Your search keyword '"André Wagenführ"' showing total 33 results

1. Investigations into the swelling pressure of wood as a function of the anatomical direction

Author

Mario Zauer, Juliane Porath, Robert Krüger, and André Wagenführ

Subjects

Physics, QC1-999

Abstract

The swelling pressure as a function of the anatomical cutting direction of European beech [Fagus sylvatica L.] and Norway spruce [Picea abies (L.) Karst.] was determined at 20 °C between 25 and 85 % relative humidity (RH). The RH was increased in steps of 20 %. The uniaxial tests were carried out on test specimens with a small cross-section. As a result, it was found that beech produces almost twice as high swelling pressures as spruce during impeded swelling. The maximum swelling pressures are reached more quickly with spruce. For both types of wood, significantly higher swelling pressures were measured in the respective tangential cutting direction than in the radial cutting direction.

Published

2025

2. Transfer of the Interlaminar Shear Test to Veneer Layer-based Composites for Qualitative Evaluation of Layer Adhesion

Author

Carolin Siegel, Beate Buchelt, and André Wagenführ

Subjects

veneer, wood, adhesion, ils, bending, quality test, Biotechnology, TP248.13-248.65

Abstract

This study aimed to investigate the suitability of the interlaminar shear (ILS) testing method for veneer-based composites. The ILS testing method is an established method for composite materials as a qualitative evaluation of the adhesion within the composite. The applicability of this method to veneer based composites enables a simple qualitative statement on the adhesion of the individual layers. The ILS method complements existing wood-based material tests that focus on bonding, using significantly smaller material dimensions.

Published

2022

3. 70 years of wood modification with fungi

Author

Stephanie Stange and André Wagenführ

Subjects

Fungal wood treatment, Myco-wood, Mycological wood modification, Myko-Holz, Walter Luthardt, Biotechnology, TP248.13-248.65

Abstract

Abstract To obtain special wood properties for various technical applications, fungi with their broad spectrum of activity can make a contribution. The foundations for today's mycological wood modifications were laid by researchers who wanted to increase the yield of edible mushrooms. They noticed the changed properties of the wooden substrate by the progressive wood degradation. Controlled use of fungi and an eye for the technical benefits of mycologically degraded wood revolutionized the fundaments of wood modification, primarily biological. In this context, the so-called Myko-Holz (myco-wood) plays a unique role and influences the current research for pencil wood, tone wood or even spalting.

Published

2022

4. Damping Behavior of Thermoplastic Organic Sheets with Continuous Natural Fiber-Reinforcement

Author

Martin Dannemann, Sebastian Siwek, Niels Modler, André Wagenführ, and Johannes Tietze

Subjects

natural fiber, composite, flax fiber, damping, loss factor, directional dependence, Physics, QC1-999

Abstract

In the field of lightweight construction, the use of natural fibers as reinforcement in composites has been increasingly discussed. Additionally, the damping properties of natural fibers are known from fiber materials such as fiber insulation boards. In the scope of the work presented here, the focus is on identifying the potential of natural fibers for lightweight structures with high vibration damping capacity. For this purpose, test specimens made of flax fiber-reinforced and glass fiber-reinforced thermoplastic composites were manufactured and characterized. Contrary to expectations, the flax fiber-reinforced composite exhibited an almost isotropic damping characteristic. A comparison of the damping and stiffness properties determined by measurement confirms the high potential of natural fiber-reinforced materials for lightweight structures with high damping.

Published

2021

5. Production of natural colorants by liquid fermentation with Chlorociboria aeruginascens and Laetiporus sulphureus and prospective applications

Author

Marlen Zschätzsch, Susanne Steudler, Olena Reinhardt, Pia Bergmann, Franziska Ersoy, Stephanie Stange, André Wagenführ, Thomas Walther, Ralf Günter Berger, and Anett Werner

Subjects

Chlorociboria aeruginascens, xylindein, Laetiporus sulphureus, laetiporic acid, natural dye, Biotechnology, TP248.13-248.65

Abstract

Abstract The replacement of potentially hazardous synthetic dyes with natural dyes and pigments are of great interest for a sustainable economy. In order to obtain cost‐efficient, environmentally friendly and competitive products, improvements in the cultivation and extraction of pigment‐producing organisms and in dyeing processes are necessary. In our study, we were able to scale up the production of xylindein by Chlorociboria aeruginascens from 3 to 70 L bioreactor cultivations. We have identified important bioprocess parameters like low shear stress (150 rpm, tip speed

Published

2021

6. Characterization of acoustic and mechanical properties of common tropical woods used in classical guitars

Author

Robert Sproßmann, Mario Zauer, and André Wagenführ

Subjects

Physics, QC1-999

Abstract

There is a need of substitution woods for the use in musical instruments because of the limited availability of some commonly used tropical tonewoods. Before substitutions can be found, it is necessary to know about the required properties. Hence, in this paper acoustical, mechanical and physical properties of four common tropical hardwoods (Indian rosewood, ziricote, African blackwood and ebony) were determined because there are less literature values for some properties available, e.g. internal friction, hardness or swelling behaviour. The acoustic properties were determined by means of experimental modal analysis, the mechanical properties by means of static bending tests and tests of the Brinell hardness. For the swelling behaviour the volume swelling and also the differential swelling coefficients were determined. With the results it is possible to look for new ‘tonewoods’ or to specifically modified woods, e.g. thermally treated wood, to substitute tropical wood species. Keywords: Classical guitars, Acoustic properties, Mechanical properties, Tropical woods, Modal analysis

