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Wear maps of borided AISI 316L steel under ball on flat

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  • Description:Materials Letters Vol 282, 1 January 2021 ...Wear maps of borided AISI 316L steel under ball-on-flat dry sliding conditions R.A. García-León, J. Martínez-Trinidad, I. Campos-Silva, U. Figueroa-López, A. Guevara-Morales Article 128842Materials Letters Special Issue on Surface Engineering ...Oct 29, 2020Wea ...
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Wear maps of borided AISI 316L steel under ball on flat Description

(PDF) Corrosion and wear behaviors of boronized AISI 316L Wear maps of borided AISI 316L steel under ball on flat

The presence of borides (e.g. Fe2B, CrB, Ni3B) formed on the surface of borided AISI 316L stainless steel was confirmed by classical metallographic technique combined with X-ray diffraction analysis.A Review on Mechanical and Wear Properties of Heat and wear characterization of sintered low alloyed chromium steels for structural components " in journal of Wear 273 (2011) 17 22. [6] Michelle C.S. Duarte a, Cristina Godoya, , J.C. Avelar-Batista Wilson b " Analysis of sliding wear tests of plasma processed AISI 316L steel " in journal

AISI 316 Stainless Steel Balls Products & Suppliers Wear maps of borided AISI 316L steel under ball on flat

devices. The ball valves are manufactured from either 303 or 316 stainless steel.The seat for the ball is constructed of chemically resistant Teflon®. An o-ring provides a seal on the valve stem. Buna-N is standard. Black EPDM, EPDM and Viton&are optional. The maximum supply pressure is 250 psig (17.24 bar) and weighs approximately 9 grams in stainless steel.Analysis of Wear Resistance of Borided Steel C45The wear resistance of diffusion coatings in conditions of specific pressures of 3, 7 and 10 MPa was studied. The boride coatings were prepared by means of diffusion methods using C45 steel as the substrate material. Research on the microstructure and redistribution of chemical elements on wear surface of a borided layer was carried out. It was found that the boride coatings should be used Wear maps of borided AISI 316L steel under ball on flat Building direction dependence of wear resistance of Wear maps of borided AISI 316L steel under ball on flat Jun 08, 2020The aim of this study is to explore the wear performance of AISI 316L stainless steel fabricated via selective laser melting along different directions with respect to the building direction and via post annealing. The wear behavior of the alloy under high-speed sliding was investigated with high sliding velocities of up to 1 m/s. It was shown that the wear behavior of the alloy was completely Wear maps of borided AISI 316L steel under ball on flat

Building-Direction Dependence of Wear Resistance of Wear maps of borided AISI 316L steel under ball on flat

This study aims at exploring the wear performance of AISI 316L stainless steel fabricated via selective laser melting along different directions with respect to the building direction and via post annealing. Here, the wear resistance of the material was investigated via ball-on-disk tribology tests under a quasi-stationary condition, i.e., with linear sliding speeds in the range of 25100 mm/s.Characterization and wear performance of boride phases Wear maps of borided AISI 316L steel under ball on flat AISI 52100 steel balls, commonly employed in the bearing industry, were used to slide against the surface of the hardened borided AISI H13 steel. The balls used had a diameter of 4.75 mm, a microhardness of 850 HV, and a roughness (Ra) of 0.008 µm. The stationary samples had a disk shape with a diameter of 18 mm and a thickness of 3 mm.Characterization and wear performance of boride phases Wear maps of borided AISI 316L steel under ball on flat Apr 30, 2015to assess the dynamic wear and friction performance of lubricants, materials, and surface coatings.23 AISI 52100 steel balls, commonly employed in the bearing industry, were used to slide against the surface of the hardened borided AISI H13 steel. The balls used had a diameter of 4.75mm, a microhardness of 850HV, and a roughness (Ra) of 0.008mm.

