Advanced Statistical Refinement of Surface Layer’s Discretization in the Case of Electro-Spark Deposited Carbide-Ceramic Coatings Modified by a Laser Beam

Jacek Pietraszek; Norbert Radek; Konrad Bartkowiak

doi:10.4028/www.scientific.net/SSP.197.198

Paper Titles

Thermal Gradients Behaviour during the C-E Transition within Solidifying Massive Roll
p.174

Effect of Material and Technological Conditions on Quality of Metal Matrix Composite Castings
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Description of 3D Microstructure of the Composites with Polypropylene (PP) Matrix and Tuf Particles Fillers
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The Influence of Various Etchants on the Quantitative Analysis of Microstructure of Mg-Nd Alloy
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Advanced Statistical Refinement of Surface Layer’s Discretization in the Case of Electro-Spark Deposited Carbide-Ceramic Coatings Modified by a Laser Beam
p.198

On γ-γ’ Eutectic Quantitative Evaluation in the as-Cast CMSX-4 Nickel-Based Superalloy
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Effect of Modification of Rare Earth Elements on the Morphology of Silicon Precipitates in the ZnAl22Cu3Si Alloy
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The Quantitative Assessment of the Fracture Profile of Magnesium Alloy QE22 Welded Joint
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Effect of Cooling Rate on the Porosity of the ZnAl22Cu3 Alloy
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HomeSolid State PhenomenaSolid State Phenomena Vol. 197Advanced Statistical Refinement of Surface Layer’s...

Advanced Statistical Refinement of Surface Layer’s Discretization in the Case of Electro-Spark Deposited Carbide-Ceramic Coatings Modified by a Laser Beam

Abstract:

Carbide coatings have numerous industrial applications due to their high abrasion, sliding and erosion resistance. The paper presents results of an advanced statistical analysis – involving auxiliary simulation methods like smooth bootstrapping and imputing of missing data – executed on surface layer profile of modified carbide-ceramic coatings. Source data were gathered in the previous research by Radek and Bartkowiak focused on microstructure analysis (SEM Joel JSM-5400), microhardness (Vickers method), roughness (FORM TALYSURF-120L) and adhesion (CSEM REVETEST)) tests. Anti-wear coating were first deposited on carbon steel C45 from WC-Co-Al2O3 electrodes in the process of the electro-spark alloying (ESA) by the EIL-8a apparatus. In the next step the coating were laser melted using impulse mode of Nd:YAG laser (BLS 720 model). Due to significant irregularity of collected data, the special methods of smoothing and imputing were involved based on Monte-Carlo methods. The collected data set was several times randomly divided into analytical and verification sub-sets and mentioned methods were applied. The results were used to calculate descriptive statistics like average values, variances, confidence intervals and smoothed histograms of probability distributions. The validity of the proposed approach was positively verified and it significantly improved quality of the results. The smoothing and imputing of data allow to avoid numerical artifacts that may arise during the classical statistical calculations on irregular data.

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Periodical:

Solid State Phenomena (Volume 197)

Pages:

198-202

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.197.198

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Online since:

February 2013

Authors:

Jacek Pietraszek, Norbert Radek, Konrad Bartkowiak

Keywords:

Image Analysis, Material Science, Probabilistic Distribution, Shape Factors, Smooth Bootstrap, Statistical Analysis, Steel Powders

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