Physical-mechanical properties of fibre cement elements made of rice straw, sugar cane bagasse, banana raquis and coconut husk fibres

ABSTRACT The objective of this study is to assess the effect of the laminar inclusion on the physical and mechanical properties of sugarcane bagasse particleboard. We used the commercial panels of sugarcane bagasse produced in China. To evaluate the effect of the laminar inclusion was tested two wood species (Pinus and Eucalyptus) and two pressures (10 and 15 kgf.cm-2) along with a control (without laminar inclusion). The panels with laminar inclusion obtained improvements in the physical properties, with a significant reduction in the WA2h, WA24h and TS2h. There was a significant increase in the properties MOE and MOR parallel and Janka hardness, while the properties MOE and MOR perpendicular decreased significantly. The pinus and eucalyptus veneers inclusion resulted in similar results when added to the panel with a 10 kgf.cm-2 pressure. The use of 15 kgf.cm-2 pressure is not indicated for the pinus veneer inclusion in sugar cane bagasse panels. There was no effect of the pressure level when evaluating the eucalyptus veneer inclusion on the properties of the sugarcane bagasse panels.

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Study of non-conventional fuels for explosives mixes

Rem Revista Escola de Minas ◽

10.1590/s0370-44672014000300009 ◽

2014 ◽

Vol 67 (3) ◽

pp. 297-302 ◽

Cited By ~ 3

Author(s):

Salatiel Assis Resende ◽

Valdir Costa e Silva ◽

Hernani Mota de Lima

Keyword(s):

Ammonium Nitrate ◽

Rice Straw ◽

Detonation Velocity ◽

Sugar Cane ◽

Alternative Fuels ◽

Low Cost ◽

Poor Performance ◽

Sugar Cane Bagasse ◽

Fuel Oil ◽

Corn Cob

The use of ammonium nitrate and fuel oil (ANFO) results in low cost blasting. Such costs may be further reduced by replacing fuel oil with alternative fuels such as biomass (biodiesel, rice straw, corn cob, sugar cane bagasse) and tires residue. This paper investigates the use of other fuels instead of fuel oil by measuring the detonation velocity (VOD) and verifying the importance of these fuels in an explosive mixture. Except for biodiesel, all the tests conducted for the mixture of ammonium nitrate and alternative fuels showed poor performance when compared with ANFO. The achieved percentage of detonation velocity (VOD) of the mixtures in relation to the ANFO were 55.4% for ammonium nitrate + rice straw, 64.9% for ammonium nitrate + corn cob, 70.1% for ammonium nitrate + sugar cane bagasse, 74.4% for ammonium nitrate + tires residue and 93.7% for ammonium nitrate + biodiesel. This study indicates that the methodology proposed can be applied as a reference for determination and preparation of explosive mixtures of fuel and oxidizing agents since in all the tests conducted the detonation of the charges occurred.

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Sugar cane bagasse ash as a partial substitute of Portland cement: Effect on mechanical properties and emission of carbon dioxide

Journal of Environmental Chemical Engineering ◽

10.1016/j.jece.2020.103655 ◽

2020 ◽

Vol 8 (2) ◽

pp. 103655 ◽

Cited By ~ 9

Author(s):

Romildo A. Berenguer ◽

Ana Paula B. Capraro ◽

Marcelo H. Farias de Medeiros ◽

Arnaldo M.P. Carneiro ◽

Romilde A. De Oliveira

Keyword(s):

Mechanical Properties ◽

Carbon Dioxide ◽

Portland Cement ◽

Sugar Cane ◽

Sugar Cane Bagasse ◽

Sugar Cane Bagasse Ash

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Mechanical Properties of Adobe Made with Sugar Cane Bagasse and “Synthetic Termite Saliva” Incorporation

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.634.351 ◽

2014 ◽

Vol 634 ◽

pp. 351-356 ◽

Cited By ~ 2

Author(s):

Andréa Aparecida Ribeiro Corrêa ◽

Thiago de Paula Protásio ◽

José Tarcísio de Lima ◽

Gustavo Denzin Tonoli ◽

Lourival Marin Mendes

Keyword(s):

