It was found that increasing the AC (urea formaldehyde) leads to faster heat transfer towards the mat's central plane, mainly due to higher heat release from the adhesive polycondensation reaction. Moreover, the results indicate that the time needed to reach the critical mark of 100 °C in the central plane of the mat depends on the duration of the first densification level (FD). Importantly, the pressure peaks (p

Published

2022

14. Foams in Wood Composites

Author

Ali Shalbafan

Published

2022

15. Development of an Electrically Conductive MDF Panel—Evaluation of Carbon Content and Resin Type

Author

Christof Tschannen, Ali Shalbafan, and Heiko Thoemen

Subjects

T Technology (General), wood-based panel, urea formaldehyde, electrical conductivity, Polymers and Plastics, medium density fibreboard, furniture design, TA Engineering (General). Civil engineering (General), TH Building construction, General Chemistry, carbon fibres, pMDI (polymeric methylene diphenyl diisocyanate)

Abstract

Electronics in furniture and construction materials, in particular technologies which allow for a flexible and cable-free connection of electronics in such materials, are gaining broader interest. This study shows a further development of a concept to obtain highly conductive medium-density fibreboard panels (MDF) for furniture application. MDF were produced using two mixing processes (wet and dry) for wood and carbon fibres to investigate the effects of resin type (urea formaldehyde (UF) and polymeric methylene diphenyl diisocyanate (pMDI)) and carbon fibre content on their mechanical, physical, and electrical properties. Overall, wet mixed fibres showed better electrical but reduced mechanical properties. Modulus of elasticity (MOE) and bending strength (MOR) values of 3500 MPa and 35 MPa, respectively, and internal bond (IB) values of 0.45 to 0.65 MPa with electrical conductivities of up to 230 S/m were achieved. The technology has been successfully implemented in a demonstration object showing the application in a small piece of furniture.

Published

2023

16. Development of Mineral-Bonded Plywood with Magnesium Oxychloride as a Binder Using the Hot-Pressing Process

Author

Ali Shalbafan and Heiko Thoemen

Subjects

Polymers and Plastics, mineral binder, petroleum-free binder, hot-press, no-added formaldehyde, plywood, General Chemistry, magnesium oxide

Abstract

Environmentally friendly plywood panels were produced by a hot-pressing process using magnesium oxychloride cement (MOC) as a no-added formaldehyde adhesive. Magnesium oxychloride cement binders were prepared with different molar ratios of MgO:MgCl2 (M/C) and H2O:MgCl2 (W/C) ranging from 6 to 12 and 15 to 21, respectively, for plywood production. The binder properties measured were gel time, differential scanning calorimetry (DSC) and Fourier transom infrared spectroscopy (FTIR). The quality of the plywood panels was analyzed based on their mechanical (shear and bending) and physical (thickness swelling and water absorption) properties. A positive effect on the properties of the MOC binder as well as on the properties of the plywood was observed by increasing the molar ratio M/C up to a value of 9. The shear and flexural properties of the plywood specimens were negatively affected by further increasing the molar ratio M/C to 12 and the molar ratio W/C from 15 to 21. Differential scanning calorimetry analysis showed a peak temperature of less than 100 °C for MOC curing, which meets the requirements of hot press technology. No delamination of the plywood specimens was observed after 24 h immersion in tap water or 6 h immersion in boiling water and after a cyclic delamination test. In general, mineral-bonded plywood with magnesium oxychloride shows promising properties for indoor and outdoor use, although the binder quality should still be improved.

