Year: 1395
COI: JR_JMATPR-4-3_006
Language: EnglishView: 23
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Abstract:
The mechanical properties of microscopic particles have been a heated research object for it takes the deformation of micro-beads in the microfluidic environment into account. Sufficient knowledge on mechanical properties of micro-beads would lead to better device design and application for cell mechanics, tissue engineering, etc. The physical properties of alginate beads were examined both in normal condition and under compression, to illustrate its mechanical stability and to calculate the shear modulus through Hertz model. Furthermore, the modeling of physicochemical variation of micro-beads under the ultrasonic thermal effect was performed. The temperature rose simultaneously with ultrasonic thermal effect. The shear module and diameter of micro-beads changed with the increase of temperature in the solution. The descriptive model and the predictive model for the relationship between temperature and the module/diameter of micro-beads were established, and the validation process presented the effectiveness of the models.
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This Paper COI Code is JR_JMATPR-4-3_006. Also You can use the following address to link to this article. This link is permanent and is used as an article registration confirmation in the Civilica reference:https://civilica.com/doc/1282731/
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If you want to refer to this Paper in your research work, you can simply use the following phrase in the resources section:zhang, liguo and he, peiyuan and zhang, jianying and ji, zhenyu and xu, hongliang and zhang, zhuangli,1395,Numerical Modeling of the Shear Module of Alginate Micro-Beads under the Ultrasonic Thermal Effect,https://civilica.com/doc/1282731
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