Mechanical Properties ◽

Sugar Cane ◽

Aluminum Sulfate ◽

Bending Strength ◽

Dry Mass ◽

Sugar Cane Bagasse ◽

Residual Water ◽

Positive Interaction ◽

Size Correction ◽

Red Latosol

Among non-conventional materials available in Brazil for construction, sugar cane bagasse lignocellulosic particles and “synthetic termite saliva” are included. The utilization of such particles as reinforcement and the “synthetic termite saliva” for soil chemical stabilization in adobe production were not investigated in the literature yet. Therefore, this research aimed to evaluate the mechanical properties of adobes produced with those materials. The soil used was Red Latosol Cambisol type with clayey texture with kaolinite presence, and particle size correction for 50% sand. Bagasse sliver particles were washed with residual water of the distillation process at 45°C and air dried. Their density and chemical composition were determined. The adobes were produced with 30x15x8cm-size wood molds. The following samples were analyzed: adobes without particles (control); and adobes with bagasse incorporation at 2%, 4% and 6% based on dry mass and “synthetic termite saliva” at 1:1500 and 1:500 proportions. Aluminum sulfate solvent was applied at 1:5,000. The adobes were stored in a covered warehouse until complete drying. Compression and static bending strength were evaluated. The results showed a positive interaction between adobe components and compression strength, which was improved up to 60%. The best composition tested was 6% sugar cane bagasse and “synthetic termite saliva” at 1:500.

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Evaluating the effects of agricultural wastes on concrete and composite mechanical properties: a review

Research on Engineering Structures and Materials ◽

10.17515/resm2021.339st0912 ◽

2022 ◽

Author(s):

Abiodun Kilani ◽

◽

Christopher Fapohunda ◽

Oluwatobi Adeleke ◽

Charity Metiboba ◽

...

Keyword(s):

Mechanical Properties ◽

Sugar Cane ◽

Oil Palm ◽

Sugar Cane Bagasse ◽

Agricultural Wastes ◽

Coconut Shell ◽

Full Data ◽

Hemp Fiber ◽

Palm Fiber ◽

Concrete Production

Wastes generation and emission of greenhouse gases are the major concerns of the contemporary world. Concrete’s cements companies in the globe are producing up to 2.8 billion tons of cements annually. This contributed to the emission of anthropogenic substances into the atmosphere which destroys the ozone layers. The incessant disposal of these agricultural wastes has detrimental effect on the environmental and human health. Thus, utilizing these wastes as secondary resources in concrete is a reasonable consideration in sustainable waste management in the circular economy. The use of agricultural wastes in concrete production has been gaining attraction in recent years, however, their effectiveness and performance in concrete need evaluation. This study presents an overview of the effects of some agricultural wastes: Bagasse, Coconut shell, Cotton, Oil palm and Hemp fibers on concrete and composite’s mechanical properties. As reviewed, Sugar-Cane Bagasse Ash (SCBA) and Coconut Shell Ash (CSA) are rich in cementitious (pozzolanic) properties (SiO2, Fe2O3 and Al2O3) for cement production up to 70%. Sugar-cane bagasse and oil palm-fiber ashes improved concrete workability. SCBA and CSA highly increased the concrete compressive strengths. The concrete tensile strengths were increased up to 97% with the inclusion of cotton and bagasse ashes. The SCBA, hemp-fiber and treated oil palm - fiber ash increased the concrete and composite’s flexural strengths up to 11.3%, 26.2% and 50.7% respectively. In conclusion, the output of this review will supply full data of the research gaps yet to cover on the use of agro-wastes in concrete for future investigations

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Production of printing and writing paper grade pulp of sugar cane bagasse

TAPPI Journal ◽

10.32964/tj13.6.35 ◽

2014 ◽

Vol 13 (6) ◽

pp. 35-44 ◽

Cited By ~ 2

Author(s):

MARCELA FREITAS ANDRADE ◽

JORGE LUIZ COLODETTE ◽

RUBENS CHAVES DE OLIVEIRA ◽

CAROLINA MARANGON JARDIM ◽

HASAN JAMEEL

Keyword(s):

Mechanical Properties ◽

Sugar Cane ◽

Strength Properties ◽

Sugar Cane Bagasse ◽

Energy Consumptions

The main goal of this study was to evaluate the potential of depithed bagasse for the production of printing and writing paper. Industrial whole bagasse was separated into two fractions: pith and depithed bagasse. The depithed bagasse was cooked by the soda process to two different degrees of delignification. The resulting pulps were fully bleached by the O-D*-(EP)-D sequence and characterized for their beatability, drainability, and physical-mechanical properties. Bleached soda pulps cooked to kappa 17.5 and 10.8 showed similar refinability and resistance to drainage, but the strength properties (tensile, burst, and tear) were slightly higher for the kappa 17.5 pulp at beating energy consumptions in the range of 2-7 W•h. We concluded that both pulps from depithed sugar cane bagasse would be suitable for the production of printing and writing paper grade pulps, but the higher kappa pulp is more economically attractive given its higher pulping yield, without significantly increasing the bleaching chemical demand.

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