Published

2023

17. Determination of optimum Refining of paper made of recovered Kraft liner

Author

Hamid Noori chaparprdy, Ali Ghasemian, Ali Shalbafan, and Reza Hajihassani

Subjects

Refining, Kraft liner, PFI mill, Disintegrator, hand sheet, Forestry, SD1-669.5

Abstract

This study has been performed in order to determination of optimum refining of paper made of recovered Kraft liner. Recovered Kraft liner has been prepared from anzali city. After shredding into 5 centimeter pieces, the papers were soaked in distillated water in pail. After 7 days fibers was separated of each other by disintegrator and freeness for each pulp before and after refining were measured. They were refined in revolutions of 3000, 6000, 9000, 12000 by PFI mill. Hand sheets were made from each revolution in order to TAPPI standard T 205om-95 number, and then were compared with control sample. Analysis of variance of waste papers were conducted using completely randomized design, then mean values were compared, using Duncan’s test, and finally the normalization equations were used to determine the best sample. Results showed that increasing of refining revolution increased strength of burst, tensile and brightness but decrease freeness, thickness and tear strength at product. Normalization equations showed that the best papers made from refining revolution of 9000.

Published

2008

18. A STUDY ON DENSITY PROFILE OF THREE TYPES OF MEDIUM DENSITY FIBERBAORD (MDF) USED IN IRAN MARKET

Author

Saeid Kazemi najafi, Ali Shalbafan, and Majid Charmahali

Subjects

DENSITY PROFILE, MEDIUM DENSITY FIBERBOARD (MDF), MODULUS OF ELASTICITY, Bending strength, water absorption, Thickness swelling, Forestry, SD1-669.5

Abstract

Density profile of three types of medium density fiberboard (MDF) panels used in Iran market was studied through direct method and gradually removing of layer. Modulus of elasticity, bending strength, internal bond, water absorption and thickness swelling were also determined. The results show that the shape of density profiles in all types of panels is nearly symmetric and normal, but the profil density in one was deeper, so it showed higher modulus elasticity and bending strength. No significant difference in internal bond was observed between different types of panels.

Published

2005

19. Lightweight tubular fiberboard: Effect of hole diameters and number on panel properties

Author

Ali Shalbafan, Javad Khakzad, and Saeed Kazemi-Najafi

Subjects

Materials science, Materials Science (miscellaneous), Bending, Internal bond, Fiberboard, furniture application, Industrial and Manufacturing Engineering, Rod, Cross section (physics), lcsh:Manufactures, Chemical Engineering (miscellaneous), Fiber, lcsh:Forestry, Composite material, lightweight, 040101 forestry, Pressing, Extrusion, Forestry, 04 agricultural and veterinary sciences, tubular board, extrusion, visual_art, visual_art.visual_art_medium, lcsh:SD1-669.5, 0401 agriculture, forestry, and fisheries, fiberboard, Web structure, lcsh:TS1-2301

Abstract

Special tubular fiberboard with a density of 550 kg/m3 was manufactured using the round rods for creation of the holes. Physicomechanical properties of tubular fiberboard (6, 8, 10, 12 (mm)) with various hole diameters and number of hole (0, 1, 2 and 3 in a constant cross section) were evaluated. The surface layers density, especially on top of the holes, considerably elevated with increasing the hole diameter. This did create higher bending properties as well as higher internal bond and surface soundness. The structure of webs between the holes, when the holes’ number increases, were predominant factor influencing the panel properties. Weak and loose web structure were obtained by increasing the holes’ number from 1 to 3 within a constant cross section (50 mm × 16 mm) that was due to the less transferred fiber during pressing in the webs’ sections. A corresponding comparison of panel properties with those in American and European standards presents that the minimum requirements according to most of the standards (ANSI A208/2, EN 14755, EN 312/P2 and EN 622-5/P1) were obtained.

Published

2020

20. Effect of surface layers compressibility and face-to-core-layer ratio on the properties of lightweight hybrid panels

Author

Jan Luedtke, Ali Shalbafan, and Saber Jafarnezhad

Subjects

040101 forestry, 0106 biological sciences, Surface (mathematics), Materials science, technology, industry, and agriculture, Forestry, 04 agricultural and veterinary sciences, complex mixtures, 01 natural sciences, Core (optical fiber), chemistry.chemical_compound, chemistry, 010608 biotechnology, Face (geometry), Compressibility, 0401 agriculture, forestry, and fisheries, General Materials Science, Polystyrene, Composite material, Layer (electronics)

Abstract

The hybridisation of wood-based panels has gained interest in recent years. Lightweight hybrid panels consisting of wood fibres as faces and a mixture of wood particles with expandable polystyrene ...

