Effect of alkali treatment time and extraction time on agar from Gracilaria vermiculophylla

AbstractThis experimental study was conducted to investigate the effect of NaOH concentration and treatment time on the flexural properties ofLuffa cylindricafiber-reinforced epoxy composites. Significant improvement (up to 84.92%) in the flexural properties for the treated fiber composite compared with the untreated fiber composite was observed. Both treated and untreated fiber composites were then subjected to different environmental treatments (saline water, distilled water, and subzero temperature). To find out the changes in flexural strength immediately after treatment, the same test was carried out on the composites. Degradation in the flexural strength of both treated and untreated fiber composites, when subjected to environmental treatments, was observed. They were found within the range of 2%–20% and were found to be least in subzero treatment. The SEM micrograph indicates that alkali treatment is effective in improving the adhesion between the fiber and matrix.

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Structural Evaluation on Sugarcane Bagasse Treated Using Sodium and Calcium Hydroxide

E3S Web of Conferences ◽

10.1051/e3sconf/201913001018 ◽

2019 ◽

Vol 130 ◽

pp. 01018

Author(s):

Juliana Anggono ◽

Hariyati Purwaningsih ◽

Suwandi Sugondo ◽

Steven Henrico ◽

Sanjaya Sewucipto ◽

...

Keyword(s):

Weight Loss ◽

Calcium Hydroxide ◽

Structural Changes ◽

Natural Fiber ◽

Treatment Time ◽

Alkali Treatment ◽

Natural Fibers ◽

Additional Treatment ◽

Structural Evaluation ◽

By Products

Greater interest in recent years to the increase demand in using natural fiber reinforcement of polymers is to comply with the increasing stringent international protocols related to climate change and environmental awareness. Many studies have reported the development of renewable and biodegradable agricultural by-products as reinforcement fibers for biocomposites. One of the essential factors in producing strong biocomposites is the properties prepared from the natural fibers which results from the alkalitreatment given. This research aims to evaluate the effect of different treatment duration on structural changes on sugarcane after alkali treatment using sodium hydroxide (NaOH) and calcium hydroxide (Ca(OH)2) solutions. Calcium hydroxide was used as comparative solution in search for milder and more environmental friendly alkali solution as an alternative solution of NaOH. Fourier Transform Infrared (FTIR) confirmed the major removal of lignin and minor of hemicellulose. It shows that the structure did not change considerably with the additional treatment time. The weight loss measurement after each treatmentshows a higher weight loss with the treatment with NaOH (40.5 % to 57.75 %) than the weight loss after Ca(OH)2 treatment (25 % to 46 %). Scanning electron microscope (SEM) observed the morphology changes onthe fiber from both treatments.

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Effects of Different Treatments on Surface Activity of Rice Straw Particleboard

Science of Advanced Materials ◽

10.1166/sam.2020.3528 ◽

2020 ◽

Vol 12 (2) ◽

pp. 289-295 ◽

Cited By ~ 4

Author(s):

Xian-Qing Xiong ◽

Ying-Ying Yuan ◽

Yi-Ting Niu ◽

Liang-Ting Zhang ◽

Zhi-Hui Wu

Keyword(s):

