Showing total 9 results

1. MICROSCOPIC ANALYSIS OF JAPANESE AND WAX PAPER USED FOR THE PRESERVATION OF WRITTEN CULTURAL HERITIGE.

Author

Tsvetanska-Tsekova, Iskra, Lasheva, Veska, Yankova, Ivanka, Peteva, Irena, Vasileva, Rumelina, and Stanchevа, Silvia

Subjects

*MICROSCOPY, *CULTURAL maintenance, *WAXES, *DOCUMENT imaging systems, *MECHANICAL properties of condensed matter

Abstract

The paper is an integral part of our cultural development. Its’ properties are determined by the properties of the fibrous materials of which it is composed by and from the technological regime in its production. The good knowledge of the fibrous materials used, their chemical composition, morphological and anatomical structure in the restoration practice is essential for proper conduction of the recovery procedures. In world restoration practice, Japanese paper is the most often used material for the renovation of paper documents. The examination and microscopic analysis of Japanese paper contributes to its proper use in restoration practice. [ABSTRACT FROM AUTHOR]

Published

2021

2. Physicochemical behavior of several kinds of paper under gamma irradiation.

Author

Jiménez-Reyes, Melania, Tenorio, Dolores, Rojas-Robles, Mariela, and García-Rosales, Genoveva

Subjects

*GAMMA rays, *IRRADIATION, *PAPER, *X-ray diffraction, *PYROLYSIS, *MICROSCOPY

Abstract

Several kinds of paper (Bond, Amate, Rice, Press, and Whatman#1) were studied in their original condition and were then exposed to gamma radiation between 3 and 15 kGy (0.9 kGy/h) with intervals of 3 kGy. The length and width of fibers (SEM) as well as pH were measured, and the chemical composition was determined by EDS. Pyrolysis characteristics (TGA and DTC), transmittance spectra by IR and X-ray diffraction patterns were studied as well. Whatman#1 contains only cellulose; whereas Bond, Press and Rice papers also contain calcite and Amate whewellite. All X-ray diffraction patterns showed Type I semicrystalline cellulose, but a slight presence of Type II was noted in the artisan papers (Amate and Rice). These results were confirmed by IR spectra and thermogravimetric analyses. Due to gamma irradiation no acidification nor change of fiber sizes or alteration of other studied parameters were observed. Therefore, these conditions may be recommended for the treatment of some deteriorated documents. [ABSTRACT FROM AUTHOR]

Published

2018

3. Open-source micro-tensile testers via additive manufacturing for the mechanical characterization of thin films and papers.

Author

Nandy, Krishanu, Collinson, David W., Scheftic, Charlie M., and Brinson, L. Catherine

Subjects

*THIN films, *PAPER, *TENSILE strength, *MECHANICAL behavior of materials, *GRAPHENE oxide

Abstract

The cost of specialized scientific equipment can be high and with limited funding resources, researchers and students are often unable to access or purchase the ideal equipment for their projects. In the fields of materials science and mechanical engineering, fundamental equipment such as tensile testing devices can cost tens to hundreds of thousands of dollars. While a research lab often has access to a large-scale testing machine suitable for conventional samples, loading devices for meso- and micro-scale samples for in-situ testing with the myriad of microscopy tools are often hard to source and cost prohibitive. Open-source software has allowed for great strides in the reduction of costs associated with software development and open-source hardware and additive manufacturing have the potential to similarly reduce the costs of scientific equipment and increase the accessibility of scientific research. To investigate the feasibility of open-source hardware, a micro-tensile tester was designed with a freely accessible computer-aided design package and manufactured with a desktop 3D-printer and off-the-shelf components. To our knowledge this is one of the first demonstrations of a tensile tester with additively manufactured components for scientific research. The capabilities of the tensile tester were demonstrated by investigating the mechanical properties of Graphene Oxide (GO) paper and thin films. A 3D printed tensile tester was successfully used in conjunction with an atomic force microscope to provide one of the first quantitative measurements of GO thin film buckling under compression. The tensile tester was also used in conjunction with an atomic force microscope to observe the change in surface topology of a GO paper in response to increasing tensile strain. No significant change in surface topology was observed in contrast to prior hypotheses from the literature. Based on this result obtained with the new open source tensile stage we propose an alternative hypothesis we term ‘superlamellae consolidation’ to explain the initial deformation of GO paper. The additively manufactured tensile tester tested represents cost savings of >99% compared to commercial solutions in its class and offers simple customization. However, continued development is needed for the tensile tester presented here to approach the technical specifications achievable with commercial solutions. [ABSTRACT FROM AUTHOR]