Published

2018

21. Reduction of formaldehyde emission from medium density fiberboard by chitosan as scavenger

Author

Ali Shalbafan, Hedi Hassannejad, and Mehdi Rahmaninia

Subjects

Materials science, Formaldehyde, macromolecular substances, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Scavenger, Chitosan, chemistry.chemical_compound, Adsorption, Materials Chemistry, Urea-formaldehyde, technology, industry, and agriculture, Surfaces and Interfaces, General Chemistry, equipment and supplies, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Surfaces, Coatings and Films, carbohydrates (lipids), chemistry, Mechanics of Materials, Proton affinity, Composition (visual arts), Adhesive, 0210 nano-technology, Nuclear chemistry

Abstract

Chitosan was used as environmentally friendly and bio-based scavenger for reducing the formaldehyde emission from medium density fiberboard. Using of chitosan powder showed better capacity of formaldehyde adsorption rather than the chitosan solution. Liquid 13C-NMR showed that the free formaldehyde in urea formaldehyde adhesive having chitosan powder was drastically reduced. Additionally, the observed peak at 155 ppm showed that that the chitosan powder was copolymerized with urea formaldehyde adhesive. Increasing the amount of chitosan powder was significantly reduced the emitted formaldehyde. It was shown that the formaldehyde adsorption of chitosan was strongly influenced by the pH value of adhesive composition. The pH value and the adhesive gel time tended to increase with addition of chitosan powder, due to the proton affinity of chitosan. The mechanical and physical properties of panels did not significantly change when the chitosan content as scavenger was raised up to 3%, while a formaldeh...

Published

2018

22. Evaluation of low density hybrid panels using expandable granules: effect of granules diameter and content

Author

Jan Luedtke, Ali Shalbafan, and Saber Jafarnezhad

Subjects

040101 forestry, 0106 biological sciences, Pressing, Materials science, Forestry, Core (manufacturing), 04 agricultural and veterinary sciences, 01 natural sciences, chemistry.chemical_compound, chemistry, 010608 biotechnology, Low density, 0401 agriculture, forestry, and fisheries, General Materials Science, Fiber, Polystyrene, Composite material, Layer (electronics)

Abstract

Low density hybrid panels (16 mm thickness) were produced using wood fiber as face layers and a mixture of coarse wood particles and expandable polystyrene (EPS) as core layer. The EPS was foamed (in-situ foaming) in the core layer during the pressing stage. The effects of granules diameter (0.4, 0.8, 1.15, 1.5, and 2.2 mm) and granules content (5, 10, and 15%) on the physical and mechanical properties were evaluated. The results showed that both variables had significantly influenced the panels’ properties. Mechanical properties mostly depended on the level of mechanical inter-locking of EPS with wood particles, while the physical properties were mostly influenced by the EPS distribution. Stronger mechanical inter-locking of EPS with wood particles was achieved by both larger diameter and higher amount of EPS granules (2.2 mm and 15%). A better EPS distribution between the wood particles was observed with the smaller EPS granules and higher amount of EPS (0.4 mm and 15%).

Published

2018

23. Effect of aluminosilicate powders on the applicability of innovative geopolymer binders for wood-based composites

Author

Joachim Hasch, Johannes Welling, and Ali Shalbafan

Subjects

Materials science, Silica fume, 0211 other engineering and technologies, Forestry, 02 engineering and technology, Pozzolan, 021001 nanoscience & nanotechnology, Geopolymer, Aluminosilicate, Fly ash, 021105 building & construction, Shear strength, General Materials Science, Composite material, 0210 nano-technology, Pozzolanic activity, Metakaolin

Abstract

In this research, a new binder class for wood based composites, named geopolymer binder, was developed based on pozzolanic by-products (e.g. fly ash). Additionally, effects of different amounts of silica fume, as a replacement agent with other aluminosilicate components (e.g. fly ash and metakaolin), have been evaluated in the innovative binder. The Automated Bonding Evaluation System technique was used to characterize the bonding shear strength of the developed geopolymer binder. It was shown that the best shear strength for fly ash based binders was obtained by the lowest press temperature and longest pressing time. The addition of silica fume (from 20% up to 100%) significantly influenced the bonding shear strength in all binder types. Due to the chemical and mineralogical compositions, silica fume displays higher pozzolanic activity than metakaolin whereas fly ash shows lower strength in comparison to metakaolin. The silica fume (100%) based binder has also superior shear strength compared to those of conventional UF resin and other geopolymer binders. Bonding shear strength like that for UF resin was achieved by substituting only 20% silica fume in geopolymer binder compositions.

