4 research outputs found
Wetting of Inkjet Polymer Droplets on Porous Alumina Substrates
The
resolution of inkjet printing technology is determined by wetting
and evaporation processes after the jet drop contacts the substrate.
Here, the wetting of different picoliter solubilized polymer droplets
jetting onto one-end-closed porous alumina was investigated. The selected
polymers are commonly used in inkjet ink. The synergistic effects
of the hierarchical structure and substrate surface modification were
used to control the behavior of polymer-based ink drops. A model that
invokes the effect of surface tension was applied to calculate the
amount of polymer solution penetrating into the pores. The calculation
corroborates experimental observations and shows that the volume of
polymer solution in the pores increases with an increase in pore radius
and depth, resulting in less solution remaining on the substrate surface.
The structure of the porous substrate coupled with intrinsic polymer
properties and surface modifications all contribute to the resolution
that can be achieved via inkjet printing
Multivariate logistic regression analysis of patients with unilateral symphysis fractures.
<p>Multivariate logistic regression analysis of patients with unilateral symphysis fractures.</p
Multivariate logistic regression analysis of patients with unilateral mandibular angle fractures.
<p>Multivariate logistic regression analysis of patients with unilateral mandibular angle fractures.</p
Multivariate logistic regression analysis of patients with bilateral condylar fractures.
<p>Multivariate logistic regression analysis of patients with bilateral condylar fractures.</p