The effect of green biobased binder on structural, mechanical, liquid absorption and wetting properties of coated papers

This work investigates the ink mileage of dry toners in electrophotography (EP). Four different substrates were printed on a dry-toner color production Xerox iGen3 EP press. The print layout contained patches with different cyan, magenta, yellow, and black tonal values from 10% to 100%. Toner amounts on cyan patches were measured using an analytical method. Printed patches and unprinted paper samples, as well as dry toners, were dissolved in concentrated nitric acid. The copper concentrations in the dissolved solutions were analyzed by a Zeeman graphite furnace atomic absorption spectrometer. Analytical results were calculated to determine the toner amounts on paper for different tonal values. Their corresponding reflection densities were also measured. All data were plotted with OriginPro® 8 software, and four mathematical models were used for curve fitting. It was found that the C-S model fitted the experimental data of the two uncoated papers better than the other three models. None of the four models fitted the experimental data of the two coated papers, while the linear model was found to fit the data well. Linear fitting was the best in the practical density region for the two coated papers. Ink mileage curves obtained from curve fitting were used to estimate how much ink was required to achieve a target density for each paper; hence, the ink mileage was calculated. The highest ink mileage was 3.39 times the lowest ink mileage. The rougher the paper surface, the higher the requirement for ink film weight, and the lower ink mileage. No correlation was found between ink mileage and paper porosity.

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Cracking at the fold in double layer coated paper: the influence of latex and starch composition

TAPPI Journal ◽

10.32964/tj18.2.93 ◽

2019 ◽

Vol 18 (2) ◽

pp. 93-99

Author(s):

SEYYED MOHAMMAD HASHEMI NAJAFI ◽

DOUGLAS BOUSFIELD, ◽

MEHDI TAJVIDI

Keyword(s):

Mechanical Properties ◽

Double Layer ◽

Starch Content ◽

Single Layer ◽

Double Layers ◽

Coated Paper ◽

Coated Papers ◽

Coating Layers ◽

Scanned Images ◽

Packaging Paper

Cracking at the fold of publication and packaging paper grades is a serious problem that can lead to rejection of product. Recent work has revealed some basic mechanisms and the influence of various parameters on the extent of crack area, but no studies are reported using coating layers with known mechanical properties, especially for double-coated systems. In this study, coating layers with different and known mechanical properties were used to characterize crack formation during folding. The coating formulations were applied on two different basis weight papers, and the coated papers were folded. The binder systems in these formulations were different combinations of a styrene-butadiene latex and mixtures of latex and starch for two different pigment volume concentrations (PVC). Both types of papers were coated with single and double layers. The folded area was scanned with a high-resolution scanner while the samples were kept at their folded angle. The scanned images were analyzed within a constant area. The crack areas were reported for different types of papers, binder system and PVC values. As PVC, starch content, and paper basis weight increased, the crack area increased. Double layer coated papers with high PVC and high starch content at the top layer had more cracks in comparison with a single layer coated paper, but when the PVC of the top layer was low, cracking area decreased. No measurable cracking was observed when the top layer was formulated with a 100% latex layer.

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Use of High Aspect Ratio Kaolin as a Tool to Control the Strength and Stiffness Properties of Coated Papers

JAPAN TAPPI JOURNAL ◽

10.2524/jtappij.62.694 ◽

2008 ◽

Vol 62 (6) ◽

pp. 694-699

Author(s):

John C. Husband

Keyword(s):

Aspect Ratio ◽

High Aspect Ratio ◽

Coated Papers ◽

Stiffness Properties ◽

Strength And Stiffness

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Application of Photocatalytic Effect to Coated Papers

JAPAN TAPPI JOURNAL ◽

10.2524/jtappij.61.409 ◽

2007 ◽

Vol 61 (4) ◽

pp. 409-413 ◽

Cited By ~ 3

Author(s):

Hidehiko Kai

Keyword(s):

Photocatalytic Effect ◽

Coated Papers

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MECHANICAL PULPING: Changes in extractives and wetting properties of TMP paper during ageing

Nordic Pulp & Paper Research Journal ◽

10.3183/npprj-2011-26-04-p438-444 ◽

2011 ◽

Vol 26 (4) ◽

pp. 438-444 ◽

Cited By ~ 2

Author(s):

Sylwia Bialczak ◽

Bjarne Holmbom ◽

Anna Sundberg ◽

Jouko Peltonen

Keyword(s):

Wetting Properties

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Improved Dissolution Properties of Ketoconazole through Application of Liquisolid Techniques

International Journal of Pharmaceutical Sciences and Nanotechnology ◽

10.37285/ijpsn.2015.8.4.9 ◽

2015 ◽

Vol 8 (4) ◽

pp. 3053-3059

Author(s):

Sudarshan Singh ◽

S S Shyale ◽

H G Sandip

Keyword(s):

Drug Release ◽

Immediate Release ◽

Water Soluble ◽

Wet Granulation ◽

Wetting Properties ◽

Enhanced Dissolution ◽

Water Soluble Drug ◽

Drug Concentrations ◽

Water Soluble Drugs ◽

Liquisolid Compacts

In present investigation liquisolid compact technique is investigated as a tool for enhanced dissolution of poorly water-soluble drug Ketoconazole. The liquisolid tablets were formulated with liquid medications, namely Propylene Glycol (PG) drug concentrations, 60% w/w, 70% w/w and 80% w/w. Avicel pH102 was used as a carrier material, Aerosil 200 as a coating material and Sodium starch glycollate as a super-disintegrant. Quality control tests, such as uniformity of tablet weight, uniformity of drug content, tablet hardness, friability test, disintegration and dissolution tests were performed to evaluate prepared tablets. For further confirmation of results the liquisolid compacts were evaluated by XRD and FTIR studies to prove that, solubility of Ketoconazole has been increased by liquisolid compact technique. From the results obtained, it was be speculated that such systems exhibit enhanced drug release profiles due to increased wetting properties and surface of drug available for dissolution. As liquisolid compacts demonstrated significantly higher drug release rates, in PG as compared to directly compressible tablets and conventional wet granulation, we lead to conclusion that it could be a promising strategy in improving the dissolution of poor water soluble drugs and formulating immediate release solid dosage forms.