Published

2017

24. Development of a One-Step Process for Production of Foam Core Particleboards using Rigid Polyurethane Foam

Author

Kamran Choupani Chaydarreh, Johannes Welling, and Ali Shalbafan

Subjects

Reticulated foam, Rigid foam, Polyurethane, Environmental Engineering, Absorption of water, Materials science, lcsh:Biotechnology, Formaldehyde, Bioengineering, One-Step, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, chemistry.chemical_compound, Flexural strength, lcsh:TP248.13-248.65, Surface layer, Composite material, Waste Management and Disposal, Lightweight, Foam core particleboards, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, Aluminium foam sandwich, Sandwich, 0210 nano-technology

Abstract

A simulated one-step process has been developed for the production of foam core particleboards using rigid polyurethane as the core layer. The results showed that the different techniques used for surface layer separation (unresinated particles and sprayed water) and foam injections (open system and closed system) had no influences on panels’ characteristics. Mechanical properties (e.g., bending strength and internal bond strength) were mostly influenced by the surface layer thickness, while the water absorption and edge screw withdrawal were influenced by the foam cell structure. The use of sprayed water for surface layer separation doubled the formaldehyde emission (FE) of the panels. The addition of urea (based on 10% of the dry resin) to the sprayed water had a positive effect of reducing the final FE. Furthermore, increasing the surface layer thickness had a positive, linear relationship with FE.

Published

2016

25. Ultra-light particleboard: characterization of foam core layer by digital image correlation

Author

Heiko Thoemen, Ali Shalbafan, and Martin Rhême

Subjects

040101 forestry, Digital image correlation, Materials science, Process (computing), Forestry, Core (manufacturing), 04 agricultural and veterinary sciences, 02 engineering and technology, 021001 nanoscience & nanotechnology, Finite element method, Characterization (materials science), 0401 agriculture, forestry, and fisheries, Long term behavior, General Materials Science, Composite material, 0210 nano-technology, Layer (electronics), Sandwich-structured composite

Abstract

Increasing markets for internet traded furniture but also economic concerns are main driving forces to con siderably reduce the weight of wood based furniture panels. Recent research and technological developments have led to an innovative one step process which simplifies the typical multi step process for production of foam core panels. Three layered sandwich panels (with particleboard faces and polymeric in situ expanded foam as core layer) can be pro duced by a one step process without additional gluing between the face and core layers. As the morphology of the foam and hence its mechanical properties strongly depend on its chemical composition as well as on the process param eters during expansion there are no data available so far describing the foam of the novel panels. The aim of the proposed project is to determine the elastic properties of in situ expanded foams using 2D digital image correlation. The data can be used later on for the simulation of the elastic behavior of foam core particleboards by means of FEM to describe the short and long term behavior of the panels.

Published

2016

26. Biological Characterization of Panels Manufactured from Recycled Particleboards using Different Adhesives

Author

Jan T. Benthien, Ali Shalbafan, and Henrik Lerche

Subjects

Basidiomycetes, Environmental Engineering, Materials science, biology, lcsh:Biotechnology, Coniophora puteana, WPCs, Bioengineering, 02 engineering and technology, 010501 environmental sciences, 021001 nanoscience & nanotechnology, biology.organism_classification, 01 natural sciences, Recycled materials, Outdoor applications, lcsh:TP248.13-248.65, Gloeophyllum trabeum, Pleurotus ostreatus, Adhesive, Composite material, 0210 nano-technology, Waste Management and Disposal, High potential, 0105 earth and related environmental sciences

