Paper Info
Title
Compact model for the characterization of a piezoelectric bend-mode droplet generator
Abstract
In the present paper a compact model for a piezoelectric drop-on-demand (DoD) printhead is derived from basic electrical, mechanical and fluid mechanical relationships. The model covers the whole droplet generation process, spanning over the electrical as well as the mechanical and fluidmechanical domains. It allows predictions about essential droplet characteristics, such as droplet volume and flight velocity, for a given set of droplet generator (DG) dimensions, material and fluid properties and a predetermined electrical excitation. This enables the targeted adaption of the droplet generator's design to varying application requirements, such as different fluid properties, with a minimum number of design iterations. The model is implemented by transferring the resulting differential equations to the Matlab/SIMULINK™ simulation environment. It is verified by comparing its output with an extensive empirical dataset which is obtained by fabricating a selection of droplet generators with different geometrical dimensions and testing them with several different fluids. Despite the fact that the model is based on strongly simplified physical relationships, it is able to accurately predict the minimum excitation voltage needed for droplet generation as well as the droplet velocity. However, the volume of the ejected droplets could not be predicted with satisfactory results, which is attributed to the limited accuracy of the nozzle submodel.
Year
DOI
Venue
2014
10.1109/ROBIO.2014.7090730
Robotics and Biomimetics
Keywords
Field
DocType
differential equations,drops,fluid dynamics,mathematics computing,nozzles,piezoelectric devices,printing machinery,Matlab,Simulink,differential equations,fluid mechanical relationships,nozzles,piezoelectric bend-mode droplet generator,piezoelectric drop-on-demand printhead,predetermined electrical excitation
Differential equation,MATLAB,Mechanical engineering,Excitation,Control engineering,Engineering,Drop (liquid),Nozzle,Piezoelectricity
Conference
Citations 
PageRank 
References 
0
0.34
3
Authors
4
Name
Order
Citations
PageRank
Dominik Rumschoettel100.68
Markus Kagerer231.85
Franz Irlinger364.13
Tim C. Lueth44310.43