Published

2017

7. Not Only Delicious: Papaya Bast Fibres in Biocomposites

Author

Thea Lautenschläger, Andreas Kempe, Christoph Neinhuis, André Wagenführ, and Sebastian Siwek

Subjects

Biocomposites, Papaya bast fibres, Biomechanical properties, By-products, Biotechnology, TP248.13-248.65

Abstract

Previous studies have shown favourable properties for papaya bast fibres, with a Young's modulus of up to 10 GPa and a tensile strength of up to 100 MPa. Because the fibres remain as residues on papaya plantations across the tropics in large quantities, their use in the making of green composites would seem to be worthy of consideration. This study aims to show that such composites can have very suitable mechanical properties, comparable to or even better than the common wood plastic composites (WPCs), and as such, represent a promising raw material for composites and a low-cost alternative to wood.

Published

2016

8. Flame Retardancy of Wood Fiber Materials Using Phosphorus-Modified Wheat Starch

Author

Stefan Gebke, Katrin Thümmler, Rodolphe Sonnier, Sören Tech, André Wagenführ, and Steffen Fischer

Subjects

wood fiber, starch derivatives, biopolymer-based flame retardants, smoldering, phosphate, carbamate, urea, Organic chemistry, QD241-441

Abstract

Biopolymer-based flame retardants (FR) are a promising approach to ensure adequate protection against fire while minimizing health and environmental risks. Only a few, however, are suitable for industrial purposes because of their poor flame retardancy, complex synthesis pathway, expensive cleaning procedures, and inappropriate application properties. In the present work, wheat starch was modified using a common phosphate/urea reaction system and tested as flame retardant additive for wood fibers. The results indicate that starch derivatives from phosphate/urea systems can reach fire protection efficiencies similar to those of commercial flame retardants currently used in the wood fiber industry. The functionalization leads to the incorporation of fire protective phosphates (up to 38 wt.%) and nitrogen groups (up to 8.3 wt.%). The lowest levels of burning in fire tests were measured with soluble additives at a phosphate content of 3.5 wt.%. Smoldering effects could be significantly reduced compared to unmodified wood fibers. The industrial processing of a starch-based flame retardant on wood insulating materials exhibits the fundamental applicability of flame retardants. These results demonstrate that starch modified from phosphate/urea-systems is a serious alternative to traditional flame retardants.

Published

2020

9. Influence of Environmental Growth Factors on the Biomass and Pigment Production of Chlorociboria aeruginascens

Author

Stephanie Stange, Susanne Steudler, Hubertus Delenk, Anett Werner, Thomas Walther, and André Wagenführ

Subjects

Chlorociboria aeruginascens, xylindein, fungal pigments, fungal growth conditions, fungal polyketides, Biology (General), QH301-705.5

Abstract

The soft rot fungus Chlorociboria aeruginascens produces a blue−green pigment xylindein, which is of considerable interest for various applications such as in the veneer industry or in organic semiconductors. To understand the fungal growth as well as pigment production of C. aeruginascens, several studies were performed, the results of which are presented here. These studies investigated various growth conditions such as temperature, pH value, oxygen level and light intensity. It was observed that the formation of xylindein by C. aeruginascens decoupled from growth. In the primary metabolismus, the uncolored biomass is formed. Pigment production took place within the secondary metabolism, while biomass growth as well as pigment production depended on various growth conditions. It was also found that certain conditions encourage the switch in metabolism, leading to pigment production.

Published

2019

10. Influence of the Nutrients on the Biomass and Pigment Production of Chlorociboria aeruginascens

Author

Stephanie Stange, Susanne Steudler, Hubertus Delenk, Anett Werner, Thomas Walther, and André Wagenführ

Subjects

Chlorociboria aeruginascens, xylindein, fungal pigments, fungal growth conditions, fungal polyketides, nitrogen limitation, Biology (General), QH301-705.5

Abstract

The blue-green pigment xylindein, produced by the soft rot fungus Chlorociboria aeruginascens, is of considerable interest for various applications such as the veneer industry or organic semiconductors. The studies presented were performed in order to understand the fungal growth as well as the pigment production of C. aeruginascens. Therefore, various nutrient compositions were investigated. As a result, observations of the formation of xylindein through C. aeruginascens decoupling from growth were made. In the primary metabolism the uncolored biomass is formed. Various carbohydrates were determined as nutrients for the fungus and as a nitrogen source it was observed that the fungus prefers the complex organic nitrogen source, that being yeast extract. Furthermore, it was discovered that the ratio between carbohydrate and nitrogen sources encourages the switch of the metabolism and therewith the production of the blue-green pigment xylindein.

Published

2019

11. Investigations of the Compressive Behaviour of Veneer in Thickness Direction

Author

Beate Buchelt, Alexander Pfriem, and André Wagenführ

Subjects

compression test, deformation, light microscope, stress-strain curve, veneer, Forestry, SD1-669.5

Abstract

Compression tests were conducted with veneers in the thickness direction. Thereby differences between the stress-strain curves of veneers and other known stress-strain curves were observed. Based on microscopic studies during the compression, it was possible to describe the deformation behaviour of the veneer, and deviations from known, typical stress-strain curves were substantiated and explained. It was found that a considerable part of the strain occurs by straightening the veneer at a relatively low stress level due to the waved form of veneer sheets and specimens. A distinctive stress plateau has not been established.

