Variability in surface polarity of wood by means of AFM adhesion force mapping

Frybort, Stephan; Obersriebnig, Michael; Müller, Ulrich; Gindl‐Altmutter, Wolfgang; Konnerth, Johannes

doi:10.1016/j.colsurfa.2014.05.055

Cited by 37 publications

(27 citation statements)

References 23 publications

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“…To further demonstrate the versatility of the AFM, Meincken [62] determined the surface roughness and surface polarity of fibres, parenchyma cells and vessel elements of four hardwoods commonly used for pulping and observed a clear distinction between the cell types and species for the surface roughness and polarity. Frybort et al [28] recently utilised the AFM to study the adhesion force between AFM tips and freshly cut wood surfaces. They found clear differences in polarity between freshly cut cell walls and inner cell surfaces at the microstructural level.…”

Section: Force Spectroscopymentioning

confidence: 99%

Characterisation of the Interfacial Adhesion of the Different Components in Wood–Plastic Composites with AFM

Effah

Reenen

Meincken

2015

Springer Science Reviews

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The search for innovative solutions for the reuse of solid residues has intensified with growing environmental issues and the increasing cost of most raw materials, leading to the design of eco-friendly composite materials, such as wood-plastic composites (WPCs). These materials combine the stability of wood fibres with the durability of plastic, allowing for a wide range of applications, whilst simultaneously offering the possibility of utilising waste products from the forest/wood industry and recycled plastic. Waste products that otherwise incur cost for disposal therefore become a sustainable material resource for new products. Natural fibres offer a number of advantages over synthetic fibres and are seen as a ''green'' alternative to other reinforcements. Commonly, the fibrematrix adhesion in WPCs is improved by using compatibilisers that bond to the polar wood fibres and the non-polar polymer matrix. However, the problem with these is that good dispersion is not always achieved as it depends on the adhesion properties of three individual components in the WPC, which might lead to poor mechanical properties of the WPC. The ability of the atomic force microscope (AFM) to create 3D images of topography and various interaction forces with molecular resolution made it a valuable tool for the analysis of adhesion properties in WPCs.

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Section: Force Spectroscopymentioning

confidence: 99%

Characterisation of the Interfacial Adhesion of the Different Components in Wood–Plastic Composites with AFM

Effah

Reenen

Meincken

2015

Springer Science Reviews

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“…To further investigate this effect, AFM analyses on the MgO substrates were carried out by using a Nanoscope III AFM with functionalised silica tips from Mikromasch (USA). The measurements were done mainly on the adhesion force and the principle of the measurements has been described elsewhere in the literatures [22] [23]. Briefly, an AFM measures the cantilever deflection of the tip displacement due to its interaction with the substrate.…”

Section: Surface Energymentioning

confidence: 99%

Wettability of eutectic NaLiCO3 salt on magnesium oxide substrates at 778 K

Cao

et al. 2018

Applied Surface Science

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Where a licence is displayed above, please note the terms and conditions of the licence govern your use of this document. When citing, please reference the published version. Take down policy While the University of Birmingham exercises care and attention in making items available there are rare occasions when an item has been uploaded in error or has been deemed to be commercially or otherwise sensitive.

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“…Hansson et al (2011) indicate that surface roughness failed to correctly predict the contact angle on a heterogeneous surface with chemical or topological heterogeneities covered by the droplet. Frybort et al (2014) explain that variability in wettability of a surface is largely determined by surface chemistry, besides other factors such made between the wear of a cutting tool and the wettability of a machined surface. It is not reliable to explain the wettability of machined surfaces considering only the surface roughness on a heterogeneous surface such as wood.…”

Section: Zaključakmentioning

confidence: 99%

Surface Roughness and Wettability Variation: The effect of Cutting Distance during Milling of Pinus Radiata Wood

2016

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Variability in surface polarity of wood by means of AFM adhesion force mapping

Cited by 37 publications

References 23 publications

Characterisation of the Interfacial Adhesion of the Different Components in Wood–Plastic Composites with AFM

Characterisation of the Interfacial Adhesion of the Different Components in Wood–Plastic Composites with AFM

Wettability of eutectic NaLiCO3 salt on magnesium oxide substrates at 778 K

Surface Roughness and Wettability Variation: The effect of Cutting Distance during Milling of Pinus Radiata Wood

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Variability in surface polarity of wood by means of AFM adhesion force mapping

Cited by 37 publications

References 23 publications

Characterisation of the Interfacial Adhesion of the Different Components in Wood–Plastic Composites with AFM

Characterisation of the Interfacial Adhesion of the Different Components in Wood–Plastic Composites with AFM

Wettability of eutectic NaLiCO3 salt on magnesium oxide substrates at 778 K

Surface Roughness and Wettability Variation: The effect of Cutting Distance during Milling of Pinus Radiata Wood

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Wettability of eutectic NaLiCO3 salt on magnesium oxide substrates at 778 K