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Volume 14, Problème 6 (2022)

Mini-revue

Automated Flexure Conduct of Bio-Enlivened Collagen-Maintained Flimsy Fusions

Rami Haj

Delicate tissue can be seen as a complex composite construction supported with various collagen fiber frameworks used to control the by and large mechanical properties. The target of this review was to fabricate, test and model the mechanical way of behaving of a multidirectional collagen built up composite material framework. With that in mind, novel bio-composite develops were manufactured from long collagen filaments supported polyacrylamide-alginate (PAAm-Alg) network. The collagen filaments were adjusted in multi-bearings inside flimsy roundabout network plates. The develops were braced and exposed to flexure utilizing an inflexible circular indenter. Three layered limited component (FE) models were produced with continuum and shaft components addressing the framework and filaments, individually. The hyperelastic conduct anticipated by the adjusted FE models was approved in light of the consequences of one tried design. The new bio-motivated composites can be custom-made to produce comparable mechanical way of behaving of local tissues. The FE model can be utilized to plan future complex builds for delicate tissue substitutes.

Mini-revue

Ultrasonically Helped Cutting of Bio-tissues in Microtomy

Dong Wang

Present day microtomy requires high accuracy gear to segment natural tissues meagerly. The separated tissue should be of good quality not showing cutting tracks or something like that called ancient rarities. The nature of these areas is reliant upon the sharp edge wear, which is connected with the hardness of the tissue test, cutting point and cutting rate. A test rig has been planned and made to permit these boundaries to be controlled. This has considered the sharp edge wear to be examined and measured, and this has been finished for both ultrasonically helped and traditional cutting. The got results showed a 25.2% decline in normal sharp edge unpleasantness after 38 cuts while utilizing the ultrasonically helped cutting system. The information likewise showed no antagonistic impact on the nature of the slides delivered while utilizing this cutting philosophy. At long last, the cutting power estimated for both cutting systems showed that ultrasonically helped slicing required less power contrasted with traditional cutting. With the decrease of surface harshness and power, it is feasible to express that ultrasonically helped cutting lessens the wear of the edge, consequently expanding the existence of the edges. An increment of only 10% in cutting edge life would yield an expense saving of roughly 25% consequently diminishing the ecological and monetary effect of microtomy.

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