137 Development of mirror surface finishing process for generation of Superior hydrophilicity on stainless steels

Additive manufacturing (AM) revolutionary technologies open new opportunities and challenges. They allow low-cost manufacturing of parts with complex geometries and short time-to-market of products that can be exclusively customized. Additive manufactured parts often need post-printing surface modification. This study aims to review novel environmental-friendly surface finishing process of 3D-printed AlSi10Mg parts by electroless deposition of gold, silver, and gold–silver alloy (e.g., electrum) and to propose a full process methodology suitable for effective metallization. This deposition technique is simple and low cost method, allowing the metallization of both conductive and insulating materials. The AlSi10Mg parts were produced by the additive manufacturing laser powder bed fusion (AM-LPBF) process. Gold, silver, and their alloys were chosen as coatings due to their esthetic appearance, good corrosion resistance, and excellent electrical and thermal conductivity. The metals were deposited on 3D-printed disk-shaped specimens at 80 and 90 °C using a dedicated surface activation method where special functionalization of the printed AlSi10Mg was performed to assure a uniform catalytic surface yielding a good adhesion of the deposited metal to the substrate. Various methods were used to examine the coating quality, including light microscopy, optical profilometry, XRD, X-ray fluorescence, SEM–energy-dispersive spectroscopy (EDS), focused ion beam (FIB)-SEM, and XPS analyses. The results indicate that the developed coatings yield satisfactory quality, and the suggested surface finishing process can be used for many AM products and applications.

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Investigation into Hand Scraping: A Microanalysis

Journal of Manufacturing and Materials Processing ◽

10.3390/jmmp2040076 ◽

2018 ◽

Vol 2 (4) ◽

pp. 76 ◽

Cited By ~ 1

Author(s):

Kai Oßwald ◽

Ingo Lochmahr ◽

Yasin Bagci ◽

Peter Saile

Keyword(s):

Inertial Measurement Unit ◽

Three Dimensional ◽

Movement Pattern ◽

Measurement Unit ◽

Surface Finishing ◽

Future Research ◽

Tool Orientation ◽

Inertial Measurement ◽

Finishing Process ◽

Basic Characteristics

Hand scraping is a manual surface finishing process that, despite its low productivity and high cost, is still applied in many industries because of its advantages concerning accuracy and tribology. In the presented microanalysis forces, movement patterns and tool orientation of individual hand scraping strokes were measured using a test stand, specifically designed for this purpose. It utilizes a camera, a three dimensional dynamometer, and an inertial measurement unit (IMU). The results show the basic characteristics of hand scraping. Typical courses of relevant quantities like cutting force, passive force, clearance, and directional angle are shown. In addition, the movement pattern of the tool during individual scraping strokes is analyzed. This research aims to contribute to a later implementation of automated scraping. The conducted research creates a base for future research regarding different scraping methods and achieved results.

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Mirror surface finishing of hardened stainless steel using spherical PCD tool

Precision Engineering ◽

10.1016/j.precisioneng.2021.11.003 ◽

2021 ◽

Author(s):

Peerapong Kasuriya ◽

Takeshi Watanabe ◽

Takashi Goto ◽

Masahiko Jin

Keyword(s):

Stainless Steel ◽

Surface Finishing ◽

Mirror Surface ◽

Pcd Tool

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Predictive Models of Double-Vibropolishing in Bowl System Using Artificial Intelligence Methods

Journal of Manufacturing and Materials Processing ◽

10.3390/jmmp3010027 ◽

2019 ◽

Vol 3 (1) ◽

pp. 27

Author(s):

Joselito Alcaraz ◽

Kunal Ahluwalia ◽

Swee-Hock Yeo

Keyword(s):

Surface Roughness ◽

Predictive Modelling ◽

Surface Finishing ◽

Configuration Model ◽

Percentage Error ◽

Vibratory Finishing ◽

Exponential Regression ◽

Finishing Process ◽

Family Of Curves ◽

Exponential Regression Model

Vibratory finishing is a versatile and efficient surface finishing process widely used to finish components of various functionalities. Research efforts were focused in fundamental understanding of the process through analytical solutions and simulations. On the other hand, predictive modelling of surface roughness using computational intelligence (CI) methods are emerging in recent years, though CI methods have not been extensively applied yet to a new vibratory finishing method called double-vibropolishing. In this study, multi-variable regression, artificial neural networks, and genetic programming models were designed and trained with experimental data obtained from subjecting rectangular Ti-6Al-4V test coupons to double vibropolishing in a bowl system configuration. Model selection was done by comparing the mean-absolute percentage error and r-squared values from both training and testing datasets. Exponential regression was determined as the best model for the bowl double-vibropolishing system studied with a Test MAPE score of 6.1% and a R-squared score of 0.99. A family of curves was generated using the exponential regression model as a potential tool in predicting surface roughness with time.

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Special issue. Surface finishing of stainless steel. Surface modification of stainless steels using thermal passivation.