Rice Straw ◽

Surface Activity ◽

Treatment Time ◽

Ph Value ◽

Sodium Hydroxide Solution ◽

Alkali Treatment ◽

Surface Absorption ◽

Bonding Performance ◽

Absorption Performance ◽

Corona Treatment

The surface activity of rice straw particleboard (RSP), which has a significant effect on the finishing and bonding performance, is reduced by wax coating and free radicals on the straw fiber. The RSP surface was treated by corona treatment and alkali treatment to reveal the effects of different treatments on the surface activity of RSP. The infiltration height method was applied to evaluate the variation of surface activity. The alkalized samples of RSP with different densities were prepared by using sodium hydroxide solution with pH value of 8∼14. The samples of different densities were then subjected to corona treatment under high purity oxygen conditions with treatment power of 50 W, 100 W, 300 W, and 500 W and with a time of 4 min or 7 min. The surface activity of the treated specimens was evaluated by measuring the absorption properties of three kinds of liquids by infiltration-height method: distilled water, glycerin, and alcohol. The results revealed the following. (1) After alkalization treatment, the surface absorption performance of RSP for these three liquids was improved, and it increased with the increase of pH value of the treatment solution. The suitable pH value of the alkalized solution for RSP is 7∼11, which can improve the surface absorption performance. (2) After corona treatment, the surface absorption performance of RSP increased with the increase of corona treatment power. RSP had the highest surface absorption performance for alcohol. With the density of RSP increased, the surface absorbability slightly decreased. Therefore, it is not suitable to utilize corona treatment in improving absorption for the higher density RSP. At the same time, with the variation of corona treatment time, the absorption of RSP surface changed irregularly because of the polarity of different test liquids. (3) The reasonable parameters of alkalization treatment and corona treatment are beneficial in improving the gluability of RSP. These results have guiding significance for RSP surface decoration process.

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The Effect of Alkali Treatment And Microcrystalline Cellulose Addition on Density Value of Cantala Fiber Reinforced Unsaturated Polyester Composites

Mekanika: Majalah Ilmiah Mekanika ◽

10.20961/mekanika.v20i1.47460 ◽

2021 ◽

Vol 20 (1) ◽

pp. 1

Author(s):

Muhammad Ghozali ◽

Dody Ariawan ◽

Eko Surojo

Keyword(s):

Microcrystalline Cellulose ◽

Natural Fiber ◽

Volume Fraction ◽

Treatment Time ◽

Alkali Treatment ◽

Unsaturated Polyester ◽

Reinforced Composites ◽

Fiber Reinforced ◽

Molding Method ◽

Polyester Composites

Natural fiber reinforced composites is one materials potentially developing in Indonesia. One of biggest problem with composites specimen is its void. One properties to find out void of composites is composites density value. The objective of research is to investigate the effect of fiber alkali (NaOH) treatment and microcrystalline cellulose (MCC) addition on density value of cantala fiber reinforced unsaturated polyester composites. Firstly, cantala fibers was submerged into alkali (NaOH) 6% solution for 0, 3, 6, 9, and 12 hours. Furthermore, the fiber was washed using acetid acid and then using clean water to reach pH 7. Thereafter, cantala fiber was dried in the oven for 10 hours at temperature 600C. Composites was composed of cantala fiber, unsaturated polyester polymer matrix, and microcrystalline cellulose according to the composition with volume fraction 30%. Composites was casted using compression molding method with compressive strength of 10 MPa for 12 hours. All specimens of composites undertake post cure for 2 hours at 600C. Density test was conducted using densimeter by calculating the density of composites in the air and the water. The result of research showed that the longer the alkali treatment time and the more addition of microcrystalline cellulose (MCC) filler, the higher is the composites density. The higher density value of cantala fiber reinforced unsaturated polyester is alkali treatment 6 hours, which was 1.223 gr/cm3.

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Influence of Alkaline Treatment on Structural Modifications of Chlorophyll Pigments in NaOH—Treated Table Olives Preserved without Fermentation

Foods ◽

10.3390/foods9060701 ◽

2020 ◽

Vol 9 (6) ◽

pp. 701

Author(s):

Marta Berlanga-Del Pozo ◽

Lourdes Gallardo-Guerrero ◽

Beatriz Gandul-Rojas

Keyword(s):

