Menu
Search
Filters
Close
Menu

Celebrate World Corrosion Awareness Day with 20% off eCourses and eBooks with code WCAD2024 at checkout!

Evaluation of the relationship between passivity and microstructure in austenitic stainless steel, the Point defect perspective

Picture for Evaluation of the relationship between passivity and microstructure in austenitic stainless steel, the Point defect perspective
Available for download

Additive manufacturing (AM), commonly referred to as 3D printing, offers advantages over traditional
production methods, such as quick prototyping, short production runs and intricate, thin section,
microfluidic, variable composition, and low-waste designs. These exciting features are accompanied by
new challenges, such as higher costs, the possibility of variable quality, and inherently anisotropic
properties.


Existing AM technologies include 3D printing, rapid prototyping (RP), direct digital manufacturing (DDM),
selective laser melting (SLM), and direct metal laser Sintering (DMLS).

Product Number: 51323-19434-SG
Author: Raymundo Case, Homero Castaneda, Yuan Ding, Adnan Khan, M. L Cedeno- Vente, Gabriela Pena
Publication Date: 2023
$20.00
$20.00
$20.00

The influence of the microstructure on the resistance to pitting potential in austenitic stainless steel UNS
N31603 is evaluated to explain the effect of the distribution of features such as carbides. Different
microstructures were obtained by processing, via surface laser melting (SLM) and sensitized at 600°C,
700°C and 800°C. The test solution used for electrochemical testing included a pH 8 brine at room
conditions.


The characterization of the passive conditions is done by using potentiodynamic, potentiostatic and Mott
Schottky techniques. The results show that the UNS N31603 samples produced by SLM have higher passive layer stability. The correlation with the microstructural features attribute this to a lack of inclusions
and carbides characteristic of the SLM process. The analysis of the experimental results using the point
defect model description of the passive layer behavior indicates that the stability of the passive layer is a
priori inversely proportional to both the metal cation and anion vacancy diffusivities.

The influence of the microstructure on the resistance to pitting potential in austenitic stainless steel UNS
N31603 is evaluated to explain the effect of the distribution of features such as carbides. Different
microstructures were obtained by processing, via surface laser melting (SLM) and sensitized at 600°C,
700°C and 800°C. The test solution used for electrochemical testing included a pH 8 brine at room
conditions.


The characterization of the passive conditions is done by using potentiodynamic, potentiostatic and Mott
Schottky techniques. The results show that the UNS N31603 samples produced by SLM have higher passive layer stability. The correlation with the microstructural features attribute this to a lack of inclusions
and carbides characteristic of the SLM process. The analysis of the experimental results using the point
defect model description of the passive layer behavior indicates that the stability of the passive layer is a
priori inversely proportional to both the metal cation and anion vacancy diffusivities.

Product tags
Categories
Industry
Recently viewed
Popular tags
View all

Association for Materials Protection and Performance

© AMPP All Rights Reserved.
Membership Terms of Content Use
Contact Customer Support