Published

2018

4. Lateral mapping of poly(styrene-co-maleimide) nanoparticle coatings on paper by confocal Raman microscopy.

Author

Samyn, Pieter

Subjects

*POLYSTYRENE, *NANOPARTICLES, *MALEIMIDES, *RAMAN microscopy, *SURFACE coatings

Abstract

Fourier transform Raman spectroscopy and (dispersive) confocal Raman microscopy have been applied to quantitatively and qualitatively describe the local distribution of chemical moieties of poly(styrene- co -maleimide) coatings on paper substrates containing different amount of imide. In parallel, local coating defects have been imaged for a better understanding of the influence of the coating composition on homogeneity at macro- to microscale levels. From FT-Raman spectroscopy, the imide content was calculated in quantitative agreement with previous thermoanalytical data. From dispersive spectroscopy, the measuring parameters were optimized for single-point measurements including signals of the coating and macropoint measurements including more intense signals of the paper. The large surface maps (5 × 5 mm 2 ) provided good quantification for the lateral distribution of imide moieties and coverage for coatings with different thickness and imide content, based on relative intensities of imide/styrene and imide/cellulose bands. The inhomogeneities were related to the formation of surface patterns for coatings with high viscosity and presence of non-imidized residues. From detailed surface maps (1 × 1 mm 2 ), sensitive Raman bands were selected to describe variations in imide and styrene concentrations, conformations and interactions with fillers and cellulose. Based on data from Raman analysis, interactions between nanoparticles and cellulose possibly happened through hydrogen bonding. [ABSTRACT FROM AUTHOR]

Published

2017

5. Viability of laser cleaning of papyrus: Conservation and scientific assessment.

Author

Elnaggar, Abdelrazek, Fitzsimons, Paul, Nevin, Austin, Watkins, Kenneth, and Strlič, Matija

Subjects

*PAPYRUS manuscripts, *LASER ablation, *INCRUSTATIONS, *CELLULOSE, *COLORIMETRY, *MICROSCOPY, *SCANNING electron microscopy, *FOURIER transform spectroscopy, *DEGREE of polymerization, *CONSERVATION & restoration

Abstract

There has been a growing interest in laser cleaning applications for a variety of organic materials such as paper, parchment, textiles, and leather during the last decade. However, archaeological organic materials, notably papyrus, have rarely been investigated. This contribution examines whether removal of burial encrustation can be justified in view of its short-term and long-term effects on the substrate. To examine this, tests using mock objects have been performed. Using artificially soiled and archaeological papyrus samples, optimization of laser cleaning parameters using a picosecond laser (1064 nm, various operating conditions) was attempted. Optimization was based on colorimetry, optical microscopy, scanning electron microscopy, Fourier transform infrared spectroscopy, and cellulose degree of polymerization data, both before and after accelerated degradation. In papyrus, there is no clear damage threshold, and substrate degradation can always be observed and is comparable in treated (cleaned) and untreated (soiled) objects. Therefore, the decision on whether to clean papyrus using lasers is predominantly based on aesthetic and treatability (e.g. need for consolidation) criteria. [ABSTRACT FROM AUTHOR]

Published

2015

6. Fungal pigments on paper: Raman and quantum chemistry studies of Alternaria Sp.

Author

Volkov, Victor V. and Perry, Carole C.

Subjects

*QUANTUM chemistry, *ALTERNARIA, *OPTICAL computing, *PIGMENTS, *MOLECULAR biology, *FUNGAL metabolites

Abstract

To advance our understanding of the molecular biochemistry of fungi which impact cultural heritage in libraries, museums and archives we investigated the diagnostic capacity of Raman spectroscopy to identify the composition of colored chromophores of fungi on paper. In this study we explored the diagnostic capacity of resonant Raman to distinguish chromophores in fungal filaments stimulated to grow on paper under high humidity with a focus on characterizing chromophores of Alternaria group species. To facilitate molecular analysis, we conducted quantum chemistry calculations of representative metabolites having optical absorption in the ultraviolet–visible spectral range. Comparing theory and experiment we show that fonsecin, erythroglaucin and aurasperone type chromophores occur in mature hyphal filaments with β-carotene dominant in yeast depositions on paper surfaces. Resonant Raman of mature filaments suggests a further contribution of carotenes longer than β-carotene to the spectral signature. Using microscopic resolution, we distinguish rich sets of Raman signatures that we assign to lignin, flavoglaucin, riboflavin, cycloleucomelon(e) and asperyellone molecular components in the spatial regions where filaments initiate from yeast depositions. In such regions, where filament microstructures stimulate development of a mature three-dimensional scaffold, the diversity of Raman resonances confirms a rich biochemistry of the developing structures. The library of computed optical and spectroscopic responses of characteristic fungal chromophores and metabolites presented here is essential for understanding the effect of fungi on a wide range of objects made from paper including books, prints, drawings, watercolors, engravings and even sculptures as well as designing next generation materials based on fungal hyphal mats. • Non-invasive Raman spectroscopy can be used to identify pigments in fungi. • Quantum chemistry (DFT) combined with Raman for quantitative measure of chromophores. • Computed optical responses of fungal chromophores and metabolites. • Raman spectroscopy combined with Quantum chemistry as tools for cultural heritage. • Alternaria sp. generates specific pigments when grown on paper. [ABSTRACT FROM AUTHOR]

Published

2021

7. Mycological and FTIR analysis of biotic foxing on paper substrates

Author

Zotti, M., Ferroni, A., and Calvini, P.

