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Gelcasting of 316L stainless steel

Journal of University of Science and Technology Beijing, Mineral, Metallurgy, Material, 2007
Abstract A novel near-net process, gelcasting, was successfully used to prepare larger size 316L stainless steel parts with complex shape. In this study, the effects of process parameters on the viscosity of the slurry and the dry green strength were investigated.
Yan Li, Zhimeng Guo, Junjie Hao
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Barnacle cement: An etchant for stainless steel 316L?

Colloids and Surfaces B: Biointerfaces, 2010
Localized corrosion of stainless steel beneath the barnacle-base is an unsolved issue for the marine industry. In this work, we clearly bring out for the first time the role of the barnacle cement in acting as an etchant, preferentially etching the grain boundaries, and initiating the corrosion process in stainless steel 316L.
R, Sangeetha   +3 more
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Direct laser cladding of SiC dispersed AISI 316L stainless steel

open access: yesTribology International, 2009
The present study concerns development of SiC dispersed (5 and 20 wt%) AISI 316L stainless steel metal-matrix composites by direct laser cladding with a high power diode laser and evaluation of its mechanical properties (microhardness and wear resistance)
Jyotsna Dutta Majumdar
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Laser surface modification of 316L stainless steel

Journal of Biomedical Materials Research Part B: Applied Biomaterials, 2017
AbstractMedical grade 316L stainless steel was laser surface melted (LSM) using continuous wave Nd‐YAG laser in argon atmosphere at 1 and 5 mm/s. The treated surfaces were characterized using electron backscatter diffraction to study the influence of top surface crystallographic orientation and type of grain boundaries on corrosion resistance ...
Vamsi Krishna, Balla   +5 more
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Ball burnishing of 316L stainless steel

Journal of Materials Processing Technology, 1993
The process of ball burnishing AISI 316L stainless steel was studied. Taguchi techniques for the statistical design of experiments were employed to establish the optimum parameters for achieving good surface finish (response) on flat specimens. An L16 (45) orthogonal array was chosen to study the effects of five burnishing parameters (control factors).
S.S.G. Lee, S.C. Tam, N.H. Loh
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Biocompatibility of MIM 316L stainless steel

Journal of Central South University of Technology, 2005
To evaluate the biocompatibility of MIM 316L stainless steel, the percentage of S-period cells were detected by flow cytometry after L929 incubated with extraction of MIM 316L stainless steel, using titanium implant materials of clinical application as the contrast.
Shai-hong Zhu   +5 more
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