Characterization and wear performance of boride phases Wear maps of borided AISI 316L steel under ball on flat

Apr 30, 2015to assess the dynamic wear and friction performance of lubricants, materials, and surface coatings.23 AISI 52100 steel balls, commonly employed in the bearing industry, were used to slide against the surface of the hardened borided AISI H13 steel. The balls used had a diameter of 4.75mm, a microhardness of 850HV, and a roughness (Ra) of 0.008mm.Corrosion Standards and Wear StandardsStandard Guide for Determining Synergism Between Wear and Corrosion G133 - 05(2016) Standard Test Method for Linearly Reciprocating Ball-on-Flat Sliding Wear G137 - 97(2017) Standard Test Method for Ranking Resistance of Plastic Materials to Sliding Wear Dry Sliding Wear Resistance of Cobalt Boride Coatings Wear maps of borided AISI 316L steel under ball on flat Apr 10, 2019New results about the wear resistance of CoB-Co2B coatings under dry sliding conditions were estimated in this work. The cobalt boride coatings were developed at the surface of the ASTM F1537 alloy by means of the powder-pack boriding process using two experimental conditions 1223 K with 6 h of exposure and 1273 K with 10 h of exposure.

Friction and Reciprocating Wear Behavior of Borided AISI Wear maps of borided AISI 316L steel under ball on flat

Jul 16, 2020In this work, the tribological performance of borided and untreated AISI H13 steels under dry and lubricated conditions was studied. The formation of the boride layer on the AISI H13 steel was conducted using the powder-pack boriding process at 950 °C for 6 h of exposure. The tribological performance was studied by reciprocating sliding wear tests, conducted with an alumina ball Friction and Reciprocating Wear Behavior of Borided AISI Wear maps of borided AISI 316L steel under ball on flat Jul 16, 2020In this work, the tribological performance of borided and untreated AISI H13 steels under dry and lubricated conditions was studied. The formation of the boride layer on the AISI H13 steel was conducted using the powder-pack boriding process at 950 °C for 6 h of exposure. The tribological performance was studied by reciprocating sliding wear tests, conducted with an alumina ball Friction and Wear of Metals under Micro-abrasion, Wet and Wear maps of borided AISI 316L steel under ball on flat Sep 14, 2020This work aims to characterize and compare the coefficient of friction (CoF) and wear rates of some metallic materials (AISI 6061-T6 alloy, AISI 316 L stainless steel and ASTM F1537 CoCrMo alloy) under different wear modes, namely, micro-abrasion abrasion (rolling and mixed rolling/grooving abrasion), and wet and dry sliding abrasion. The wear modes were achieved by conducting testing under Wear maps of borided AISI 316L steel under ball on flat

Friction and Wear of Metals under Micro-abrasion, Wet and Wear maps of borided AISI 316L steel under ball on flat

Sep 14, 2020This work aims to characterize and compare the coefficient of friction (CoF) and wear rates of some metallic materials (AISI 6061-T6 alloy, AISI 316 L stainless steel and ASTM F1537 CoCrMo alloy) under different wear modes, namely, micro-abrasion abrasion (rolling and mixed rolling/grooving abrasion), and wet and dry sliding abrasion. The wear modes were achieved by conducting testing under Wear maps of borided AISI 316L steel under ball on flat Friction and wear performance of biomaterials alloy AISI Wear maps of borided AISI 316L steel under ball on flat Apr 01, 2016The 100C6 ball plastically deforms the steel plate (AISI 316L or Ti-6Al-7Nb). Under the effect of tangential stresses, particles of the soft material tend to sell the surface of the plate and oxidize in the case of fine particles. The ball hardens the soft material and promotes the incorporation of particles in the soft surface.I. Campos-Silva's research works Instituto Politécnico Wear maps of borided AISI 316L steel under ball on flat I. Campos-Silva's 63 research works with 866 citations and 4,989 reads, including Wear maps of borided AISI 316L steel under ball-on-flat dry sliding conditions