Structural Changes ◽

Treatment Time ◽

Alkali Treatment ◽

Alkaline Treatment ◽

Table Olives ◽

Chlorophyll Pigments ◽

Structural Modifications ◽

Degradation Reactions ◽

One Year ◽

Fruit Preservation

Alkaline treatment is a key stage in the production of green table olives and its main aim is rapid debittering of the fruit. Its action is complex, with structural changes in both the skin and the pulp, and loss of bioactive components in addition to the bitter glycoside oleuropein. One of the components seriously affected are chlorophylls, which are located mainly in the skin of the fresh fruit. Chlorophyll pigments are responsible for the highly-valued green color typical of table olive specialties not preserved by fermentation. Subsequently, the effect on chlorophylls of nine processes, differentiated by NaOH concentration and/or treatment time, after one year of fruit preservation under refrigeration conditions, was investigated. A direct relationship was found between the intensity of the alkali treatment and the degree of chlorophyll degradation, with losses of more than 60% being recorded when NaOH concentration of 4% or greater were used. Oxidation with opening of the isocyclic ring was the main structural change, followed by pheophytinization and degradation to colorless products. To a lesser extent, decarbomethoxylation and dephytylation reactions were detected. An increase in NaOH from 2% to 5% reduced the treatment time from 7 to 4 h, but fostered greater formation of allomerized derivatives, and caused a significant decrease in the chlorophyll content of the olives. However, NaOH concentrations between 6% and 10% did not lead to further time reductions, which remained at 3 h, nor to a significant increase in oxidized compounds, though the proportion of isochlorin e4-type derivatives was modified. Chlorophyll compounds of series b were more prone to oxidation and degradation reactions to colorless products than those of series a. However, the latter showed a higher degree of pheophytinization, and, exclusively, decarbomethoxylation and dephytylation reactions.

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Effects of High-Concentration Alkali Treatment on Surface Bioactivity of Porous Titanium

Journal of Nanoelectronics and Optoelectronics ◽

10.1166/jno.2020.2752 ◽

2020 ◽

Vol 15 (1) ◽

pp. 154-160

Author(s):

Xingping Fan

Keyword(s):

Bone Formation ◽

Treatment Time ◽

Sodium Hydroxide Solution ◽

Alkali Treatment ◽

Porous Titanium ◽

Surface Activation ◽

Bone Induction ◽

Back Muscle ◽

High Concentration ◽

Dense Titanium

Various surface treatment methods have been used to modify the surface activation of dense titanium. In this study, a high concentration of sodium hydroxide solution was used to treat porous titanium prepared by adding porous agent at different times. The results of the study showed that after alkali treatment, porous titanium was implanted into the back muscle of the dog and the implanted sample was taken out for bone formation protein-2 enzymatic immunoassay after 6 months. The porous titanium inner wall has been covered. The microstructures vary with the treatment time. The treated surface can induce the formation of hydroxyapatite deposition and promote the expression of BMP-2, which shows good bone induction. High concentration alkali treatment of porous titanium, the method is simple, can shorten the HA formation time, can effectively activate porous titanium inner and outer surfaces, is an effective method to prepare bioactive porous titanium.

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Characterization of Mechanical Properties of Date Palm Fronds Reinforced Composites: A Comparative Evaluation

Volume 14: Emerging Technologies; Materials: Genetics to Structures; Safety Engineering and Risk Analysis ◽

10.1115/imece2016-66573 ◽

2016 ◽

Cited By ~ 2

Author(s):

K. Alzebdeh ◽

M. Nassar ◽

H. Al Rawahi ◽

N. Al-Hinai

Keyword(s):

Mechanical Properties ◽

Design Of Experiment ◽

Date Palm ◽

Volume Fraction ◽

Treatment Time ◽

Alkali Treatment ◽

Industrial Applications ◽

Low Density ◽

Fiber Volume ◽

Palm Frond

Due to many advantages of using natural resources, natural fibers have been used recently as a method of providing added strength and ductility to reinforced polymer composites. This is mainly due to their availability, renewability, low density, cost effectiveness as well as satisfactory mechanical properties. This paper presents fabrication and experimental characterization analysis of mechanical properties of a class of bio-composite in which polypropylene (PP) and low density polyethylene (LDPE) are reinforced with date palm frond fibers. Bio-composite sheets were fabricated with controlled processing parameters based on small factorial design in order to develop a statistical model for response using fractional design of experiment. In a Design of Experiment (DoE) procedure, we identify three different factors along with three different levels; fiber volume fraction (20, 40, and 60 vt. %), alkali treatment (10, 15, and 20 Wt. %), and treatment time (2, 4, and 6 h). In this study, NaOH alkali solution is used to modify the fiber properties and improve surface characteristics. The tensile and flexural strengths of specimens prepared according to ASTM standards were measured by direct physical testing. Also, the Response Surface Methodology (RSM) is adopted to analyze interactions among the input factors and their effect on overall mechanical properties of the fabricated composite. Results revealed that fiber length and percentage of NaOH treatment have a significant impact on the composite properties. The date palm frond reinforced polypropylene composites could serve as a potential material in broad range of industrial applications in which high strength is not a main design requirement.

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