Abstract

Transforming waste or recycled materials into value-added products is of high priority today. Wood plastic composites (WPCs) show high potential for the use of recycled materials in making durable composites. The applicability of WPC panels produced from recycled materials (ultralight foam core particleboards) for exterior building application was tested using wood-destroying basidiomycetes. The results showed that the panels were fully resistant against Coniophora puteana (Cp) and Gloeophyllum trabeum (Gt), but not very resistant against Pleurotus ostreatus (Po). The decay susceptibility index of Po-exposed specimens showed that the polystyrene-bonded (PS) samples were more resistant than solid beech wood samples that were used as references, followed by melamine-urea formaldehyde-bonded samples. A comparison with the reference samples also showed that the panel density had a significant influence on the panel’s resistance against basidiomycetes. The higher the panel density, the more resistance will be achieved in the panel.

Published

2016

27. Geopolymers as potential new binder class for the wood based composite industry

Author

Joachim Hasch, Ali Shalbafan, and Johannes Welling

Subjects

0106 biological sciences, chemistry.chemical_classification, Materials science, biology, Composite number, Urea-formaldehyde, Sodium silicate, 02 engineering and technology, Polymer, Raw material, 021001 nanoscience & nanotechnology, biology.organism_classification, 01 natural sciences, Biomaterials, Abes, Geopolymer, chemistry.chemical_compound, chemistry, 010608 biotechnology, Composite material, 0210 nano-technology, Curing (chemistry)

Abstract

Geopolymer binders are an emerging class of mineral polymer that can be manufactured from natural raw materials and industrial byproducts containing high amounts of silica (Si) and alumina (Al) in mineral compositions. Various ratios of materials used for manufacturing geopolymer binder have been tested to evaluate the bonding performance of geopolymers with wood by means of tests performed on an automated bonding evaluation system (ABES). Tests with a binder based on sodium silicate water glass (Na 50T) are partly promising, which resulted only 10% lower shear strength than that based on urea formaldehyde. The binder characteristics were significantly influenced by changing the ratio of SiO2:M2O (M=Na or K) and the ratio solid content to chemical base in the water glass. Expectedly, increasing press temperatures and pressing times showed a positive correlation with the curing performance of geopolymer binder. It was also demonstrated that the binder properties can be changed in wide ranges to obtain binders which fulfill the minimum requirements set by industrial users.

Published

2016

28. Formaldehyde adsorption capacity of chitosan derivatives as bio-adsorbents for wood-based panels

Author

Mehdi Rahmaninia, Ali Shalbafan, and Hedi Hassannejad

Subjects

Materials science, Polymers and Plastics, General Chemical Engineering, Formaldehyde, macromolecular substances, 02 engineering and technology, Biomaterials, Chitosan, 03 medical and health sciences, chemistry.chemical_compound, Crystallinity, 0302 clinical medicine, Adsorption, stomatognathic system, Fourier transform infrared spectroscopy, Curing (chemistry), technology, industry, and agriculture, 030206 dentistry, Carbon-13 NMR, equipment and supplies, 021001 nanoscience & nanotechnology, carbohydrates (lipids), chemistry, Adhesive, 0210 nano-technology, Nuclear chemistry

Abstract

Chitosan and its derivatives (grafted chitosan and chitosan nanoparticles) were used as bio-based adsorbents in urea-formaldehyde (UF) resins, and accordingly, their effects on the curing behavior, resin structure, crystalline structure, and formaldehyde emission (FE) of final resin has been investigated. Synthesis of grafted chitosan and chitosan nanoparticles was confirmed by FTIR spectroscopy. Characteristics of UF resins were monitored by 13C NMR and X-ray diffraction. This analysis showed that the free formaldehyde and crystallinity of UF resin having chitosan-based adsorbents were substantially reduced. The FE was largely decreased in the medium density fiberboard (MDF) containing chitosan nanoparticles (60%), followed by grafted chitosan (34%) and chitosan powder (22%). A FE class of F**** (

