The aims of this study were to obtain the optimal concentration of NaOH and trichloroacetic acid in the process of making CMC from bacterial cellulose. The experimental design used is response surface method. In the present study, NaOH as the variable X1 is concentration with a minimum limit (-1) of 30%, optimal limit (0) of 35% while the maximum limit (+1) of 40%. Variable X2 is the trichloroacetic acid concentration with a minimum limit (-1) of 25%, an optimal limit (0) of 30% and a maximum limit (+1) of 35%. Based on calculations using the program, expert design combination of treatments was obtained by 13 samples. The selection of the treatment above is based ...
Sago biomass is an agro-industrial waste produced in large quantities, mainly in the Asia-Pacific re...
Nata de coco was used as raw material for the preparation of food-grade carboxymethylcellulose refer...
In this experiment, Paulownia fiber plant is ground to 0.5-1 cm. In order to determine the optimum a...
Carboxymethyl cellulose (CMC) is an impor- tant industrial polymer with a wide range of applications...
Carboxymethyl cellulose (CMC) is one of the important cellulose derivatives in industries, which is ...
Production of CMC (Carboximethyl Cellulose) from Bacterial Cellulose (Nata de Coco)ABSTRACT. Bacteri...
Among the multiple industrial applications of carboxymethyl cellulose (CMC), those related to food a...
Palm midrib contain 89.63 % of cellulose. Cellulose is the main raw material synthesis of carboxy me...
The aim of this research was to determine the effect of NaOH concentration on cellulose characterist...
Nowadays, the application of cellulose as renewable polymer and bio materials has been a great attra...
Corn Husk contains cellulose that can be utilized in modified cellulose for food industry, as carbox...
AbstractIn this paper, to find out the best technological conditions of extracting microcrystalline ...
Bacterial cellulose is a type of biopolymer that produced by Acetobacter xylinum in high purity,high...
Sago pulp (57% w/w) isolated from sago waste was converted to carboxymethyl cellulose (CMC) by ether...
BACKGROUND: This paper describes the reuse of paper sludge, an industrial solid waste, for the prepa...
Sago biomass is an agro-industrial waste produced in large quantities, mainly in the Asia-Pacific re...
Nata de coco was used as raw material for the preparation of food-grade carboxymethylcellulose refer...
In this experiment, Paulownia fiber plant is ground to 0.5-1 cm. In order to determine the optimum a...
Carboxymethyl cellulose (CMC) is an impor- tant industrial polymer with a wide range of applications...
Carboxymethyl cellulose (CMC) is one of the important cellulose derivatives in industries, which is ...
Production of CMC (Carboximethyl Cellulose) from Bacterial Cellulose (Nata de Coco)ABSTRACT. Bacteri...
Among the multiple industrial applications of carboxymethyl cellulose (CMC), those related to food a...
Palm midrib contain 89.63 % of cellulose. Cellulose is the main raw material synthesis of carboxy me...
The aim of this research was to determine the effect of NaOH concentration on cellulose characterist...
Nowadays, the application of cellulose as renewable polymer and bio materials has been a great attra...
Corn Husk contains cellulose that can be utilized in modified cellulose for food industry, as carbox...
AbstractIn this paper, to find out the best technological conditions of extracting microcrystalline ...
Bacterial cellulose is a type of biopolymer that produced by Acetobacter xylinum in high purity,high...
Sago pulp (57% w/w) isolated from sago waste was converted to carboxymethyl cellulose (CMC) by ether...
BACKGROUND: This paper describes the reuse of paper sludge, an industrial solid waste, for the prepa...
Sago biomass is an agro-industrial waste produced in large quantities, mainly in the Asia-Pacific re...
Nata de coco was used as raw material for the preparation of food-grade carboxymethylcellulose refer...
In this experiment, Paulownia fiber plant is ground to 0.5-1 cm. In order to determine the optimum a...
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