H evaluated by quantitative measurement of crystal violet staining as an
H evaluated by quantitative measurement of crystal violet staining as an indicator of indicator of biomass accumulation on CA/AlN composites, (d) Quantitative comparison of accubiomass accumulation on CA/AlN composites, (d) Quantitative comparison of accumulated biomass mulated biomass in (c). in (c).4. Discussion four. Discussion The outcomes from the laser microscope, FTIR and Raman spectroscopy clearly show the The outcomes with the laser microscope, FTIR and Raman spectroscopy clearly show the surface morphology and chemical composition from the CA/AlN composites. The surface surface morphology and chemical composition on the CA/AlN composites. The surface roughness increases as a function of AlN concentration. Raman spectra clearly showed roughness increases as a function of AlN concentration. Raman spectra clearly showed the the presence of AlN particles which had been hard to observe by FTIR. There was no observpresence of AlN particles which have been hard to observe by FTIR. There was no observable capable alteration chemical bonds of each CA and AlN in the course of through the casting which alteration in the in the chemical bonds of both CA and AlN the casting procedure approach which were clearly noticed from FTIR and Raman spectroscopy. had been clearly noticed from FTIR and Raman spectroscopy. The Cholesteryl sulfate References mechanical properties on the composites are impacted by AlN concentration: the The mechanical properties from the composites are impacted by AlN concentration: the ultimatestrength, the elongation as well as the toughness SBP-3264 Cancer enhance with aa low concentration of ultimate strength, the elongation and the toughness raise with low concentration of AlN of wt. , then decreases with AlN concentration of ten wt. and above. The Young AlN of 55 wt. , then decreases with AlN concentration of ten wt. and above. The Young modulus from the composite also increases with AlN contents of and ten wt. then demodulus with the composite also increases with AlN contents of 55and ten wt. , , then creases when the AlN concentrations attain 15 and 20 wt. . The mechanical behaviors of decreases when the AlN concentrations reach 15 and 20 wt. . The mechanical behaviors the CA/AlN composites could possibly be explained by the phenomenon known as “mechanical perof the CA/AlN composites could possibly be explained by the phenomenon referred to as “mechanical collation” [33]. Frequently, in the the polymer/filler composite system, the mechanical per-collation” [33]. Commonly, inpolymer/filler composite system, the mechanical properties of the in the composite will boost until concentration reaches crucial a essential properties composite will increase till the fillerthe filler concentrationareaches worth, and after that and after that with additional filler content. content. concentration on the AlN particles worth, decreases decreases with further filler The highThe high concentration of your AlN could cause the formation of agglomerates within the polymer matrix, have an effect on the homogeneity particles could cause the formation of agglomerates within the polymer matrix, influence the in the CA/AlN the CA/AlN composites, and causing decrease mechanical homogeneity of composites, and causing lower mechanical properties. properties. The thermal properties have been affected by the presence of reinforcing powders: the T The thermal properties had been affected by the presence of reinforcing powders: the Tm m and g values shows an increment. These increments may be attributed towards the presence and TTgvalues shows an increment. These increments may very well be attributed towards the presence of.