FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3112162012> ?p ?o ?g. }

• W3112162012 endingPage "117013" @default.
• W3112162012 startingPage "117013" @default.
• W3112162012 abstract "Metal additive manufacturing (AM) is gaining momentum among modern manufacturing techniques due to its flexibility in fabricating complex shaped components with minimum scrap. However, the technology cannot be directly employed in producing parts on a larger scale because of the poor surface integrity and average mechanical properties. This highlights the importance of post processing AM components with suitable methods that can overcome these limitations. The existing finishing methods for AM components such as laser polishing, chemical polishing, abrasive finishing, mechanical polishing and other hybrid combinations have their own limitations. Difficulty in accessing complex part surfaces, loss of dimensional accuracy and deterioration in material surface and properties are some of the major challenges related to existing finishing methods. In the present work, wire electrical discharge polishing (WEDP) technique has been proposed in improving the surface integrity and mechanical properties of metal AM components. Experiments were carried out on selective laser melted (SLM) stainless steel (SS316 L) specimens at different settings of pulse duration and servo voltage. A detailed investigation into surface finish and morphology was performed to determine the enhancement in surface integrity after WEDP. In addition, investigations were conducted to evaluate the improvement in mechanical properties such as microhardness and tribological performance. The irregularities/defects over the SLM surface were removed and a maximum finish of 0.739 μm was achieved. A negligible amount of wire material was migrated to the SS316 L workpiece surface after WEDP process. Moreover, reduction in crystallite size and microstrain was obtained based on results from XRD analysis. Martensite formation and shift in peaks were also evident from XRD pattern after WEDP process. An increase in microhardness (∼ 317 HV) at the subsurface and reduction in coefficient of friction (∼ 0.35) were also achieved. Based on aforementioned results, WEDP showed excellent capability in improving the surface integrity and mechanical properties thereby providing a promising hybrid option for combining with metal AM technology." @default.
• W3112162012 created "2020-12-21" @default.
• W3112162012 creator A5029125297 @default.
• W3112162012 creator A5030628542 @default.
• W3112162012 date "2021-05-01" @default.
• W3112162012 modified "2023-10-04" @default.
• W3112162012 title "Improving the surface integrity and mechanical properties of additive manufactured stainless steel components by wire electrical discharge polishing" @default.
• W3112162012 cites W2054270456 @default.
• W3112162012 cites W2056849530 @default.
• W3112162012 cites W2082725023 @default.
• W3112162012 cites W2519752958 @default.
• W3112162012 cites W2559176501 @default.
• W3112162012 cites W2585900166 @default.
• W3112162012 cites W2590043834 @default.
• W3112162012 cites W2590108598 @default.
• W3112162012 cites W2609248460 @default.
• W3112162012 cites W2613221313 @default.
• W3112162012 cites W2621174214 @default.
• W3112162012 cites W2728350164 @default.
• W3112162012 cites W2760901644 @default.
• W3112162012 cites W2805114032 @default.
• W3112162012 cites W2806388960 @default.
• W3112162012 cites W2806459939 @default.
• W3112162012 cites W2808974458 @default.
• W3112162012 cites W2884925731 @default.
• W3112162012 cites W2885713529 @default.
• W3112162012 cites W2887641539 @default.
• W3112162012 cites W2889479414 @default.
• W3112162012 cites W2897386174 @default.
• W3112162012 cites W2904402511 @default.
• W3112162012 cites W2963422478 @default.
• W3112162012 cites W2969267859 @default.
• W3112162012 cites W2986788403 @default.
• W3112162012 cites W2991077815 @default.
• W3112162012 cites W3030620336 @default.
• W3112162012 cites W3031607024 @default.
• W3112162012 cites W3037581314 @default.
• W3112162012 doi "https://doi.org/10.1016/j.jmatprotec.2020.117013" @default.
• W3112162012 hasPublicationYear "2021" @default.
• W3112162012 type Work @default.
• W3112162012 sameAs 3112162012 @default.
• W3112162012 citedByCount "26" @default.
• W3112162012 countsByYear W31121620122021 @default.
• W3112162012 countsByYear W31121620122022 @default.
• W3112162012 countsByYear W31121620122023 @default.
• W3112162012 crossrefType "journal-article" @default.
• W3112162012 hasAuthorship W3112162012A5029125297 @default.
• W3112162012 hasAuthorship W3112162012A5030628542 @default.
• W3112162012 hasConcept C107365816 @default.
• W3112162012 hasConcept C138113353 @default.
• W3112162012 hasConcept C159985019 @default.
• W3112162012 hasConcept C165720898 @default.
• W3112162012 hasConcept C180088628 @default.
• W3112162012 hasConcept C191897082 @default.
• W3112162012 hasConcept C192562407 @default.
• W3112162012 hasConcept C2776363543 @default.
• W3112162012 hasConcept C2780957350 @default.
• W3112162012 hasConcept C71039073 @default.
• W3112162012 hasConcept C87976508 @default.
• W3112162012 hasConceptScore W3112162012C107365816 @default.
• W3112162012 hasConceptScore W3112162012C138113353 @default.
• W3112162012 hasConceptScore W3112162012C159985019 @default.
• W3112162012 hasConceptScore W3112162012C165720898 @default.
• W3112162012 hasConceptScore W3112162012C180088628 @default.
• W3112162012 hasConceptScore W3112162012C191897082 @default.
• W3112162012 hasConceptScore W3112162012C192562407 @default.
• W3112162012 hasConceptScore W3112162012C2776363543 @default.
• W3112162012 hasConceptScore W3112162012C2780957350 @default.
• W3112162012 hasConceptScore W3112162012C71039073 @default.
• W3112162012 hasConceptScore W3112162012C87976508 @default.
• W3112162012 hasLocation W31121620121 @default.
• W3112162012 hasOpenAccess W3112162012 @default.
• W3112162012 hasPrimaryLocation W31121620121 @default.
• W3112162012 hasRelatedWork W1988440476 @default.
• W3112162012 hasRelatedWork W1997230271 @default.
• W3112162012 hasRelatedWork W2000894422 @default.
• W3112162012 hasRelatedWork W2006010754 @default.
• W3112162012 hasRelatedWork W2047441432 @default.
• W3112162012 hasRelatedWork W2074309736 @default.
• W3112162012 hasRelatedWork W2128268971 @default.
• W3112162012 hasRelatedWork W2288121429 @default.
• W3112162012 hasRelatedWork W3167916481 @default.
• W3112162012 hasRelatedWork W586105622 @default.
• W3112162012 hasVolume "291" @default.
• W3112162012 isParatext "false" @default.
• W3112162012 isRetracted "false" @default.
• W3112162012 magId "3112162012" @default.
• W3112162012 workType "article" @default.