Iscoelastic microporous and fiber material and it is actually is metal aluminum foil silicon powder, metal aluminum foil, and fiber cloth. Its of nanoscale surfaceiscomposed it is actually a sort (thehigh strength viscoelasticfoil, and fiberTheinsulation detailed structure Figure two). cloth. Its and it silicon powder, metal is shown inmicroporous size Beijing,composed of nanoscale ofdetailed structure is aluminumFigure two). The size is ten China, surface is metal aluminum foil (the width length). The finished item is shown in is 10 400 600 mm (thickness detailed structure isshown in Figure two). The size is 10 surface is foil (the shown in aluminum foil, and it can be metal aluminumnanoscale silicon 400 three. composed of width length). Thepowder, metal is shown in Figure and fiber c Figure00 mm (thickness width length). Thefinished solution is shown in Figure3. 400 600 mm (thickness completed product three.surface is metal aluminum foil (the detailed structure is shown in Figure 2). The s 400 600 mm (thickness width length). The finished solution is shown in FigFigure two. SACIP structure Glycol chitosan References diagram. Figure 2. SACIP structure diagram. Figure two. SACIP structure diagram.Figure two. SACIP structure diagram.Figure 3. (a) Side of SACIP and (b) front of SACIP. Figure 3. (a) Side of SACIP and (b) front of SACIP. Figure three. (a) Side of SACIP and (b) front of SACIP.two.1.two. Principal Functionality Parameters The SACIP and OCRIP had been sent towards the National Refractory High-quality Supervision and Inspection Center of Luoyang, China for testing. The test final results are shown in Table 1.Figure three. (a) Side of SACIP and (b) front of SACIP.Coatings 2021, 11, x FOR PEER REVIEW4 ofCoatings 2021, 11,two.1.two. Main Functionality Parameters two.1.two. Main Performance Parameters The SACIP and OCRIP had been sent for the National Refractory Top quality Supervision of 18 four as well as the SACIP and OCRIP had been sent for the National Refractory High-quality Supervisionand Inspection Center of Luoyang, China for testing. The test outcomes are shown in Table 1. Inspection Center of Luoyang, China for testing. The test outcomes are shown in Table 1.Table 1. Test information.Table 1. Test information. Table 1. Test information.Material Material OCRIP OCRIP SACIP SACIPAntiviral Compound Library Protocol density (Kg/m3Material 3 Density (Kg/m)) 536 536 149OCRIP SACIPRefractoriness C) Refractoriness (Density (kg/m3 ) 1560 1560 536 1760 149Physical Parameters Physical Parameters Physical Parameters Thermal Conductivity (W/mk) Thermal Conductivity (W/mk) Thermal Conductivity (W/mK) Hot ( C) C) RefractorinessSurface Temperature: 800 } {Hot SurfaceHot Surface Temperature: 800 ( C) Temperature: 800 (0.073 0.073 1560 0.073 0.031 1760 0.031 0.Table 11shows that the SACIP has high refractoriness, low bulk density and low therTable shows that the SACIP has higher refractoriness, low bulk density low low Table 1 shows that the SACIP has higher refractoriness, low bulk density and and thermal conductivity. The thermal conductivity is only 0.031 W/mk at 800 , that is 0.042 mal conductivity. TheThe thermal conductivity is only 0.031 W/mK at , which can be 0.042 thermal conductivity. thermal conductivity is only 0.031 W/mk at 800 800 C, which is W/mk lower than the OCRIP. W/mk lower than than the OCRIP. 0.042 W/mK lowerthe OCRIP. 2.1.three. System of Use two.1.three. System of Use two.1.3. Method of Use the steel ladle is composed of two parts: steel shell and refractory supplies. The reThe steel ladle is composed of two components: steel shell and refractory components. The recomposed of two parts: steel shell and refractory materials. The The st.
