The flame was always ignited at low velocities (approximately 33 cmVs) with an alcohol burner. The field was then turned on and the methane and air flow rates increased simultaneously up to the total velocity at which the blowoff limits were to be determined. Blowoff points were obtained by maintaining a constant flow of either the methane or air, while varying the other flow until the flame left the burner port.By decreasing the gas flow rates, the lower blowoff limits were obtained, with and without electric fields. The upper blowoff points could not be obtained by increasing the gas flow rates because the flame picked up more air from the open surroundings at higher rates. As a result, another set of lower blowoff limits were obtained by keeping the gas flow rate constant and increasing the airflow rate. Figure 2 represents the configuration for the second geometry. A longitudinal electric field was obtained by placing an aluminum foil ring around the glass tube for one electrode and making the brass burner the other electrode. Following the procedures of the first geometry, lower blowoff limits were obtained, with and without electric fields.
The objective of this research was to find the best combination of factor levels that minimized the
surface roughness of prototyped samples from Fused Deposition Modeling (FDM). Two sets of
experiments were conducted for that purpose; a two-level three-factor full factorial experiment and
a three-level two-factor full factorial experiment. The parameters chosen for this research were
model temperature, layer thickness and part fill style. The results obtained from both experiments
were compared and analyzed in order to determine the best combination of factors that minimized
the surface roughness of the specimens. The significant factors, their interactions and the optimum
setting are presented in this paper
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