Published

2012

12. Swelling of beech wood (Fagus sylvatica L.) during gaseous ammonia treatment as a function of pressure

Author

Herwig Hackenberg, Mario Zauer, Tobias Dietrich, and André Wagenführ

Abstract

This paper deals with the optical observation and evaluation of the swelling of beech wood samples (Fagus sylvatica L.) during gaseous ammonia treatment. The pressure level was varied in several experiments from ambient pressure to almost saturated steam pressure at isothermal conditions at 20°C. The initial moisture content of the wood was oven-dried and also conditioned (65% RH/ 20°C). All experiments were carried out in a self-developed experimental set-up. It consisted of three parts: a pressure vessel with a glass pane at the top, a camera with additional lighting above it and an algorithm for the semi-automatic evaluation of the data. Parallel investigation of the maximum swelling in water of specimens of the same origin showed that ammonia leads to a higher swelling in tangential direction (up to 23%). The swell-inhibiting influence by the wood rays can be observed on the basis of the comparison to the water swelling in radial direction. Furthermore, the results visualise the change in crystal structure from cellulose I to ammonia-cellulose I.

Published

2023

13. The vibrational properties of native and thermally modified wood in dependence on its moisture content

Author

Beate Buchelt, Robert Krüger, and André Wagenführ

Subjects

General Materials Science, Forestry

Abstract

The vibrational properties of spruce (Picea abies Karst.) and European beech (Fagus sylvatica L.) were investigated in this study in dependence on the relative humidity (RH). The RH was measured at 20 °C ranging from oven-dried to 85%. For the evaluation of the vibrational properties the dynamic modulus of elasticity E’ and the damping coefficient tan δ were measured at 7 climate steps. The same samples used for the vibrational tests were afterwards mildly thermally modified at 180 °C and measured at the same climate steps. Both wood species were compared and evaluated considering the property changes (E’, tan δ, sorption isotherms and volume swelling) due to the thermal modification. The chosen modification resulted in a marginal change in the vibrational properties of spruce, whereas the properties of beech were clearly changed. The vibrational properties of beech could be improved in the usual RH range (35–85%) due to this thermal modification. For spruce, it was concluded that a mild modification, conducted in this study, is not suitable for improving the vibrational properties. Further conclusions concerning the underlying causes as well as the use in musical instruments were drawn.

Published

2023

14. Investigation on the potential of poplar bark from short-rotation coppices as bio-based fungicidal additives

Author

Martina Bremer, Steffen Fischer, Javane Oktaee, André Wagenführ, and Daniela Einer

Subjects

0106 biological sciences, Renewable Energy, Sustainability and the Environment, Chemistry, Adverse conditions, fungi, Extraction (chemistry), Bio based, 15. Life on land, 01 natural sciences, Fungicide, Terpene, Horticulture, 010608 biotechnology, visual_art, visual_art.visual_art_medium, Bark, Agronomy and Crop Science, Chemical composition, 010606 plant biology & botany, Energy (miscellaneous)

Abstract

Bark on trees protects the plant against environmentally adverse conditions as well as fungi and insect attacks. There are different chemical substances, mostly in the outer bark of trees, which can stop fungi from developing. Bark as a by-product of wood plantations is available in high quantity and can serve as an excellent source for the production of eco-fungicides. In the presented article, bark of various poplar clones from two short-rotation coppices (SRC) in Poland and Germany was examined to determine the chemical composition, the possible extraction of potential fungicides (terpenes, aromatic and phenolic substances), and influence of their extracts on slowing the growth of mold fungi. It was proved that the content of the fungicidal substances depends strongly on the clone type. Two methods of extraction—Soxhlet and batch—were compared to obtain fungicidal extracts. Fungicidal substances were found in extracts gained with both approaches. Triterpenes, fatty acids, aldehydes, and alcohols were primarily the active fungicides in the Soxhlet extracts, whereas phenolic substances act as fungicides in the batch extracts.

Published

2021

15. Comparison of methods for determining shear modulus of wood

Author

Robert Krüger and André Wagenführ

Subjects

040101 forestry, 0106 biological sciences, biology, Linear elasticity, Forestry, Picea abies, 04 agricultural and veterinary sciences, biology.organism_classification, Orthotropic material, 01 natural sciences, Shear modulus, Shear (sheet metal), Fagus sylvatica, 010608 biotechnology, 0401 agriculture, forestry, and fisheries, General Materials Science, Direct shear test, Composite material, Beech, Mathematics

Abstract

In this study, the relatively new picture frame method applied to wood is compared with three established shear test methods, namely the experimental modal analysis, the square plate twist method and the torsion test. For the investigations, the wood species European beech (Fagus sylvatica L.) and spruce (Picea abies L. Karst.) were used and the shear tests were conducted in LR and RL direction. The results show comparable shear moduli for beech and spruce in the range of 931–1289 Nmm−2 and 495–842 Nmm−2, respectively. In contrast to the theory of linear elastic orthotropic materials, significant differences in the results of the picture frame method between LR and RL direction were observed for spruce.

