SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4297176871> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W4297176871 endingPage "103112" @default.
W4297176871 startingPage "103112" @default.
W4297176871 abstract "LPBF of Al alloys is associated with numerous challenges when compared to other commonly used alloys due to their higher reflectivity and thermal conductivity. In this work, processing diagrams, temperature prediction models, XCT, and metallography are used for establishing criteria in process parameter optimization of high reflectivity Al alloys based on AlSi$_{10}$Mg response in using 57 different process parameter combinations - 21 using a focused Gaussian laser beam and 36 using divergent beams. For LPBF systems with focused beam diameters <100 {mu}m, divergent beams obtained by defocusing to a position above the LPBF build plate primarily lead to conduction mode melt pools, while a focused beam leads to transition and keyhole mode melt pools. Conduction mode melting helps in avoiding keyhole mode defects, resulting in parts with densities >99.98%. Additionally, an analytical model-guided selection of laser power and velocity settings for a focused beam help in stabilizing melt pool and spatter dynamics in the transition melting mode thereby enabling a potential to obtain density values close to conduction mode densities (~99.98%). A dimensionless keyhole number (Ke) was derived in this work to identify distinct regions of conduction (Ke of 0-12), transition (Ke of 12-20), and keyhole (Ke > 20) mode melting during LPBF of AlSi$_{10}$. A melt pool aspect ratio (ratio of melt pool depth to width) of ~0.4 is observed to be the threshold between conduction and transition/keyhole mode melt pools for AlSi$_{10}$, different from the conventionally assumed 0.5. Lastly, inferred laser absorptivity values (from experimental melt pools) of transition/keyhole mode melt pools are observed to be >40% higher when compared to conduction mode melt pools. This work demonstrates a dimensionless-process map method to obtain near fully dense parts that can be generalized for LPBF of high reflectivity alloys." @default.
W4297176871 created "2022-09-27" @default.
W4297176871 creator A5002665746 @default.
W4297176871 creator A5054454121 @default.
W4297176871 creator A5067180501 @default.
W4297176871 creator A5067943359 @default.
W4297176871 date "2022-11-01" @default.
W4297176871 modified "2023-09-30" @default.
W4297176871 title "The influence of beam focus during laser powder bed fusion of a high reflectivity aluminium alloy — AlSi10Mg" @default.
W4297176871 cites W1200930000 @default.
W4297176871 cites W1963605786 @default.
W4297176871 cites W1965238929 @default.
W4297176871 cites W1990077866 @default.
W4297176871 cites W2002345622 @default.
W4297176871 cites W2023758491 @default.
W4297176871 cites W2028236214 @default.
W4297176871 cites W2057031580 @default.
W4297176871 cites W2129366400 @default.
W4297176871 cites W2178181406 @default.
W4297176871 cites W2202592957 @default.
W4297176871 cites W2279780730 @default.
W4297176871 cites W2330289182 @default.
W4297176871 cites W2404524956 @default.
W4297176871 cites W2411571856 @default.
W4297176871 cites W2412542816 @default.
W4297176871 cites W2462301626 @default.
W4297176871 cites W2462305146 @default.
W4297176871 cites W2465133870 @default.
W4297176871 cites W2487712493 @default.
W4297176871 cites W2505334938 @default.
W4297176871 cites W2507435465 @default.
W4297176871 cites W2577834413 @default.
W4297176871 cites W2589429095 @default.
W4297176871 cites W2594944823 @default.
W4297176871 cites W2752641170 @default.
W4297176871 cites W2755097489 @default.
W4297176871 cites W2758567842 @default.
W4297176871 cites W2759766116 @default.
W4297176871 cites W2762749586 @default.
W4297176871 cites W2769953361 @default.
W4297176871 cites W2773717249 @default.
W4297176871 cites W2793535143 @default.
W4297176871 cites W2801556043 @default.
W4297176871 cites W2804544074 @default.
W4297176871 cites W2807103958 @default.
W4297176871 cites W2807731256 @default.
W4297176871 cites W2885563263 @default.
W4297176871 cites W2886767334 @default.
W4297176871 cites W2895873079 @default.
W4297176871 cites W2895957531 @default.
W4297176871 cites W2897913576 @default.
W4297176871 cites W2917573274 @default.
W4297176871 cites W2922642247 @default.
W4297176871 cites W2925000736 @default.
W4297176871 cites W2942539847 @default.
W4297176871 cites W2944881676 @default.
W4297176871 cites W2947220970 @default.
W4297176871 cites W2955477706 @default.
W4297176871 cites W2960317155 @default.
W4297176871 cites W2965233700 @default.
W4297176871 cites W2975365199 @default.
W4297176871 cites W2980003661 @default.
W4297176871 cites W2990451840 @default.
W4297176871 cites W2991317594 @default.
W4297176871 cites W3001803776 @default.
W4297176871 cites W3007652200 @default.
W4297176871 cites W3015276433 @default.
W4297176871 cites W3023745505 @default.
W4297176871 cites W3024762880 @default.
W4297176871 cites W3025818657 @default.
W4297176871 cites W3033624632 @default.
W4297176871 cites W3048145471 @default.
W4297176871 cites W3049050386 @default.
W4297176871 cites W3049306046 @default.
W4297176871 cites W3095883801 @default.
W4297176871 cites W3117004813 @default.
W4297176871 cites W3119347837 @default.
W4297176871 cites W3122321025 @default.
W4297176871 cites W3134952941 @default.
W4297176871 cites W3139830709 @default.
W4297176871 cites W3148462049 @default.
W4297176871 cites W3160067888 @default.
W4297176871 cites W4205606540 @default.
W4297176871 cites W4220851032 @default.
W4297176871 doi "https://doi.org/10.1016/j.addma.2022.103112" @default.
W4297176871 hasPublicationYear "2022" @default.
W4297176871 type Work @default.
W4297176871 citedByCount "1" @default.
W4297176871 countsByYear W42971768712023 @default.
W4297176871 crossrefType "journal-article" @default.
W4297176871 hasAuthorship W4297176871A5002665746 @default.
W4297176871 hasAuthorship W4297176871A5054454121 @default.
W4297176871 hasAuthorship W4297176871A5067180501 @default.
W4297176871 hasAuthorship W4297176871A5067943359 @default.
W4297176871 hasBestOaLocation W42971768712 @default.
W4297176871 hasConcept C120665830 @default.
W4297176871 hasConcept C121332964 @default.
W4297176871 hasConcept C159985019 @default.