M. C. Costa scite author profile

M. C. Costa

2Publications

32Citation Statements Received

5Citation Statements Given

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Gloss and surface topography of ABS: A study on the influence of the injection molding parameters

Oliveira¹,

Brito²,

Costa³

et al. 2006

Polym. Eng. Sci.

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Acrylonitrile butadiene styrene is used in applications where the surface appearance is important. Plates with surface texture, varying from highly smooth to very rough, were injection molded with various processing conditions. Morphology, roughness, and gloss of the surface were assessed in relation to the processing parameters. The surface characterization of the moldings was done using reflected differential interference contrast microscopy and laser microtopography. It was observed that the surface properties are affected by the molding parameters. The mold temperature, followed by the injection temperature and the holding pressure are the more influent parameters. The contribution of each parameter to the gloss varies with the type of surface, but for most of the surfaces the contribution of the mold temperature was above 90%. In general, higher values of these parameters improve the replication accuracy that reduce the roughness (and increase the gloss) of very smooth surfaces and cause the opposite effect in other surfaces. In surfaces with an anisotropic texture the gloss depends on the measuring direction. POLYM. ENG. SCI. 46:1394–1401, 2006. © 2006 Society of Plastics Engineers.

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Low oxidation potential shielding gas instability in GMA welding

Costa¹,

Starling²,

Modenesi³

2009

Science and Technology of Welding and Joining

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Gas metal arc (GMA) welding is one of the most important processes for joining metals. However, this process is characterised by a relatively large number of variables and high sensitivity to changes in operational conditions. Furthermore, GMA welding stability can be degraded by several factors. Although some of these instability problems have been studied extensively a few of them, particularly those linked to the arc transition regions, are still poorly known and studied. The present paper studies a strong process instability characterised by repulsive metal transfer, large variations in welding current and voltage, and the formation of large quantity of spatter. It was observed previously in the welding of low carbon steel with gas shielding of low oxidation potential, and was linked to alterations in electron emission mechanisms on the cathode surface. Welding current and voltage oscillograms, arc light intensity measurements, and high speed filming were used in this study. It was shown that this instability can also occur in the welding of austenitic stainless steels. Indications of its occurrence were also observed in Al. Changes in metal transfer, arc light intensity and welding current and voltage occur simultaneously during the instability. Unstable operation was also characterised by alterations in arc position and shape and by the lack of removal of the oxide layer on the base metal surface. The onset of instability was linked to the occurrence of a rapid short circuit between the electrode and the weld pool.

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M. C. Costa

Gloss and surface topography of ABS: A study on the influence of the injection molding parameters

Low oxidation potential shielding gas instability in GMA welding

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