Real-time diagnosis of micro powder injection molding using integrated ultrasonic sensors.
Publication date
2007Keyword
Ceramic powder injection mouldingMicromolding
Real-time diagnostics
Miniature ultrasonic sensors
Process efficiency
Peer-Reviewed
Yes
Metadata
Show full item recordAbstract
Real-time diagnostics of ceramic powder injection molding using a commercial micromolding machine was performed using ultrasound. Miniature ultrasonic sensors were integrated onto the mold insert. Melt front, solidification, temperature variation and part detachment of the feedstock inside the mold cavity were observed. It has been demonstrated that ultrasonic velocity in feedstock inside the mold cavity, the ultrasonic contact duration during which the part and mold are in contact, and holding pressure can be used to assist with optimization of injection and cooling parameters to minimize energy consumption and maximize process efficiency.Real-time diagnostics of ceramic powder injection molding using a commercial micromolding machine was performed using ultrasound. Miniature ultrasonic sensors were integrated onto the mold insert. Melt front, solidification, temperature variation and part detachment of the feedstock inside the mold cavity were observed. It has been demonstrated that ultrasonic velocity in feedstock inside the mold cavity, the ultrasonic contact duration during which the part and mold are in contact, and holding pressure can be used to assist with optimization of injection and cooling parameters to minimize energy consumption and maximize process efficiency.Version
published version paperCitation
Cheng, C. C., Ono, Y., Whiteside, B. D., Brown, E. C., Jen, C. K., Coates, P. D. (2007). Real-time diagnosis of micro powder injection molding using integrated ultrasonic sensors. International Polymer Processing, Vol. 20, No. 2, pp. 140-145.Link to Version of Record
https://doi.org/10.3139/217.0013Type
Articleae974a485f413a2113503eed53cd6c53
https://doi.org/10.3139/217.0013