Published

2020

16. Investigations on the Characterization of Various Adhesive Joints by Means of Nanoindentation and Computer Tomography

Author

Arkadiusz Bernaczyk, André Wagenführ, Robert Zboray, Alexander Flisch, Thomas Lüthi, Birgit Vetter, Mario Rentsch, Christian Terfloth, Jörg Lincke, Tomasz Krystofiak, and Peter Niemz

Subjects

wood adhesives, Trävetenskap, General Materials Science, Wood Science, adhesive joint, mechanical properties, beech, wood gluing, hardness

Abstract

The mechanical properties of cured wood adhesive films were tested in a dry state by means of nanoindentation. These studies have found that the application of adhesives have an effect on the accuracy of the hardness and elastic modulus determination. The highest values of hardness among the tested adhesives at 20 °C have condensation resins: MF (0.64 GPa) and RPF (0.52 GPa). Then the decreasing EPI (0.43 GPa), PUR (0.23 GPa) and PVAc (0.14 GPa) adhesives. The values of the elastic modulus look a little bit different. The highest values among the tested adhesives at 20 °C have EPI (11.97 GPa), followed by MF (10.54 GPa), RPF (7.98 GPa), PVAc (4.71 GPa) and PUR (3.37 GPa). X-ray micro-computed tomography was used to evaluate the adhesive joint by the determination of the voids. It has been proven that this value depends on the type of adhesive, glue quantity and reactivity. The highest values of the void ratio achieve the PUR (17.26%) adhesives, then PVAc (13.97%), RRF (6.88%), MF (1.78%) and EPI (0.03%). The ratio of the gaps increases with the higher joint thickness. A too high proportion of voids may weaken the adhesive joint. Validerad;2023;Nivå 2;2023-01-01 (johcin)

Published

2022

17. Investigation of Friction Coefficients of Veneers as a Function of Fibre Direction and Moisture Content

Author

Beate Buchelt and André Wagenführ

Subjects

Materials science, veneer, friction, friction coefficients, wood moulded parts, Forestry, Function (mathematics), Composite material, Water content, furnir, trenje, koeficijent trenja, drveni otpresci

Abstract

During the manufacture of veneer based moulded parts, veneers move against one another. Friction is caused due to this movement. Different conditions, such as gluing or fibre direction, could influence the friction coefficients and thus the moulding process. For a better understanding of the manufacturing process of veneer based moulded parts, it is important to know which parameters influence friction and friction coefficients. In this paper, results of friction investigations are presented. Thereby the moisture content of the used veneers was varied as well as the fibre direction. Considering the manufacture conditions, the investigations were also conducted with glue-coated veneers. The results prove an influence of fibre direction but this influence depends on moisture content., Tijekom proizvodnje furnirskih otpresaka furniri se gibaju jedan nasuprot drugome. Zbog toga gibanja nastaje trenje. Različiti uvjeti kao što su lijepljenje i smjer protezanja vlakanaca mogu utjecati na faktor trenja, a time i na proces izrade otpresaka. Za bolje razumijevanje procesa proizvodnje furnirskih otpresaka važno je znati koji čimbenici utječu na trenje i faktor trenja. U ovom su radu prezentirani rezultati istraživanja trenja između furnira. Varirani su sadržaj vode upotrijebljenih furnira, kao i smjer protezanja vlakanaca. Uzimajući u obzir i proizvodne uvjete, istraživanje se provodilo i s furnirima premazanim ljepilom. Rezultati su potvrdili utjecaj smjera protezanja vlakanaca, ali taj utjecaj ovisi o sadržaju vode u furniru.

Published

2019

18. Damping Behavior of Thermoplastic Organic Sheets with Continuous Natural Fiber-Reinforcement

Author

Johannes Tietze, Niels Modler, André Wagenführ, Sebastian Siwek, and Martin Dannemann

Subjects

Materials science, Thermoplastic, QC1-999, Composite number, Physics::Optics, loss factor, 02 engineering and technology, bending resonance test, anisotropy, 010402 general chemistry, 01 natural sciences, Damping capacity, flax fiber, medicine, Fiber, composite, Composite material, Natural fiber, chemistry.chemical_classification, polar diagram, damping, Physics, Isotropy, Stiffness, directional dependence, 021001 nanoscience & nanotechnology, natural fiber, 0104 chemical sciences, Vibration, chemistry, dynamic material properties, medicine.symptom, 0210 nano-technology

Abstract

In the field of lightweight construction, the use of natural fibers as reinforcement in composites has been increasingly discussed. Additionally, the damping properties of natural fibers are known from fiber materials such as fiber insulation boards. In the scope of the work presented here, the focus is on identifying the potential of natural fibers for lightweight structures with high vibration damping capacity. For this purpose, test specimens made of flax fiber-reinforced and glass fiber-reinforced thermoplastic composites were manufactured and characterized. Contrary to expectations, the flax fiber-reinforced composite exhibited an almost isotropic damping characteristic. A comparison of the damping and stiffness properties determined by measurement confirms the high potential of natural fiber-reinforced materials for lightweight structures with high damping.

Published

2021

19. Alteration of Bending Properties of Wood Due to Ammonia Treatment and Additional Densification

Author

Herwig Hackenberg, Tobias Dietrich, André Wagenführ, Katharina A. M. Hackenberg, and Mario Zauer

Subjects

gaseous ammonia treatment, Materials science, biology, beech wood, deflection, Stiffness, Forestry, Bending, mechanical properties, biology.organism_classification, Bulk density, bending test, Ammonia, chemistry.chemical_compound, chemistry, Flexural strength, Fagus sylvatica, Deflection (engineering), densification, medicine, QK900-989, Composite material, medicine.symptom, Plant ecology, Beech

Abstract

This paper deals with comparative studies of bending behavior of untreated and modified European beech (Fagus sylvatica L.), European oak (Quercus spp.) and black locust (Robinia pseudoacacia L.). The modification of the woods included both ammonia treatment and ammonia treatment in combination with mechanical densification. For each ammonia treatment, pure gaseous ammonia was used. The investigations were conducted by means of three-point bending tests. The bulk density increases significantly due to ammonia treatment and, furthermore, due to additional mechanical densification. The modulus of rupture is not affected by ammonia treatment. Additional mechanical densification, however, leads to a strong increase in the strength and stiffness. The deflection behavior changes in such a way that the ammonia treatment leads to an increase in deflection, and the additional mechanical densification further reinforces this trend.

