Lauralice de Campos Franceschini Canale scite author profile

Lauralice de Campos Franceschini Canale

4Publications

76Citation Statements Received

8Citation Statements Given

How they've been cited

150

How they cite others

Affiliations

University of Cassino and Southern Lazio, Universidade de São Paulo, Federal University of São Carlos

Publications

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Metallic Biomaterials TiN‐Coated: Corrosion Analysis and Biocompatibility

et al. 2003

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Corrosion processes due to contact with the physiological environment should be avoided or minimized in orthopedic implants. Four metallic substrates frequently used as biomaterials: pure Ti, Ti-6Al-4V alloy, ASTM F138 stainless steel, and Co-Cr-Mo alloy, were coated with TiN using the physical vapor deposition (PVD) technique. These coatings have been screened by polarization curves in physiological solutions. TiN prepared by PVD is efficient as coating for stainless steel. On titanium and alloy there are no benefits concerning the corrosion resistance compared to the bare Ti-materials. TiN coatings have been screened according to ISO 10993 standard tests for biocompatibility and exhibited no cytotoxicity, dermal irritation, or acute systemic toxicity response.

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Improved wear resistance of P/M tool steel alloy with different vanadium contents after ion nitriding

Riofano

Casteletti

Canale

et al. 2008

Wear

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Quenching technology: a selected overview of the current state-of-the-art

Canale¹,

Totten²

2005

Mat. Res.

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Many papers have been published on a wide range of aspects of the fundamental physics and chemistry of quenching such as: additive technology, surface rewetting, hardness distribution prediction, role of heat transfer and residual stresses, etc.1,2. However, relatively little information has been published on the application of these insightful research results for the solution of long standing quench tank production problems. This paper will address three areas where technical advancements have been, or may be, made. These include discussion of: 1) the application fundamental fluid dynamics to characterize quenching uniformity due to agitation; 2) the use of "waves" to provide uniform agitation during the quenching process; and 3) the use of pressure as a variable to mediate heat transfer throughout the quenching process

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Cooling Capacity of Coconut Oil, Palm Oil, and a Commercial Petroleum Oil by Solving the Heat Conductivity Inverse Problem

Kobasko¹,

Batista

Canale

et al. 2013

Matls. Perf. Charact.

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