Published

2020

29. Investigating the Possibility of Geopolymer to Produce Inorganic-Bonded Wood Composites for Multifunctional Construction Material – A Review

Author

Ali Shalbafan, Siti Noorbaini Sarmin, Johannes Welling, and Andreas Krause

Subjects

Wood composite, Inorganic binder, Environmental Engineering, Materials science, Waste management, lcsh:Biotechnology, Composite number, Bioengineering, Geopolymer, Environmentally friendly, lcsh:TP248.13-248.65, Alkaline activator, Composite material, Waste Management and Disposal

Abstract

Wood-based composites are widely used in consumer products, either in structural or non-structural applications. One of the basic elements for wood-based composites is the binder itself. Recent years have seen great development and trends in the field of eco-friendly binders in wood-based composite. There have been many concerns on the effects of formaldehyde and volatile organic compounds (VOC) released from wood-based products. Researchers have put lot of effort into developing environmental friendly products with enhanced sustainability. Binder materials with a focus on geopolymers (i.e., alumino-silicates) are discussed in this publication. The development and utilization of geopolymeric binders is relatively new in the field of wood-based composites. Up to the present there has been insufficient information regarding the manufacturing conditions and properties of wood-nonwood composite materials prepared using a geopolymeric binder. This paper considers the background of geopolymer materials and the possibilities of producing inorganic-bonded wood composite using geopolymer.

Published

2014

30. Treated and untreated foam core particleboards with intumescent veneer

Author

Mark A. Dietenberger, Ali Shalbafan, Charles R. Boardman, and Johannes Welling

Subjects

Materials science, medicine.medical_treatment, Core (manufacturing), Condensed Matter Physics, Cone calorimeter, Flame spread, medicine, Heat of combustion, Veneer, Physical and Theoretical Chemistry, Composite material, Intumescent, Fire retardant, Flammability

Abstract

The effectiveness of treatments for the surface layer of novel foam core particleboards was evaluated by means of Cone calorimeter tests. Foam core particleboards with variations of surface layer treatment, adhesives, and surface layer thicknesses under similar processing conditions were used to produce the test specimen for the Cone calorimeter tests. Ignitability, heat release rate profile, peak of heat release rate, total heat released, effective heat of combustion, mass loss rate, gaseous emissions, and specific extinction area were measured using the cone irradiance of 50 kW m−2. Additional analysis of this data provided fuel composition information that could reveal the pyrolysis events of the composite boards. Thermocouples at various depths were used to provide further verification of pyrolysis events. The unprotected foam core panels generally had much higher heat release rates, somewhat higher heat of combustion and much higher smoke production due to the polymeric foam component of tested panels, whereas time to ignition and total heat release were not pronounced from the veneer treated boards. Adding the commercial fire retardant veneer to the face particleboard provided a dramatic improvement to the measured flammability properties. It worked sufficiently well with a 3 mm thick surface layer to improve the predicted flame spread rating of the foam core particleboards.

Published

2013

31. Effect of processing parameters on physical and structural properties of lightweight foam core sandwich panels

Author

Jan Luedtke, Ali Shalbafan, and Johannes Welling

Subjects

Pressing, Absorption of water, Materials science, High interest, Aluminium foam sandwich, Immersion (virtual reality), medicine, General Materials Science, Core (manufacturing), Composite material, Swelling, medicine.symptom, Sandwich-structured composite

Abstract

Weight reduction is becoming an important topic for the wood-based panels industry. Recent development for foam core particleboard in an integrated process has a great potential to replace heavy conventional particleboards. For further progress of these new types of panels, exploring the physical properties is of high interest. In this study, the effect of two different sets of process parameters (press temperature, pressing and foaming times) on the physical properties and dimensional stability of foam core panels was examined. Panels produced by a lower press temperature (130°C) have a better surface quality. Thickness swelling of panels in short- (2 h) and long-term (24 h, 14 days) immersion shows different trends due to the different attained foam structures. Small inter cellular voids between the foam cells formed during the in situ foaming process play an important role for the water absorption values, especially in short-term immersion. Different process parameters caused different fusion ...