Published

2021

20. Aqueous poly(N-Vinylformamide-co-Vinylamine) as a suitable adhesion promoter for wood veneer/biopolyethylene composite materials

Author

Rico John, Katja Trommler, Katja Schreiter, Carolin Siegel, Frank Simon, André Wagenführ, and Stefan Spange

Subjects

Environmental Engineering, Bioengineering, Waste Management and Disposal

Abstract

Wood veneer/biopolyethylene (bio-PE) biocomposite materials were produced by using poly(N-vinylformamide-co-vinylamine) (PVFA-co-PVAm) copolymers as a phase-mediating reagent. In a preliminary step, PVFA-co-PVAm was adsorbed onto the wood veneer component from aqueous solution. In its adsorbed form, it served as an adhesion promoter and improved the compatibility between both the highly polar wood veneer and weakly polar bio-PE surface. Structural parameters and their effect on the adsorption process, such as the degree of hydrolysis (DH) of poly(N-vinylformamide) (PVFA) (30, 50, and > 90%), the molecular weight of PVFA-co-PVAm (Mw 10,000, 45,000, or 340,000 g/mol), and the pH value (4, 7, and 11) influenced the resulting wetting behavior of the PVFA-co-PVAm-modified wood veneer surface. Thus, the hydrophobizing effect of the PVFA-co-PVAm was clearly detectable because the contact angle with water was considerably increased up to 116° by adsorption of PVFA-co-PVAm 9095 at pH 11. The adsorbed amount of PVFA-co-PVAm was determined by energy-dispersive X-ray (EDX) spectroscopy and X-ray photoelectron spectroscopy (XPS). The PVFA-co-PVAm-coated wood veneers were consolidated with bio-PE in a hot press process. The modified composite materials showed remarkably improved Young’s moduli (552 MPa) and tensile strengths (4.5 MPa) compared to former composite materials produced without PVFA-co-PVAm modification.

Published

2017

21. Identification of fungicidal components in poplar bark from short rotation plantations

Author

Prof. Dr. rer. nat. Steffen Tobisch, Prof. Dr.-Ing. André Wagenführ, Einer, Daniela, Bremer, Martina, Oktaee, Javane, Fischer, Steffen, Wagenführ, André, Prof. Dr. rer. nat. Steffen Tobisch, Prof. Dr.-Ing. André Wagenführ, Einer, Daniela, Bremer, Martina, Oktaee, Javane, Fischer, Steffen, and Wagenführ, André

Abstract

Growth of mould fungi on packaging material reduces the product quality. Eco-fungicidal substances ensure an environmentally friendly approach to prevent this problem during the service life of the product. The bark of poplar trees, as a by-product of short rotation plantations, can be a new source for obtaining bio-fungicidal substances. The types and amount of the eco-fungicidal substances in different poplar clones were investigated with GC/MS and extracted from the raw material with different methods and adapted solvent series. After applying the eco-fungicidal substances to packaging material exposed to a mixture of mould fungi, the resistance against mould growth was monitored for several weeks. The bark extracts have shown promising results in reducing the growth speed of the mould and testing of separate fungicidal substances in the bark showed that substances such as phenol, chatecol and salicylic alcohol can prevent the mould growth.:1 Introduction 2 Material and Methods 2.1 Poplar bark 2.2 Bark Extraction 2.3 Bark fibre production 2.4 Laboratory sheets 2.5 Mould fungi 3 Results and discussion 3.1 Fungicidal components in poplar bark 3.2 Evaluating the fungicidal properties 4 Outlook 5 Acknowledgement 6 Literature, Ein Wachstum von Schimmelpilzen auf Verpackungsmaterialien reduziert deren Produktqualität. Biofungizide Substanzen stellen eine umweltfreundliche Variante zur Vermeidung dieses Problems während der Nutzungsdauer des Produktes dar. Pappelrinde als Nebenprodukt von Kurzumtriebsplantagen ist neue Quelle für die Gewinnung fungizider Substanzen. Art und Menge der biofungiziden Substanzen wurden mittels GC/MS untersucht, die geeigneten Substanzen wurden mittels verschiedener Methoden und angepasster Lösemittelreihen aus dem Rohmaterial gewonnen. Verpackungsmaterialien mit applizierten biofungiziden Substanzen wurden einer Mischung aus verschiedenen Schimmelpilzen ausgesetzt. Die Resistenz gegenüber dem Wachstum der Schimmelpilze wurde über mehrere Wochen beobachtet. Die Rindenextrakte zeigten vielversprechende Ergebnisse bei der Reduzierung der Geschwindigkeit des Wachstums der Schimmelpilze. Die Prüfung ausgewählter, in der Rinde vorhandener Substanzen hat gezeigt, dass beispielsweise Phenol, Brenzcatechin und Salizylalkohol das Wachstum von Schimmelpilzen einschränken kann.:1 Introduction 2 Material and Methods 2.1 Poplar bark 2.2 Bark Extraction 2.3 Bark fibre production 2.4 Laboratory sheets 2.5 Mould fungi 3 Results and discussion 3.1 Fungicidal components in poplar bark 3.2 Evaluating the fungicidal properties 4 Outlook 5 Acknowledgement 6 Literature

