Your search keyword '"Pedrazzi, Cristiane"' showing total 16 results

1. Influence of residual lignin on Acacia mearnsii De Wild nanofibrillated cellulose suspensions and films

Author

Gentil, Marina, Magalhães, Washington Luiz Esteves, Martins, Thiago Rodrigues, Mallmann, Anderson Stoffels, Malucelli, Lucca Centa, Coldebella, Rodrigo, and Pedrazzi, Cristiane

Published

2023

2. Impact of age and genotype on the quality of eucalyptus wood for dissolving pulp

Author

dos Santos, Vaniele Bento, da Conceição, Gustavo Jaske, Rodrigues, Paola Delatorre, Cirilo, Nauan Ribeiro Marques, Almeida, Maria Naruna Felix, Rocha, Maria Fernanda Vieira, Guimarães, João Filipi Rodrigues, Carvalho, Ana Márcia Macedo Ladeira, Gomes, Fernando José Borges, Marcelino, Paulo Roberto Correia, Barbosa, Verônica Oliveira de Paula, Neto, Thayanne Caroline Castor, Moulin, Jordão Cabral, Pedrazzi, Cristiane, and Vidaurre, Graziela Baptista

Published

2024

3. Totora fibers as a new source for papermaking

Author

Wille, Vania Karine Dick, Gentil, Marina, Nunes, Gabriel Raamon Santana, da Rosa, Rossana Cortelini, Jardim, Juliana Marangon, Berger, Camila, Costa, Henrique Weber Dalla, Gatto, Darci Alberto, and Pedrazzi, Cristiane

Published

2023

4. Acid-Hydrolysis-Assisted Cellulose Nanocrystal Isolation from Acacia mearnsii de Wild. Wood Kraft Pulp.

Author

de Farias, Daniel Tavares, Labidi, Jalel, Pedrazzi, Cristiane, Gatto, Darci Alberto, de Cademartori, Pedro Henrique Gonzalez, Welter, Carline Andréa, da Silva, Gabriela Teixeira, and de Almeida, Tielle Moraes

Subjects

FOURIER transform infrared spectroscopy, SULFATE pulping process, YOUNG'S modulus, CELLULOSE nanocrystals, WOOD-pulp, ZETA potential

Abstract

Cellulose nanocrystals (CNC) receive great attention for their physical and optical properties, high surface area, high tensile strength, rigidity (Young's modulus up to 140 GPa), and ease of surface modification. However, controlling the properties of CNC is still challenging, given the wide variety of pulp sources and the complexity of finding suitable processing conditions. In the present study, acid hydrolysis efficiently isolated CNC from wood Acacia mearnsii brown kraft pulp (AMKP). Initially, the AMKP was delignified by the treatment with acidified sodium chlorite. The Acacia mearnsii kraft pulp obtained was then subjected to acid hydrolysis with sulfuric acid at concentrations of 50 to 58% 45 °C for 60 min. The hydrolysate was sonicated in an ultrasonic processor for 30 min. The chemical composition was determined by Fourier transform infrared spectroscopy (FTIR), crystallinity by X-ray diffraction (XRD), zeta potential by Zetasizer ZS equipment, thermal stability by thermogravimetric analysis (TGA), and morphology by transmission electron microscopy (TEM) to verify the effect of acid concentration on the yield and properties of CNC. The optimization of the isolation process demonstrated that the maximum yield of 41.95% can be obtained when AMWP was hydrolyzed with sulfuric acid at a concentration of 54%. It was possible to isolate CNC with a crystallinity index between 71.66% and 81.76%, with the onset of thermal degradation at 240 °C; zeta potential of −47.87 to 57.23 mV; and rod-like morphology, with lengths and widths between 181.70 nm and 260.24 nm and 10.36 nm and 11.06 nm, respectively. Sulfuric acid concentration significantly affected the yield of acid hydrolysis, allowing the isolation of CNC with variable dimensions, high thermal stability, high crystallinity index, and great colloidal stability in aqueous medium. [ABSTRACT FROM AUTHOR]