Journal of The Surface Finishing Society of Japan ◽

10.4139/sfj.41.227 ◽

1990 ◽

Vol 41 (3) ◽

pp. 227-234

Author(s):

Toshiyuki YASHIRO ◽

Keiichi TERASHIMA ◽

Taketomo YAMAZAKI

Keyword(s):

Stainless Steel ◽

Surface Modification ◽

Stainless Steels ◽

Steel Surface ◽

Surface Finishing ◽

Stainless Steel Surface ◽

Special Issue

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Gold–Silver Electroless Plating on Laser Powder-Bed Fusion Additively Printed AlSi10Mg Parts

Metals ◽

10.3390/met10050557 ◽

2020 ◽

Vol 10 (5) ◽

pp. 557 ◽

Cited By ~ 1

Author(s):

Alexandra Inberg ◽

Dana Ashkenazi ◽

Giora Kimmel ◽

Yosi Shacham-Diamand ◽

Adin Stern

Keyword(s):

Deposition Process ◽

Xrd Analysis ◽

Binding Energies ◽

Surface Finishing ◽

Powder Bed Fusion ◽

Laser Powder Bed Fusion ◽

Powder Bed ◽

Developed Surface ◽

Finishing Process ◽

Gold Silver

The current research presents a novel methodology for surface finishing of printed AlSi10Mg parts by electroless deposited gold–silver (electrum) alloys. The parts were printed by additive manufacturing laser powder-bed fusion (AM-LPBF). The electrum was chosen due to its appearance and good electrical and thermal properties and was deposited on disk-shaped specimens at 80 and 90 °C. The coating quality and appearance were studied by different methods for various deposition times and film thicknesses. The results indicate that Au–Ag coatings of AM-LPBF AlSi10Mg yield satisfactory results. The XRD analysis revealed that the coatings were composed of Au–Ag crystalline phases and beneath them, a quasi-amorphous or mixed quasi-amorphous and nanocrystalline Ni–P interlayer. The mechanism of electrum formation was studied based on the XPS analysis results as a function of the temperature and concentration. At 80 °C, the Ag was dominant at the beginning of the deposition process, while at 90 °C the Au was first detected on the interface. This result was explained by the electrochemical properties of alloying metals and the binding energies required to form metal–Ni and Au–Ag bonding. The results indicate that the electrum coatings are satisfactory, and the developed surface finishing process could be used for many applications.

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Investigation on Finishing Characteristics of Magnetic Abrasive Finishing Process Using an Alternating Magnetic Field

Machines ◽

10.3390/machines8040075 ◽

2020 ◽

Vol 8 (4) ◽

pp. 75

Author(s):

Huijun Xie ◽

Yanhua Zou

Keyword(s):

Magnetic Field ◽

Magnetic Particles ◽

Alternating Magnetic Field ◽

Surface Finishing ◽

Magnetic Cluster ◽

Magnetic Abrasive Finishing ◽

Square Wave ◽

Finishing Process ◽

Abrasive Finishing ◽

The Difference

The magnetic abrasive finishing (MAF) process is an ultra-precision surface finishing process. In order to further improve the finishing efficiency and surface quality, the MAF process using an alternating magnetic field was proposed in the previous research, and it was proven that the alternating magnetic field has advantages compared with the static magnetic field. In order to further develop the process, this study investigated the effect on finishing characteristics when the alternating current waveform is a square wave. The difference between the fluctuation behavior of the magnetic cluster in two alternating magnetic fields (sine wave and square wave) is observed and analyzed. Through analysis, it can be concluded that the use of a square wave can make the magnetic cluster fluctuate faster, and as the size of the magnetic particles decreases, the difference between the magnetic cluster fluctuation speed of the two waveforms is greater. The experimental results show that the surface roughness of SUS304 stainless steel plate improves from 328 nm Ra to 14 nm Ra within 40 min.

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A novel magnetic field-assisted polishing method using magnetic compound slurry and its performance in mirror surface finishing of miniature V-grooves

AIP Advances ◽

10.1063/1.4942952 ◽

2016 ◽

Vol 6 (5) ◽

pp. 056602 ◽

Cited By ~ 3

Author(s):

Youliang Wang ◽

Yongbo Wu ◽

Nomura Mitsuyoshi

Keyword(s):

Magnetic Field ◽

Surface Finishing ◽

Mirror Surface

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Research into mirror surface finishing by the ironing process

Journal of Materials Processing Technology ◽

10.1016/0924-0136(90)90035-s ◽

1990 ◽

Vol 22 (2) ◽

pp. 123-136 ◽

Cited By ~ 8

Author(s):

Nozomu Kawai ◽

Kuniaki Dohda ◽

Zhrgang Wang ◽

Kazuhiro Akiyama

Keyword(s):

Surface Finishing ◽

Mirror Surface

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Effect of Surface Preparation by Non-Directional Grinding on Properties of AISI D2 Plasma-Nitride Layer

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.376.190 ◽

2013 ◽

Vol 376 ◽

pp. 190-194

Author(s):

S. Rajsiri ◽

T. Kraiha ◽

L. Plangklang ◽

U. Chairue

Keyword(s):

Plasma Nitriding ◽

Diamond Particle ◽

Surface Preparation ◽

Nitride Layer ◽

Surface Finishing ◽

Hardness Profile ◽

Nitride Coating ◽

Tool Steels ◽

Finishing Process ◽

Aisi D2

This research studies the properties of plasma-nitride coating on AISI D2 tool steels prepared by non-directional grinding at various finishing. In the manufacturing process, the AISI D2 was machined to size and hardened with a typical hardening process. In addition, its surface was treated with plasma nitriding. Various levels of roughness were produced as well as possible affects on the nitride coating properties. In this study, the following five conditions of grinding were performed on the hardened specimens: 1-µm diamond particle and four SiC grinding papers: P100, P240, P800, and P2500. The surface finishing with at least 0.023-µm roughness value (P800 grinding) provided a plasma-nitride layer with a moderately good hardness profile and a thick nitride layer compared with other finer finishing. This finishing process was also more economical requiring less time and manpower to create than others. Overall, this study suggests that finer surface finishing has a tendency to significantly improve the tool steels hardness profile and hardened depth.

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