Published

2019

22. Capillary pore-size distribution and equilibrium moisture content of wood determined by means of pressure plate technique

Author

Rudolf Plagge, Frank Meissner, André Wagenführ, and Mario Zauer

Subjects

040101 forestry, 0106 biological sciences, Pore size, Pressure plate, Distribution (number theory), Chemistry, Capillary action, 04 agricultural and veterinary sciences, 01 natural sciences, Equilibrium moisture content, Biomaterials, ddc:670, 010608 biotechnology, kapillare Porengrößenverteilung (CPSD), Gleichgewichts-Feuchtigkeitsgehalt (EMC), Fasersättigungspunkt (FSP), hohe relative Luftfeuchtigkeit (RH), Druckplattentechnik (PPT), thermisch modifiziertes Holz, 0401 agriculture, forestry, and fisheries, Composite material, capillary pore-size distribution (CPSD), equilibrium moisture content (EMC), fiber saturation point (FSP), high relative humidity (RH), pressure plate technique (PPT), thermally modified wood

Abstract

This paper deals with the determination of the capillary pore-size distribution (CPSD) and equilibrium moisture content (EMC) of untreated and thermally modified (TM) Norway spruce [Picea abies (L.) Karst.] by means of the pressure plate technique (PPT). Desorption experiments were conducted at very high values of relative humidity (RH) in the range between 99.2% and 100%. The thermal modification of spruce results in an alteration of the CPSD, owing to the formation of intercellular cracks in the middle lamella, as a result of cell-wall compression. The desorption curves for both untreated and TM spruce show an extremely upward bend at 99.97% RH. This step reflects an EMC of 38.1% for untreated spruce and 33.8% for TM spruce. None of the samples shrunk during the PPT measurements. Following desorption experiments at 97.4% RH, all samples shrunk. This step reflects an EMC of 27.9% for untreated spruce and 21.7% for TM spruce.

Published

2015

23. Characterization of Willow Bast Fibers (Salix spp.) from Short-Rotation Plantation as Potential Reinforcement for Polymer Composites

Author

Javane Oktaee, Thea Lautenschläger, André Wagenführ, Markus Günther, Anja Winkler, Christoph Neinhuis, and Mirko Lindner

Subjects

Willow, Thermogravimetric analysis, Environmental Engineering, Materials science, biology, Biomass, Bioengineering, 02 engineering and technology, Raw material, 021001 nanoscience & nanotechnology, biology.organism_classification, 020401 chemical engineering, Gas pycnometer, visual_art, Ultimate tensile strength, visual_art.visual_art_medium, Bast fibre, Bark, 0204 chemical engineering, Composite material, 0210 nano-technology, Waste Management and Disposal

Abstract

Short-rotation coppices have potential to be the future source of raw materials for many applications in the wood and paper industries. It is important to establish methods and products to handle their waste biomass. In this paper, the properties of bast fibers extracted from the bark of willow trees (Salix spp.) were evaluated for potential future use in the production of natural fiber-polymer composites. The anatomy of the fibers was investigated through optical and electron microscopy. The thermogravimetric analysis of these fibers showed that the major mass loss occurs at 257 °C. The density of the fibers was measured with a gas pycnometer (1.19 ± 0.2 g/cm3). The chemical analysis showed that willow bark fibers have a composition similar to willow wood. As an indicator of mechanical properties, single willow bast fibers were characterized by tensile tests. The results revealed values for tensile strength (307.6 ± 130.1 MPa) and Young’s modulus (16.9 ± 8.4 GPa) that are comparable to some commonly used natural fibers. The overall results showed that willow bast fibers have the required mechanical properties as well as thermal stability for application in reinforcement of polymers.

Published

2017

24. Zone line formation on artificial media and in hardwoods by basidiomycetes for production of spalted wood

Author

Susanne Steudler, André Wagenführ, Stephanie Gantz, Hubertus Delenk, and Thomas Bley

Subjects

040101 forestry, 0106 biological sciences, biology, Antibiosis, fungi, antagonism, artificial media, basidiomycetes, fungal interactions, hardwood, Lentinus tigrinus, mycological wood modification, spalted wood, zone lines, 04 agricultural and veterinary sciences, Fungus, Acer pseudoplatanus, biology.organism_classification, 01 natural sciences, Antagonismus, künstliche Medien, Basidiomyceten, Pilz-Interaktionen, Hartholz, Lentinus tigrinus, mykologische Holzmodifikation, gespleißtes Holz, Zonenlinien, Biomaterials, Lentinus tigrinus, Betula pendula, ddc:670, 010608 biotechnology, Botany, Hardwood, 0401 agriculture, forestry, and fisheries, Antagonism, Mycelium

Abstract

One of the visual modification of wood is the formation of dark zone lines (ZLs) via interaction of fungi. The result is called spalted wood, which has hitherto been produced mainly in small batches. The main goal of the present study is to further develop techniques for rapid formation of ZLs in hardwoods. Various white rot and brown rot fungi were tested to this purpose. Initially, interactions of 148 combinations of 17 basidiomycetes in malt extract agar were evaluated and their antagonistic interactions were characterised in order to identify fungal pairs capable of rapidly forming high-quality ZLs. Six types of interactions were observed, among others; antibiosis and inhibition in contact, which differ in terms of variables including mycelial overgrowth and zone line formation. Furthermore, 23 pairs of ZL forming fungi on malt extract agar were identified. Then the interactions of five selected pairs of fungi grown on the hardwood species Acer pseudoplatanus L., Betula pendula Roth. and Populus nigra L. were examined to assess their utility for controlled mycological wood modification, also in terms of a possible substrate dependency of their interactions. The results indicate that Lentinus tigrinus fungus is one of the best and quickest producer of ZLs in mycological wood modification.