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Electrospun Mussel-derived Silk Fibers

Recent Patents on Nanotechnology ◽

10.2174/1872210513666190426145024 ◽

2020 ◽

Vol 14 (1) ◽

pp. 14-20 ◽

Cited By ~ 1

Author(s):

Dan Tian ◽

Dan-Ni Yu ◽

Yi-Ming Xu ◽

Xu-Yin Ding ◽

Zhou-Yu Zhang ◽

...

Keyword(s):

High Strength ◽

Alcohol Solution ◽

Protein Solution ◽

High Mechanical Strength ◽

Silk Fibers ◽

Spider Dragline Silk ◽

Blue Mussels ◽

Wetting Properties ◽

The World ◽

Silkworm Silk

Background: Though there are many patents on silk, patents on sea silk are rare. Sea silk is one of the most coveted materials in the world, and the technology to make sea silk is at an extremely high risk of extinction. Unlike spider dragline silk and silkworm silk, this natural silk has been forgotten in the academic commune for millennia, though it has many fascinating properties: high strength, remarkable adhesion, extreme lightweight, and others. Method: Here we report that mussel-derived silk fibers can be fabricated by electrospinning. Instead of extracting proteins from byssus, we directly use the protein solution from alive blue mussels, which are intensely commercially used. The protein solution and the polyvinyl alcohol solution are mixed together to produce mussel-based silk fibers. Results: The mussel-based silk fibers have many special properties like high mechanical strength, remarkable super-contraction and good wetting properties. Conclusion: The electrospinning mussel-based silk fibers have the potential for use as a replacement for the rarest sea silk and as a new bio-inspired material with multi-functions.

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Laser cutting of mineral pigment coated papers

International Congress on Applications of Lasers & Electro-Optics ◽

10.2351/1.5060924 ◽

2006 ◽

Cited By ~ 1

Author(s):

Heidi Malmberg ◽

Antti Salminen ◽

Veli Kujanpää

Keyword(s):

Laser Cutting ◽

Coated Papers

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Enhanced Wetting and Adhesive Properties by Atmospheric Pressure Plasma Surface Treatment Methods and Investigation Processes on the Influencing Parameters on HIPS Polymer

Polymers ◽

10.3390/polym13060901 ◽

2021 ◽

Vol 13 (6) ◽

pp. 901

Author(s):

Miklós Berczeli ◽

Zoltán Weltsch

Keyword(s):

Surface Treatment ◽

Plasma Treatment ◽

Atmospheric Pressure ◽

High Impact ◽

Plasma Parameters ◽

Plasma Surface ◽

Wetting Properties ◽

High Impact Polystyrene ◽

Process Modification ◽

Plasma Surface Treatment

The development of bonding technology and coating technologies require the use of modern materials and topologies for the demanding effect and modification of their wetting properties. For the industry, a process modification process that can be integrated into a process is the atmospheric pressure of air operation plasma surface treatment. This can be classified and evaluated based on the wettability, which has a significant impact on the adhesive force. The aim is to improve the wetting properties and to find the relationship between plasma treatment parameters, wetting, and adhesion. High Impact PolyStyrene (HIPS) was used as an experimental material, and then the plasma treatment can be treated with various adjustable parameters. The effect of plasma parameters on surface roughness, wetting contact angle, and using Fowkes theory of the surface energy have been investigated. Seven different plasma jet treatment distances were tested, combined with 5 scan speeds. Samples with the best plasma parameters were prepared from 25 mm × 25 mm overlapping adhesive joints using acrylic/cyanoacrylate. The possibility of creating a completely hydrophilic surface was achieved, where the untreated wetting edge angle decreased from 88.2° to 0° for distilled water and from 62.7° to 0° in the case of ethylene glycol. The bonding strength of High Impact PolyStyrene was increased by plasma treatment by 297%.

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Capillary Effect Enhancement in a Plastic Capillary Tube by Nanostructured Surface

Polymers ◽

10.3390/polym13040628 ◽

2021 ◽

Vol 13 (4) ◽

pp. 628

Author(s):

Kazuma Kurihara ◽

Ryohei Hokari ◽

Naoki Takada

Keyword(s):

Plasma Treatment ◽

Capillary Tube ◽

Capillary Effect ◽

Nanostructured Surface ◽

Nanostructure Fabrication ◽

Wetting Properties ◽

Treatment Processes ◽

Standard Solution ◽

The Cost ◽

Plastic Surfaces

We investigated the enhancement of the capillary effect in a plastic capillary tube using only a nanostructured surface. Since plastic is a hydrophobic material, the capillary effect does not emerge without an additional coating or plasma treatment process. Therefore, capillary effect enhancement by the nanostructure fabrication method is expected to reduce the cost and minimise the contamination produced in the human body. By combining a hydrophilic nylon resin and a nanostructure at the tip of the plastic pipette, we could confirm that the capillary effect was produced solely by the tube fabrication process. The produced capillary effect increased linearly with increasing nanostructure height when a standard solution with a surface tension of 70 mN·m−1 was used. Thus, we can conclude that including the plastic part with nanostructure can be useful for biomedical applications. In addition, we suggest that the proposed method is highly effective in controlling the wetting properties of plastic surfaces, compared to the typical coating or plasma treatment processes.

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