@article{Zendehbad_Yang_2015, title={CONTROLLABLE FABRICATION OF BC BASED ON SHAKE REGULATES}, volume={11}, url={https://eujournal.org/index.php/esj/article/view/6750}, DOI={10.19044/esj.2015.v11n36p%p}, abstractNote={To manufacture a high-quality and appropriate standard product its structure and manufacturing procedure must be controlled. Biomaterials have several features including biocompatibility, applicability and effectiveness in different environments; however, there are some limitations associated with development. Bacterial cellulose (BC) achieved from Gluconacetobacter / Acetobacter Xylinum is a highly crystalline and mechanically stable nanopolymer. BC establishes unique properties containing high-water holding and elevated porosity, high mechanical strength and superior crystallinity. Its properties make it a very useful biomaterial in various processes. However, its physical features (dimension) are challenging and are supposed to be controllable, manageable and invariable in repetitive experiments. Therefore, in this paper, a convenient method of BC fabrication is introduced using Shake regulates. Examining the results of measuring and charting behavior, the effectiveness of this method has been proven. This technique obtains several advantages consisting of invariable BC thickness and interchangeable samples in recapitulation investigations.}, number={36}, journal={European Scientific Journal, ESJ}, author={Zendehbad, S. Morteza and Yang, Guang}, year={2015}, month={Dec.} }