Interfacial Thermal Resistance and the Solidification Behavior of the Al/SiC_pComposites

“…Increasing the pressure decreases the solidification time from 60 seconds to 42 seconds [2]. Figure 5 shows the various squeeze pressures cooling curves for both experiment and FEA study of Al/SiCp composite.…”

“…It can pose a tremendous amount of strength at high-temperature applications; the capability to reveal low thermal shock and excellent wear resistance at less weight is the unique characteristics. ere are many manufacturing methods to produce MMCs on which solid-and liquid-state processing is the promising route for developing the composites [2]. In solid-state processing, the interfacial reaction between base alloy and ceramic particles is not right in agreement.…”

Finite Element Analysis of Temperature Distribution and Stress Behavior of Squeeze Pressure Composites

“…Increasing the pressure decreases the solidification time from 60 seconds to 42 seconds [2]. Figure 5 shows the various squeeze pressures cooling curves for both experiment and FEA study of Al/SiCp composite.…”

“…It can pose a tremendous amount of strength at high-temperature applications; the capability to reveal low thermal shock and excellent wear resistance at less weight is the unique characteristics. ere are many manufacturing methods to produce MMCs on which solid-and liquid-state processing is the promising route for developing the composites [2]. In solid-state processing, the interfacial reaction between base alloy and ceramic particles is not right in agreement.…”

Finite Element Analysis of Temperature Distribution and Stress Behavior of Squeeze Pressure Composites

“…10) On the one hand, increasing pressure could decrease the heat resistance at ingot/mould interface and enhance the cooling rate of ingots, providing a fine solidification structure. [11][12][13][14] On the other hand, increasing pressure could affect the thermodynamic and kinetic parameters, and change the solidification mode. 15,16) Zhu et al 16) pointed that the transformation from FA to A mode may occur in the solidification of 19Cr14Mn4Mo0.8N stainless steel with the increase of pressure from 0.1 MPa to1 GPa.…”

“…Meanwhile, the Q loss increases with an increase in pressure because increasing pressure could decrease the air gap. [10][11][12][13][14] However, the pool depth increased from 28 to 34 mm. This indicated that there was also an increase in the heat transfer rate at the slag/pool interface.…”

Effects of Nitrogen Gas Pressure on the Solidification Parameters and As-cast Microstructure Revolution during Pressurized Electroslag Remelting AISI 304 Stainless Steel

“…A large number of micro cracks have been observed on the recast layer. Cracks appearing on the recast layer are due to high tensile stress developed due to inadequate joining of melted droplets which induces a lot of stress gradient & significant tensile strength of the composite material [19][20].…”

Experimental Analysis of Al–TiC Sintered Nanocomposite on EDM Process Parameters Using ANOVA