Published

2017

25. The effects of thermal modification on the properties of two Vietnamese bamboo species, Part I: Effects on physical properties

Author

Martina Bremer, Vu Huy Dai, André Wagenführ, Le Xuan Phuong, Steffen Fischer, and Cong Trung Nguyen

Subjects

Bamboo, Environmental Engineering, Color difference, biology, Chemistry, Changes in physical properties, lcsh:Biotechnology, Bioengineering, Dendrocalamus barbatus, biology.organism_classification, Equilibrium moisture content, Thermal modification, Dendrocalamus asper, lcsh:TP248.13-248.65, Thermal, Low density, Composite material, Mass loss, Waste Management and Disposal

Abstract

Bamboo is a very interesting bioresource for use as a building material because of its properties of strength in combination with low density. However, its susceptibility to fungi and insects is problematic for its usage. Thermal modification is used in Vietnam to improve the durability and dimensional stability of bamboo. The thermal modification causes many changes related to the physical properties of bamboo, e.g., mass, color, and equilibrium moisture content (EMC). All these changes are dependent on the modification conditions (modification temperature and duration). The mass loss (ML), the color difference (ΔE*ab), and the reduction of EMC (ΔEMC) were due to the thermal modification increase with higher temperature and/or longer duration. Therefore the temperature had greater influence than the modification duration. The changes were slight at 130 °C (ML: 0.3…0.6 %; ΔE*ab: 3…5; ΔEMC: 0.5…0.8 % ), moderate at 180 °C (ML: 1,5…4 %; ΔE*ab: 21…37; ΔEMC: 3.6…4.4 %), but very strong at 220 °C (ML: 14…16 %; ΔE*ab: 46…51; ΔEMC: 5.6…5.7%). There are close correlations between the changes mentioned above.

Published

2012

26. Investigations of the Compressive Behaviour of Veneer in Thickness Direction

Author

André Wagenführ, Beate Buchelt, and Alexander Pfriem

Subjects

Low stress, Materials science, medicine.medical_treatment, compression test, deformation, veneer, Forestry, light microscope, SD1-669.5, Stress (mechanics), medicine, Veneer, stress-strain curve, Compression (geology), Deformation (engineering), Composite material

Abstract

Compression tests were conducted with veneers in the thickness direction. Thereby differences between the stress-strain curves of veneers and other known stress-strain curves were observed. Based on micro- scopic studies during the compression, it was possible to describe the deformation behaviour of the veneer, and deviations from known, typical stress-strain curves were substantiated and explained. It was found that a consider- able part of the strain occurs by straightening the veneer at a relatively low stress level due to the waved form of veneer sheets and specimens. A distinctive stress plateau has not been established.

Published

2012

27. Comparative analysis of thermally modified and native spruce loaded perpendicular to the grain

Author

Beate Buchelt, Alexander Pfriem, Mario Zauer, André Wagenführ, Institute of Wood and Paper Technology, and Technische Universität Dresden = Dresden University of Technology (TU Dresden)

Subjects

040101 forestry, 0106 biological sciences, Materials science, Scanning electron microscope, Forestry, 04 agricultural and veterinary sciences, Bending, Thermal treatment, 01 natural sciences, Radial direction, Brittleness, Flexural strength, 010608 biotechnology, Physical Sciences, Perpendicular, Fracture (geology), 0401 agriculture, forestry, and fisheries, General Materials Science, Composite material

Abstract

International audience; The aim of this work was to analyse the material behaviour of thermally modified and native spruce by load applied perpendicularly to the grain. Therefore, thermally modified and native samples were prepared for bending tests with the load in tangential direction. The bending strength in radial direction decreases significantly with the thermal treatment. The fracture surfaces in the tangential section of the bending samples after testing were analysed with a scanning electron microscope. For native samples, the typical failure was found in the intercellular area. For thermally modified samples, failure of the entire cell wall was observed. The material behaviour is more brittle, as demonstrated by the load-deflection curves, but also by anatomical studies of the fracture surfaces.

Published

2010

28. Naturfaserverbunde im Leichtbau

Author

André Wagenführ

Subjects

Materials science

Published

2017

29. Testing of set recovery of unmodified and furfurylated densified wood by means of water storage and alternating climate tests

Author

André Wagenführ, Beate Buchelt, and Tobias Dietrich

Subjects

Biomaterials, Set (abstract data type), chemistry.chemical_compound, Materials science, chemistry, ddc:670, Water storage, compression wood, densification, furfurylated wood, furfuryl alcohol, modified wood, set recovery, spring-back, Druckholz, Verdichtung, furfurylisiertes Holz, Furfurylalkohol, modifiziertes Holz, Wiederherstellung des Materials, Rückfederung, Composite material, Furfuryl alcohol

Abstract

Densification is a well-known method for improving the mechanical properties of wood. In the present study, unmodified and furfurylated wood samples were densified and submitted to cyclic water storage tests and cyclic alternating climate tests. Swelling coefficients and spring-back data were determined for the evaluation of the quality of densification. The study shows that results depend on the test method applied. Simple water storage tests do not reflect the behavior of densified wood in the high humidity range. The spring-back data of unmodified samples are more influenced by the testing method than those of the furfurylated ones.