Published

2024

5. The performance of Acacia mearnsii De Wild for kraft pulping/Performance da madeira de Acacia mearnsii De Wild para polpação kraft

Author

Giesbrecht, Bruna Mohr, Coldebella, Rodrigo, Gentil, Marina, Nunes, Gabriel Raamon Santana, Finger, Matheus Redel, Jardim, Juliana Marangon, Pedrazzi, Cristiane, and Cardoso, Gabriel Valim

Published

2022

6. Physicochemical properties of Paulownia tomentosa Steud. wood.

Author

Andréa Welter, Carline, da Silva Roso, Matheus, Tavares de Farias, Daniel, Schmitt, Eduardo, Maciel da Silva, Dieimes, Lunardi Wacht, Wanessa, de Moura Martins, Vitória, Raquel Ratzlaff, Fabiana, Coldebella, Rodrigo, Teixeira da Silva, Gabriela, and Pedrazzi, Cristiane

Abstract

Copyright of Ciência Florestal (01039954) is the property of Ciencia Florestal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

7. Effect of chemical constituents on the energetic and physical properties of wood from forestry species.

Author

Eloy, Elder, Pedrazzi, Cristiane, Coldebella, Rodrigo, de Souza Mangini, Tauana, Trevisan, Rômulo, Otomar Caron, Braulio, and Duwe dos Santos, Alec

Subjects

*EUCALYPTUS, *WOOD, *EUCALYPTUS grandis, *BIOMASS energy, *FORESTS & forestry, *PEARSON correlation (Statistics), WOOD density

Abstract

Wood is an organic material and its energetic and physical properties are related to its chemical and anatomical constituents. This study evaluated the influence of the chemical constituents on the energetic and physical properties of Parapiptadenia rigida (Benth.) Brenan, Peltophorum dubium (Spreng.) Taub., Eucalyptus grandis W. Hill × Eucalyptus urophylla S.T. Blake (hybrid), and Schizolobium parahyba (Vell.) Blake an agroforestry system. Five trees of each species aged 9 years were sampled. Samples were collected at a diameter at breast height (DBH) of 1.30 m above the ground and were used to analyze the chemical, energetic, and physical properties of the wood. Chemical properties influence the energetic and physical properties of wood. We reported that the higher the lignin content in the wood, the greater the correlation with the fixed carbon content (0.76) and gross calorific value (0.65). High values of fixed carbon content increased the basic density of the wood (0.80). In contrast, the lower the lignin content in the wood, the greater the correlation with the extractive content (-0.76) and volatile material content (-0.74), and the higher the volatile material content, the lower the fixed carbon content (-0.98) and gross calorific value (-0.74). [ABSTRACT FROM AUTHOR]

Published

2024

8. Performance da madeira de Acacia mearnsii De Wild para polpação kraft

Author

Giesbrecht,Bruna Mohr, Coldebella,Rodrigo, Gentil,Marina, Nunes,Gabriel Raamon Santana, Finger,Matheus Redel, Jardim,Juliana Marangon, Pedrazzi,Cristiane, and Cardoso,Gabriel Valim

Subjects

Química da madeira, Propriedades da madeira, Wood properties, Wood chemistry, Pulp yield, Rendimento de celulose

