An efficient closed-form method for determining interfacial heat transfer coefficient in metal forming

Keyphrases

• Metal Forming 100%
• Interfacial Heat Transfer 100%
• Closed-form Method 100%
• Numerical Model 33%
• Forming Conditions 33%
• Mechanical Properties 16%
• Heat Flux 16%
• Surface Roughness 16%
• Surface Temperature 16%
• Temperature Distribution 16%
• Numerical Procedure 16%
• Numerical Methods 16%
• Finite Element 16%
• Heat Transfer Model 16%
• Microstructure Evolution 16%
• Ti-6Al-4V (Ti64) 16%
• Metal Forming Process 16%
• Pressure Effect 16%
• Heat Transfer Analysis 16%
• Experimental Element 16%
• Evolution Properties 16%
• Hot Forging Process 16%
• Numerical Element 16%
• Contact Temperature 16%
• H13 Steel 16%
• Contact Condition 16%
• Hot Metal Forming 16%
• Gas Turbine Blade 16%

Engineering

• Metal Forming 100%
• Closed Form 100%
• Interfacial Heat Transfer Coefficient 100%
• Numerical Model 40%
• Heat Transfer Analysis 20%
• Microstructure Evolution 20%
• Heat Transfer Model 20%
• Finite Element Result 20%
• Ti-6al-4v 20%
• Formed Part 20%
• Hot Forging Process 20%
• Forming Condition 20%
• Gas Turbine 20%
• Hot Metal 20%
• Contact Condition 20%
• Numerical Methods 20%
• Heat Flux 20%
• Temperature Distribution 20%

Material Science

• Metal Forming 100%
• Surface Roughness 50%
• Ti-6Al-4V 50%
• Metal Forming Process 50%
• Contact Condition 50%
• Hot Forging 50%
• Surface (Surface Science) 50%
• Finite Element Methods 50%