Published

2014

30. Effects of Thermal Modification on the Properties of Two Vietnamese Bamboo Species. Part II: Effects on Chemical Composition

Author

V. H. Dai, Martina Bremer, Steffen Fischer, L. X. Phuong, André Wagenführ, and Trung Cong Nguyen

Subjects

Bamboo, Environmental Engineering, biology, Chemistry, Bioengineering, Dendrocalamus barbatus, biology.organism_classification, Equilibrium moisture content, Durability, Thermal, Low density, Dendrocalamus asper, Composite material, Waste Management and Disposal, Chemical composition

Abstract

Bamboo is a very interesting bio resource for building materials because of its combination of strength properties and low density. However, its susceptibility to fungi and insects is problematic. Thermal modification is used in Vietnam to improve the durability and dimensional stability of bamboo. Changes in the chemical composition during this modification are the reason for such physical changes as color, equilibrium moisture content, and strength. This paper will describe the changes in the chemical composition depending on the modification conditions. Furthermore correlations between chemical composition and physical properties, which are presented in Part I, are shown.

Published

2013

31. Influence of the adhesive layer on the mechanical properties of thin veneer-based composite materials

Author

André Wagenführ, Beate Buchelt, Institute of Wood and Paper Technology, and Technische Universität Dresden = Dresden University of Technology (TU Dresden)

Subjects

Materials science, medicine.medical_treatment, Young's modulus, 02 engineering and technology, chemistry.chemical_compound, symbols.namesake, Ultimate tensile strength, medicine, General Materials Science, Cellulose, Composite material, Wood fibre, Beech, 040101 forestry, biology, Forestry, 04 agricultural and veterinary sciences, 021001 nanoscience & nanotechnology, biology.organism_classification, chemistry, Physical Sciences, symbols, 0401 agriculture, forestry, and fisheries, Veneer, Adhesive, 0210 nano-technology, Layer (electronics)

Abstract

International audience; For the production of spliced veneers the veneers are coated with thin cellulose fleece or special paper layers, and thereby thin composites are generated. This article describes the mechanical properties of such a composite material consisting of 0.35 mm beech ( L.) veneer and a 0.12 mm cellulose fleece bonded with a PVAc adhesive.

Published

2009

32. Suitability and Modification of Different Renewable Materials as Feedstock for Sustainable Flame Retardants

Author

Stefan Gebke, Katrin Thümmler, Rodolphe Sonnier, Sören Tech, Andre Wagenführ, and Steffen Fischer

Subjects

flame retardants, renewable materials, phosphate carbamate, wheat starch, wheat protein, xylan, Organic chemistry, QD241-441

Abstract

Due to their chemical structure, conventional flame retardants are often toxic, barely biodegradable and consequently neither healthy nor environmentally friendly. Their use is therefore increasingly limited by regulations. For this reason, research on innovative flame retardants based on sustainable materials is the main focus of this work. Wheat starch, wheat protein, xylan and tannin were modified with phosphate salts in molten urea. The functionalization leads to the incorporation of phosphates (up to 48 wt.%) and nitrogen (up to 22 wt.%). The derivatives were applied on wood fibers and tested as flame retardants. The results indicate that these modified biopolymers can provide the same flame-retardant performances as commercial compounds currently used in the wood fiber industry. Besides, the flame retardancy smoldering effects may also be reduced compared to unmodified wood fibers depending on the used biopolymer. These results show that different biopolymers modified in phosphate/urea systems are a serious alternative to conventional flame retardants.

Published

2020

33. The effects of thermal modification on the properties of two Vietnamese bamboo species, Part I: Effects on physical properties

Author

Cong Trung Nguyen, Andre Wagenführ, Le Xuan Phuong, Vu Huy Dai, Martina Bremer, and Steffen Fischer

Subjects

Bamboo, Thermal modification, Dendrocalamus barbatus, Dendrocalamus asper, Changes in physical properties, Color difference, Mass loss, Equilibrium moisture content, Biotechnology, TP248.13-248.65

Abstract

Bamboo is a very interesting bioresource for use as a building material because of its properties of strength in combination with low density. However, its susceptibility to fungi and insects is problematic for its usage. Thermal modification is used in Vietnam to improve the durability and dimensional stability of bamboo. The thermal modification causes many changes related to the physical properties of bamboo, e.g., mass, color, and equilibrium moisture content (EMC). All these changes are dependent on the modification conditions (modification temperature and duration). The mass loss (ML), the color difference (E*ab), and the reduction of EMC (EMC) were due to the thermal modification increase with higher temperature and/or longer duration. Therefore the temperature had greater influence than the modification duration. The changes were slight at 130 °C (ML: 0,3…0,6 %; E*ab: 3…5; EMC: 0,5…0,8 % ), moderate at 180 °C (ML: 1,5…4 %; E*ab: 21…37; EMC: 3,6…4,4 %), but very strong at 220 °C (ML: 14…16 %; E*ab: 46…51; EMC: 5,6…5,7%). There are close correlations between the changes mentioned above.

Published

2012