Abstract

The growing worldwide interest in pulp produced from Acacia mearnsii encourages studies that prove its propensity and efficiency for this purpose. Thus, the objective of this work was to evaluate the performance of Acacia mearnsii to produce kraft pulp, under different pulping conditions. Wood samples from seed production areas (SPA) and clones were evaluated. Kraft pulping was performed at constant H-factor (1363), and the active alkali varied from 14% to 24%. The wood density of clone and SPA samples was approximately 0.544 g/cm³. The chemical analysis revealed that the content of extractives, lignin, and carbohydrates was 4.67%, 16.66%, and 77.02%, respectively. The optimal pulping condition was obtained with active alkali of 14%, where kappa number was 16; screened pulp yield was 57%. The results show that Acacia mearnsii is an outstanding source of short fibers to produce kraft pulp. RESUMO O crescente interesse mundial na polpa celulósica produzida a partir da madeira de Acacia mearnsii incentiva estudos que comprovem sua propensão e eficiência para esse fim. Dessa forma, o objetivo deste estudo foi avaliar as propriedades físico-químicas da madeira de Acacia mearnsii, bem como avaliar seu desempenho na produção de celulose kraft, sob diferentes condições de cozimento. Amostras de madeiras das áreas de produção de sementes (APS) e clones foram avaliados. A polpação kraft foi realizada com fator H constante (1363) e álcali ativo variando de 14% a 24%. A densidade básica das madeiras de clone e APS não diferiram estatisticamente (0,544 g/cm³). A análise química revelou que o conteúdo médio (clone e APS) de extrativos, lignina e carboidratos foi de 4,67%, 16,66% e 77,02%, respectivamente. A condição de polpação mais eficiente foi obtida com álcali ativo de 14%, número kappa 16 e rendimento depurado de 57%. De acordo com os resultados, a madeira de Acacia mearnsii apresentou grande potencial para ser utilizada como fonte de fibra curta na obtenção de polpa celulósica pelo processo kraft.

Published

2022

9. The performance of Acacia mearnsii De Wild for kraft pulping.

Author

Mohr Giesbrecht, Bruna, Coldebella, Rodrigo, Genti, Marina, Santana Nunes, Gabriel Raamon, Redel Finger, Matheus, Marangon Jardim, Juliana, Pedrazzi, Cristiane, and Valimv Cardoso, Gabriel

Abstract

Copyright of Ciência Florestal (01039954) is the property of Ciencia Florestal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

10. Maclura tinctoria Extracts: In Vitro Antibacterial Activity against Aeromonas hydrophila and Sedative Effect in Rhamdia quelen.

Author

da Costa Pires, Luana, Rodrigues, Patricia, Garlet, Quelen Iane, Barbosa, Luisa Barichello, Petri da Silveira, Bibiana, Bandeira Junior, Guerino, de Lima Silva, Lenise, Gindri, Amanda, Coldebella, Rodrigo, Pedrazzi, Cristiane, Castagna de Vargas, Agueda Palmira, Baldisserotto, Bernardo, and Heinzmann, Berta Maria

Subjects

PLANT extracts, PLANT phenols, ANTIBACTERIAL agents, FISH pathogens, FISH microbiology, AEROMONAS hydrophila, HARDHEAD catfish, ANIMAL sedation

Abstract

Maclura tinctoria is a tree species native from Brazil and rich in phenolic compounds. Since plant antibacterial activity is highly associated with phenolic compound concentration, we aim to evaluate the in vitro antimicrobial activity of different extracts against fish pathogenic bacteria. In addition, some phenolic compounds have central depressant effects and can be useful in aquaculture due to possible sedative and/or anesthetic effects. Four M. tinctoria extracts were extracted separately with ethanol; leaves (LE), bark (BE), heartwood (HE), and the sapwood (SE). In vitro antimicrobial activity was tested against Aeromonas strains at concentrations of 6400 to 3.125 μg/mL. The sedative effect was evaluated for 24 h with 30 and 100 mg/L concentrations. Chemical composition was analyzed by HPLC-DAD-MS. The HE extract had the best MIC (400 μg/mL) and MBC (800 μg/mL) compared to the LE, BE, and SE extracts. LE extract induced deep sedation and the BE, SE, and HE extracts induced light sedation. Additionally, BE, SE, and HE induced a normal behavior without side effects. Polyphenolic compounds with antimicrobial activity and sedative effects were identified mainly in HE. Thus, HE extract is safe and can be used as a sedative for silver catfish. [ABSTRACT FROM AUTHOR]

Published

2021

11. Anatomical characterization of black wattle wood for the pulp and paper production.

Author

Coldebella, Rodrigo, Giesbrecht, Bruna Mohr, Pedrazzi, Cristiane, dos Santos Machado, Paulo Fernando, Dalla Costa, Henrique Weber, Alan Vivian, Magnos, Denardi, Luciano, and Marcia Gomes, Claudia