Images of wear Maps of Borided AISI 316L Steel Under Ball O

imagesSliding wear analysis in borided AISI 316L steels Wear maps of borided AISI 316L steel under ball on flat Dec 05, 2020Journals & Books; Register Sign in. Sign in RegisterInvestigation of Adhesion and Tribological Behavior of Wear maps of borided AISI 316L steel under ball on flat To perform friction and wear of borided samples, a ball-on-disc test (ASTM G99-05) device was used. In this equipment, the bottom part is movable and the top pin or ball stationary. In the present study, the bottom movable flat surface was the borided steel and upper fixed surface was the WC-Co ball with a diameter of 8 mm.Investigation of Adhesion and Tribological Behavior of Wear maps of borided AISI 316L steel under ball on flat bottom movable flat surface was the borided steel and upper fixed surface was the WC-Co ball with a diame-ter of 8 mm. The wear experiments were carried out in a ball-disc arrangement under a dry friction condition at room temperature with an applied load of 10N and with sliding speeds of 0.3 m/s at a sliding distance of 1000 m.

Iron and Steel Products - ASTM International

Characterization and Wear Performance of Borided AISI 304 and UNS S31254 Stainless Steels. Wear maps of borided AISI 316L steel under ball on flat Effect of Shot Peening Coverage on Surface Nanostructuring of 316L Stainless Steel and its Influence on Low Temperature Plasma-Nitriding. Wear maps of borided AISI 316L steel under ball on flat Crack Propagation Behavior of Silicon Nitride Using a Ball-on-Flat Rolling Fatigue Bench Test Methodology.Laser borided composite layer produced on austenitic increase in hardness and wear resistance of such a layer was obtained. K E Y W O R D S laser boriding, austenitic steel, microstructure, hardness, wear resistance 1. INTRODUCTION AISI 316L steel was characterized by an effective balance of chemical composition, i.e. carbon, chromium, nickel andMaterials Letters Special Issue on Surface Engineering Wear maps of borided AISI 316L steel under ball on flat Oct 29, 2020Wear maps of borided AISI 316L steel under ball-on-flat dry sliding conditions R.A. García-León, J. Martínez-Trinidad, I. Campos-Silva, U. Figueroa-López, A.

Materials Letters Vol 282, 1 January 2021 Wear maps of borided AISI 316L steel under ball on flat

Wear maps of borided AISI 316L steel under ball-on-flat dry sliding conditions R.A. García-León, J. Martínez-Trinidad, I. Campos-Silva, U. Figueroa-López, A. Guevara-Morales Article 128842Materials Letters X Special Issue on Surface Wear maps of borided AISI 316L steel under ball on flat Wear maps of borided AISI 316L steel under ball-on-flat dry sliding conditions R.A. García-León, J. Martínez-Trinidad, I. Campos-Silva, U. Figueroa-López, A. Guevara-Morales 1 January 2021Materials Letters X Special Issue on Surface Wear maps of borided AISI 316L steel under ball on flat Wear maps of borided AISI 316L steel under ball-on-flat dry sliding conditions R.A. García-León, J. Martínez-Trinidad, I. Campos-Silva, U. Figueroa-López, A. Guevara-Morales 1 January 2021

Mechanical characterization of the AISI 316L alloy

indentation test was performed on the iron boride layer to estimate the behavior of hardness and Youngs modulus. Sliding wear tests on the borided AISI 316L alloy were performed according to the ASTM G133-05 standard procedure, with the following conditions distances of 50 and 150 m, normal loads of 5 and 20 N, and a sliding speed of 30 mm/s.Metals Special Issue Post-Processing Improvements for Wear maps of borided AISI 316L steel under ball on flat In this paper, ball-on-disk testing is performed on sliding couples where both surfaces (ball and disk) are treated for wear resistance. Studied materials are pack borided H13 tool steel (ASTM A681), pack borided AISI 420 stainless steel (ASTM A276) and plasma sprayed yttria-stabilized zirconia (YSZ).Micro-Abrasion Wear Resistance of Borided 316L Stainless Wear maps of borided AISI 316L steel under ball on flat Four-ball tests were performed on the borided and non-borided steel ball samples in both dry and lubricated conditions. The dry sliding four-ball tests were performed under applied loads of 49, 98 Wear maps of borided AISI 316L steel under ball on flat