Subjects

*DISCOLORATION, *FOURIER transform infrared spectroscopy, *PAPER, *MICROFUNGI, *MICROSCOPY, *ULTRAVIOLET radiation, *X-ray diffraction, *ORGANIC compounds, *BIODEGRADATION

Abstract

Abstract: The small rusty stains (foxing) frequently found on historic paper documents, books, and prints have generally been analysed in the past by optical microscope through their morphochromatic appearance under visible light and UV radiation. Despite increased research efforts with more sophisticated techniques (mainly SEM and XRF), the biotic or even chemical origin of these stains remains unclear. The purpose of this paper is to verify to what extent a simple technique such as FTIR-ATR spectroscopy can be utilised for a clearer understanding of the controversial nature of foxing. Since this technique is sensitive to several organic chemical groups that are in common with both fungi and gelatine-sized ancient paper, some modern cardboards stained by biotic foxing have been selected for the analyses. The results clearly show the importance of FTIR and mycological analyses for the identification of residual microfungal agents, together with the by-products of their activity on paper substrates. [Copyright &y& Elsevier]

Published

2011

8. Impact of disinfectant and nutrient concentration on growth and biofilm formation for a Pseudomonas strain and the mixed cultures from a fine papermachine system

Author

Huang, Chi-Yu, Hsieh, Shou-Pin, Kuo, Pei-An, Jane, Wann-Neng, Tu, Jenn, Wang, Ya-Nan, and Ko, Chun-Han

Subjects

*PAPERMAKING & the environment, *PLANT nutrients, *BIOFILMS, *PSEUDOMONAS, *MIXED culture (Microbiology), *DISINFECTION & disinfectants, *HEALTH risk assessment, *GENTIAN violet, *PAPER, *MICROSCOPY

Abstract

Abstract: Biofilm formation in papermaking processes could inflict financial loss by interrupting paper machine operation and pose a potential health hazard. A mixed microbial culture obtained from paper machine slime and a Pseudomonas strain (identified as Pseudomonas putida HB45) which is tolerant to the alkyl dimethyl benzyl ammonium chloride (quaternary ammonium chloride, QAC) were used to investigate the interplay between disinfectants and glucose on bacterial growth and biofilm formation. QAC and 2,2-dibromo-3-nitrilopropionamide (DBNPA) were found to be effective at concentration lower than isothiazolone in both standardized Minimum Inhibitory Concentration (MIC) and Minimum Bactericidal Concentration (MBC) tests. Crystal violet staining technique demonstrated that biofilm formation of P. putida HB45 and the mixed culture could be controlled by modest dosage of DBNPA and QAC; however, they could be barely eliminated due to high MBC to MIC ratios. In simulated papermaking processing water, glucose was shown to increase the average biofilm formation rates during stationary phase for both P. putida HB45 and the mixed culture under the presence of biocides. Complexity and population diversity of biofilm of the paper machine slime was observed by in-situ cryo-scanning electron microscopy. Confocal laser scanning microscopy (CSLM) was employed to show qualitative and partial quantitative biofilm formation under various circumstances. The results of this study could assist improving strategy for controlling biofilm formation in papermaking processes. [Copyright &y& Elsevier]

Published

2009

9. TCF bleaching of wheat straw pulp using ozone and xylanase. Part A: paper quality assessment

Author

Roncero, M.B., Torres, A.L., Colom, J.F., and Vidal, T.

Subjects

*WHEAT straw, *WOOD pulp bleaching, *CHEMICAL reagents, *MICROSCOPY

Abstract

The XOAZRP TCF sequence was applied to bleach wheat straw pulp. Following each bleaching stage, the properties of the pulp (viz. kappa number, standard viscosity, borohydride viscosity and brightness) and of the resulting effluents were determined. The performance of the reagents was analyzed through the studies of xylanase treatment and crystallinity and scanning electron microscopy of the pulps. Finally, the pulp was refined at 1000 revolutions in a PFI mill and the mechanical properties of the resulting paper were determined and compared with those of paper from a eucalyptus pulp. Despite its shortcomings, wheat straw pulp can be effectively bleached with the proposed TCF sequence. [Copyright &y& Elsevier]

Published

2003