Published

2013

32. Fire performances of foam core particleboards continuously produced in a one-step process

Author

Ali Shalbafan, Johannes Welling, and Mark A. Dietenberger

Subjects

Materials science, Forestry, Core (manufacturing), Calorimetry, Fire performance, law.invention, Ignition system, chemistry.chemical_compound, chemistry, law, General Materials Science, Heat of combustion, Polystyrene, Surface layer, Composite material, Flammability

Abstract

For further progress of novel foam core particleboards, their fire performance was examined with cone calorimetry tests (ASTM E 1354-11a). Specimens with varying surface layer thicknesses, foam densities (polystyrene foam), and processing temperatures were tested. Using the initially recommended cone irradiance of 35 kW/m2, different flammability parameters were measured. In comparison to particleboards, the foam core panels generally had much higher heat release rates, somewhat higher heat of combustion and much higher smoke production due to the EPS-foam component of tested panels. The time to ignition and total heat release did not vary significantly among the samples, although certain trends could be explained. The effects of variations in specimen foam densities and processing temperatures on the flammability parameters were not very significant. However, the flammability properties improved towards that of the reference particleboard as the surface layer thickness increased from 3 to 5 mm.

Published

2012

33. Comparison of foam core materials in innovative lightweight wood-based panels

Author

Johannes Welling, Jan Luedtke, Ali Shalbafan, and Heiko Thoemen

Subjects

Specific strength, chemistry.chemical_compound, Materials science, chemistry, Flexural strength, education, General Materials Science, Forestry, Core (manufacturing), Polystyrene, Composite material, Internal bond, Microsphere

Abstract

In the present paper, lightweight wood-based foam core panels were produced in a novel continuous process. Expandable microspheres (MS) and expandable polystyrene (EPS) were used as core materials. The influence of surface thickness and core materials on bending strength, internal bond and specific strength of the produced panel were investigated. With increasing the surface thickness, bending strength was increased in both core types of panels. The internal bond value of the panels with expandable microspheres was steadily raised while the surface thickness was increased. The internal bond for the expandable polystyrene with increasing face thickness was reduced. In comparison with conventional particleboards, the specific bending strength and internal bond were increased. In addition, FE-SEM-microscopy and gamma-ray densitometry were used to characterize the panels.

Published

2011

34. Internal decay assessment in standing beech trees using ultrasonic velocity measurement

Author

Saeed Kazemi-Najafi, Ghanbar Ebrahimi, and Ali Shalbafan

Subjects

Materials science, biology, business.industry, Small volume, Acoustics, Wave velocity, Forestry, Plant Science, Forest health, biology.organism_classification, Nondestructive testing, Ultrasonic velocity, Fagus orientalis, Ultrasonic sensor, business, Beech

Abstract

Ultrasonic wave timing inspection was used to detect the internal decay in standing Iranian beech trees (Fagus orientalis). To evaluate the influence of internal decay on ultrasonic velocity, healthy round sections of freshly cut fallen beech trees were selected. Holes [as heart or internal decay indicator and with different shapes (circular and slot) and locations] were manually created and progressively enlarged in the wood section disks, and ultrasonic wave velocity was measured by using a commercial ultrasonic tester (Sylvatest Duo). The results showed that ultrasonic wave velocity linearly and significantly decreased by increasing hole dimensions, and location of holes had no influence on the extent and trend of velocity decrease. Although slots covered a small volume fraction of disks, they had a greater effect on ultrasonic velocities reduction as compared with circular holes.