Micro-Abrasion Wear Resistance of Borided 316L Stainless Wear maps of borided AISI 316L steel under ball on flat

The 316L stainless steel has high corrosion resistance but low tribological performance. In different industrial sectors (biomedical, chemical, petrochemical, and nuclear engineering), improvement upon wear resistance of 316L stainless steel components using accessible and inexpensive methods is critical. The AISI 1018 steel is widely used in industry, but its tribological performance is not Wear maps of borided AISI 316L steel under ball on flat Micro-abrasion-corrosion Maps of 316L Stainless Steel in Wear maps of borided AISI 316L steel under ball on flat Apr 18, 2015The mechanism map of 316L SS stainless steel shows that the wear mechanism is heavily micro-abrasion dominated. For example, from the results which showed that at the highest ratio of corrosion to micro-abrasion (0.5 N at 200 mV), micro-abrasion is Scratch and wear resistance of additive manufactured 316L Wear maps of borided AISI 316L steel under ball on flat Oct 15, 2020Fig. 16f shows the wear track and corresponding wear profile of the conventionally manufactured sample with its counterpart steel balls at different loads. The track length of wear surface under 1 N, 5 N and 10 N loads is 248.7 m, 261.9 m, and 283.1 m, respectively.

TE 66 MICRO-SCALE ABRASION TESTER Phoenix Tribology

Micro-Abrasion Wear Resistance of Borided 316L Stainless Steel and AISI 1018 Steel CD Reséndiz-Calderon, GA Rodríguez-Castro Journal of Materials Engineering and Performance November 2017, Volume 26, Issue 11, pp 55995609 Paper # 1132 Micro-abrasive wear mechanisms of borided AISI 1020 steel AP Krelling, CE da Costa, JCG MilanTribology of 316L Austenitic Stainless Steel Carburized at Wear maps of borided AISI 316L steel under ball on flat non-treated 316l stainless steel, and (b.) carburized 316l stainless steel Wear maps of borided AISI 316L steel under ball on flat .. 80 figure 39 wear debris generated at 0.1 m/s comparing (a.) non-treated 316l under 4n applied load, (b.) non-treated 316l under 40n applied load, (c.) carburized 316l under 4n applied Tribology of 316L Austenitic Stainless Steel Carburized at Wear maps of borided AISI 316L steel under ball on flat non-treated 316l stainless steel, and (b.) carburized 316l stainless steel Wear maps of borided AISI 316L steel under ball on flat .. 80 figure 39 wear debris generated at 0.1 m/s comparing (a.) non-treated 316l under 4n applied load, (b.) non-treated 316l under 40n applied load, (c.) carburized 316l under 4n applied

Wear Behavior of Borided AISI D2 Steel under Linear Wear maps of borided AISI 316L steel under ball on flat

An experimental study was performed to investigate the effect of atomic attrition on wear behavior of AISI D2 steel. Wear tests were conducted under three different loads (5, 10, and 20 N) and Wear maps of borided AISI 316L steel under ball on flat Wear resistance improvement of austenitic 316L steel by Wear maps of borided AISI 316L steel under ball on flat Apr 15, 2016The evaluation by the factor of mass wear intensity I mw (Fig. 13a) indicated the significant increase in wear resistance of laser-borided layer in comparison with 316L steel without treatment. The investigated layer was characterized by the approximately 15 times lower factor of mass wear intensity (1.70 mg cm 2 h 1 ) than that Wear maps of borided AISI 316L steel under ball on flat

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