Subjects

*WOOD-pulp, *PAPER pulp, *MANGIUM, *WOOD, *CLONE cells, *FUELWOOD, *TANNINS, *WOOD chips

Abstract

The growing worldwide demand in the pulp market has fostered research that evaluates alternative fiber sources with specific characteristics that attend the needs of the consumer market, with a view to add value to the final product and reduce production costs. Acacia mearnsii De Wild wood is a by-product of the extraction of tannin from the trunk bark, used for firewood, charcoal and pellets. However, its wood is still poorly studied, especially its anatomical characteristics, which can provide important information about its industrial potential. This study evaluated the anatomical characteristics of Acacia mearnsii wood for the production of pulp and paper. Ten trees at approximately seven years old were cut down, five from the seed production area (SPA) and five from the clonal population area (CPA). From each tree, one trunk disc was sectioned at the diameter at breast height (DBH), resulting in 10 (ten) wood samples. From each disc, a sapwood specimen was made oriented in the tangential longitudinal, radial longitudinal and transversal planes, for later obtaining the anatomical cuts and the macerates. The anatomical description of the wood followed the recommendations of the International Association of Wood Anatomists-IAWA. From the dimensions of the fibers, their quality evaluation ratios for the production of pulp and paper were calculated. Results obtained from the anatomical characterization allowed to conclude that the Acacia mearnsii woods from SPA and CPA are indicated as a source of raw material for the pulp and paper production. [ABSTRACT FROM AUTHOR]

Published

2023

12. Xylan deposition onto eucalypt pulp fibers during oxygen delignification.

Author

dos Santos Muguet, Marcelo Coelho, Pedrazzi, Cristiane, and Colodette, Jorge Luiz

Subjects

*XYLANS, *EUCALYPTUS, *OXYGEN, *WOOD pulp bleaching, *EXTRACTION (Chemistry), *MECHANICAL behavior of materials, *PULP mills, *SULFATE pulping process, *HEMICELLULOSE

Abstract

A novel alternative was investigated for elevating the xylan content of eucalyptus pulp through xylan deposition in the course of the oxygen delignification stage. The pH in the range of 10-13 was the only variable evaluated, while the other variables were kept constant in a range similar to industrial practice. Xylans were obtained from unbleached and bleached eucalyptus pulps by cold caustic extraction (CCE), giving rise to brown xylan liquor (BXL) and white xylan liquor (WXL), respectively. The liquors were added to a commercial brown pulp during oxygen delignification. The xylan-enriched pulps were subsequently bleached to 90% ISO with the D(EP)D sequence, beaten in a PFI mill and evaluated for their physical and mechanical properties. Xylan deposition occurred at variable degrees depending upon the pH. Pulp bleachability was not impaired by WXL xylan deposition but was slightly negatively affected by BXL xylan. Pulp beatability was improved by both WXL and BXL xylan deposition. The deposited xylan was more stable across bleaching and beating with the WXL xylan than the BXL xylan deposits. At low energy consumption, the deposited xylan improved pulp physical and mechanical properties. Xylan extraction by CCE with subsequent deposition in the oxygen delignification is an interesting technique to manufacture eucalypt pulps of high xylan content. The potential for industrial application is high as no significant modification of current pulp mill installations is needed. [ABSTRACT FROM AUTHOR]

Published

2011

13. Fractionation and characterization of lignin-carbohydrate complexes (LCCs) from eucalyptus fibers.

Author

Li, Jiebing, Martin-Sampedro, Raquel, Pedrazzi, Cristiane, and Gellerstedt, Göran

Subjects

LIGNINS, CARBOHYDRATES, EUCALYPTUS, PLANT fibers, CELLULOSE, SOLVENTS, GEL permeation chromatography