Published

2009

35. Development of plywood using geopolymer as binder: effect of silica fume on the plywood and binder characteristics

Author

Johannes Welling, Masoud Bahrami, and Ali Shalbafan

Subjects

040101 forestry, 0106 biological sciences, Materials science, Silica fume, Starch, Formaldehyde, Forestry, 04 agricultural and veterinary sciences, 01 natural sciences, Geopolymer, chemistry.chemical_compound, Flexural strength, chemistry, Aluminosilicate, 010608 biotechnology, 0401 agriculture, forestry, and fisheries, General Materials Science, Adhesive, Composite material, Metakaolin

Abstract

Geopolymers show good potential to be used as free formaldehyde-based binder to produce wood-based panels. Hence, the objective of this research was to investigate the geopolymer composition as binder on the physical and mechanical properties of multi-layered plywood. The geopolymer binder was prepared based on kaolin and metakaolin as the major aluminosilicate powder that were substituted with different contents of silica fume. The results showed that the substitution of aluminosilicate with silica fume (up to 20% based on weight) in the geopolymer mixture modified the chemistry of the geopolymerisation, and hence, improved the amorphous structures of the geopolymer binder. In summary, the substitution of aluminosilicate with silica fume (up to 20% based on weight) in the geopolymer mixture improved the geopolymer binder cohesion, reduced the binder viscosity, reduced the binder curing time, increased the binder penetration into the superficial wood cells, increased the binder shear strength, increased the bending strength of plywood, and accordingly, reduced the plywood stiffness. Notably, none of the plywood samples did delaminate even after 672 h water immersion, implying that the geopolymer binder-based products have a better stability in water compared to some organic binders (e.g., adhesives based on tannin, soya and starch), which suffer from hydrolysis after immersion in water. All in all, the geopolymer binder based on metakaolin showed promising potential to be used as formaldehyde-free binder to produce plywood.

36. Effect of ingredient ratios of rigid polyurethane foam on foam core panels properties

Author

Johannes Welling, Kamran Choupani Chaydarreh, and Ali Shalbafan

Subjects

0106 biological sciences, Materials science, Absorption of water, Polymers and Plastics, Core (manufacturing), 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Isocyanate, Surfaces, Coatings and Films, Polyester, chemistry.chemical_compound, Ingredient, Flexural strength, chemistry, 010608 biotechnology, Materials Chemistry, medicine, Composite material, Swelling, medicine.symptom, 0210 nano-technology, Polyurethane

Abstract

One-step manufacturing process (in-situ foaming) provide great potential for the production of foam core panels. Polyurethane (PU) foam showed good applicability for use for in-situ foaming. Here, the effect of ingredient ratios of rigid PU foam on foam performance and panel properties is investigated. It was observed that the isocyanate (ISO) content and polyols (PO) type and content significantly change the foam and panel properties. Foam cell density, as the most important factor influencing the foam characteristics, was higher in foams with higher ISO and polyether content. Bending strength, internal bond and screw withdrawal resistance of the foam core panels were significantly enhanced when the ISO and polyether content was increased in the foam formulation. Varying the ISO content had no influence on panel properties with higher content of polyester (60%) in the PO blend. Varying the foam ingredient ratios did not change the thickness swelling, while the water absorption was dependent on the foam components ratios. © 2016 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2016, 133, 44722.

37. Effect of blowing agent concentration on rigid polyurethane foam and the properties of foam-core particleboard

Author

Kamran Choupani Chaydarreh, Ali Shalbafan, and Johannes Welling

Subjects

chemistry.chemical_compound, Materials science, chemistry, Blowing agent, General Materials Science, Core (manufacturing), Sandwich panel, Composite material, Polyurethane

Abstract

In this research, a sandwich panel with particleboard as surface layers and rigid polyurethane (PU) foam as core layers (foam-core particleboard) was produced with a one-step in situ foaming proces...

38. Cone calorimeter testing of foam core sandwich panels treated with intumescent paper underneath the veneer (FRV)

Author

Ali Shalbafan, Johannes Welling, and Mark A. Dietenberger

Subjects

040101 forestry, Materials science, Polymers and Plastics, medicine.medical_treatment, Metals and Alloys, Core (manufacturing), 04 agricultural and veterinary sciences, 02 engineering and technology, General Chemistry, Sandwich panel, 021001 nanoscience & nanotechnology, Electronic, Optical and Magnetic Materials, Cone calorimeter, Ceramics and Composites, medicine, 0401 agriculture, forestry, and fisheries, Veneer, Composite material, 0210 nano-technology, Sandwich-structured composite, Intumescent