Abstract

The effect of milling time on the structure of lignin was investigated by analyzing the quantity and molecular size distribution of thioacidolysis products obtained from wood and pulp of eucalypt ( Eucalyptus globulus). After milling, the ability of three solvent systems was determined to completely dissolve the wood or pulp meal. It was found that a mixture of DMSO and 50% aqueous tetrabutylammonium hydroxide was superior to either dimethylacetamide-LiCl or DMSO-tetrabutylammonium fluoride as solvent. By applying the minimum milling time required for complete dissolution, structurally unaltered wood or pulp could be further separated into lignin-carbohydrate fractions. These were analyzed by thioacidolysis. From eucalypt pulp, two different lignin-carbohydrate fractions were obtained, one glucan- and one xylan-enriched fraction, with the latter having more syringyl units in its lignin moieties. The developed solvent system seems to be universal because spruce and flax fibers and pulps could also be dissolved in it after milling. [ABSTRACT FROM AUTHOR]

Published

2011

14. Eucalyptus wood quality and its impact on kraft pulp production and use.

Author

da Silva Magaton, Andréia, Colodette, Jorge Luiz, de Fátima Gomes Gouvêa, Adriana, Gomide, José Lívio, Dos Santos Muguet, Marcelo Coelho, and Pedrazzi, Cristiane

Subjects

EUCALYPTUS, WOOD-pulp, SULFATE pulping process, LIGNINS, WOOD quality, PULPING, XYLANS

Abstract

The article presents a study which focuses on the properties of eucalyptus wood and their impact on specific wood consumption, kraft pulping yield and pulp use for various species. It offers a synthesis of the authors' eucalyptus wood-quality investigative research. It notes that high density, low extractives and lignin contents, and high xylan and uronic acid contents must characterize a high-quality eucalyptus wood for kraft pulping. Furthermore, it cites how wood age affects pulp properties.

Published

2009

15. EFFECT OF PULP DELIGNIFICATION DEGREE ON FIBER LINE PERFORMANCE AND BLEACHING EFFLUENT LOAD.

Author

Colodette, Jorge L., Gomide, José L., Júnior, Dalton L., and Pedrazzi, Cristiane

Published

2007

16. Nanofibrillated Cellulose-Based Aerogels Functionalized with Tajuva (Maclura tinctoria) Heartwood Extract.

Author

Coldebella, Rodrigo, Gentil, Marina, Berger, Camila, Dalla Costa, Henrique W., Pedrazzi, Cristiane, Labidi, Jalel, Delucis, Rafael A., Missio, André L., and Osorio-Madrazo, Anayancy

Subjects

AEROGELS, HEARTWOOD, SULFATE pulping process, FREEZE-drying, GRINDING & polishing, WOOD chemistry, COMPRESSIVE strength, HYDROGELS

Abstract

Aerogels are 3-D nanostructures of non-fluid colloidal interconnected porous networks consisting of loosely packed bonded particles that are expanded throughout their volume by gas and exhibit ultra-low density and high specific surface area. Cellulose-based aerogels can be obtained from hydrogels through a drying process, replacing the solvent (water) with air and keeping the pristine three-dimensional arrangement. In this work, hybrid cellulose-based aerogels were produced and their potential for use as dressings was assessed. Nanofibrilated cellulose (NFC) hydrogels were produced by a co-grinding process in a stone micronizer using a kraft cellulosic pulp and a phenolic extract from Maclura tinctoria (Tajuva) heartwood. NFC-based aerogels were produced by freeze followed by lyophilization, in a way that the Tajuva extract acted as a functionalizing agent. The obtained aerogels showed high porosity (ranging from 97% to 99%) and low density (ranging from 0.025 to 0.040 g·cm−3), as well a typical network and sheet-like structure with 100 to 300 μm pores, which yielded compressive strengths ranging from 60 to 340 kPa. The reached antibacterial and antioxidant activities, percentage of inhibitions and water uptakes suggest that the aerogels can be used as fluid absorbers. Additionally, the immobilization of the Tajuva extract indicates the potential for dentistry applications. [ABSTRACT FROM AUTHOR]

Published

2021