SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2884619031> ?p ?o ?g. }

Showing items 1 to 100 of ±120 with 100 items per page.

W2884619031 endingPage "1326" @default.
W2884619031 startingPage "1313" @default.
W2884619031 abstract "Abstract Scanning electron beam welding (SEBW) is a very important process for welding of thick plates in aerospace, aeronautical and power industries. However, since the invention of this process, the scanning parameters are typically selected through time consuming and costly trial and error. No existing mathematical criterion can be used to select the optimal parameters due to lack of physical understanding of the welding process. In this study, we developed a three-dimensional mathematical model of SEBW capable of modeling the coupled keyhole and weld pool dynamics for the first time, and used it to understand the underlying physics of the welding process and explore the process optimization criterion of circular mode beam scanning by combining welding experiments and modeling. We showed that beam scanning may not always stabilize the keyhole and weld pool, and may not improve the final weld quality of electron beam welding. However, beam scanning can modulate the movement of high temperature positions on keyhole wall, and contribute to a better uniformity of weld pool dynamics behind the keyhole. For circular beam scanning, we proved that low frequency scanning may lead to more welding defects such as porosity, spiking, and spatters because it increases the tendency of keyhole oscillations as compared to the no scanning case. High frequency scanning could stabilize the keyhole to a certain degree and modulate the fluid flow of the weld pool to make it more regular. Additionally, the scanning radius should be neither too small nor too large. Too small radius may lead to more defects, and too large radius can decrease the penetration depth significantly. A dual direction energy uniformity (DDEU) criterion was proposed to select the scanning parameters by considering the energy uniformity degree in the welding direction and the transverse direction. It was demonstrated that process parameters including beam scanning frequency and radius can be successfully optimized using the proposed criterion." @default.
W2884619031 created "2018-08-03" @default.
W2884619031 creator A5001419447 @default.
W2884619031 creator A5002352268 @default.
W2884619031 creator A5018942020 @default.
W2884619031 creator A5029804713 @default.
W2884619031 creator A5079445425 @default.
W2884619031 date "2018-12-01" @default.
W2884619031 modified "2023-09-24" @default.
W2884619031 title "Optimization possibility of beam scanning for electron beam welding: Physics understanding and parameters selection criteria" @default.
W2884619031 cites W1964190830 @default.
W2884619031 cites W1977753660 @default.
W2884619031 cites W1980606292 @default.
W2884619031 cites W1981943946 @default.
W2884619031 cites W1984233402 @default.
W2884619031 cites W1985821273 @default.
W2884619031 cites W2018564570 @default.
W2884619031 cites W2018688918 @default.
W2884619031 cites W2029675715 @default.
W2884619031 cites W2032396066 @default.
W2884619031 cites W2043153293 @default.
W2884619031 cites W2045875266 @default.
W2884619031 cites W2047584824 @default.
W2884619031 cites W2056032432 @default.
W2884619031 cites W2056975183 @default.
W2884619031 cites W2060046978 @default.
W2884619031 cites W2065315502 @default.
W2884619031 cites W2072552797 @default.
W2884619031 cites W2076077791 @default.
W2884619031 cites W2078932322 @default.
W2884619031 cites W2083126079 @default.
W2884619031 cites W2086491346 @default.
W2884619031 cites W2087723989 @default.
W2884619031 cites W2091583863 @default.
W2884619031 cites W2126488447 @default.
W2884619031 cites W2169071075 @default.
W2884619031 cites W2288354234 @default.
W2884619031 cites W2316817743 @default.
W2884619031 cites W2324476704 @default.
W2884619031 cites W2346786923 @default.
W2884619031 cites W2517458731 @default.
W2884619031 cites W2546371273 @default.
W2884619031 cites W2587456018 @default.
W2884619031 cites W2748945144 @default.
W2884619031 cites W431755372 @default.
W2884619031 doi "https://doi.org/10.1016/j.ijheatmasstransfer.2018.07.014" @default.
W2884619031 hasPublicationYear "2018" @default.
W2884619031 type Work @default.
W2884619031 sameAs 2884619031 @default.
W2884619031 citedByCount "18" @default.
W2884619031 countsByYear W28846190312019 @default.
W2884619031 countsByYear W28846190312020 @default.
W2884619031 countsByYear W28846190312021 @default.
W2884619031 countsByYear W28846190312022 @default.
W2884619031 countsByYear W28846190312023 @default.
W2884619031 crossrefType "journal-article" @default.
W2884619031 hasAuthorship W2884619031A5001419447 @default.
W2884619031 hasAuthorship W2884619031A5002352268 @default.
W2884619031 hasAuthorship W2884619031A5018942020 @default.
W2884619031 hasAuthorship W2884619031A5029804713 @default.
W2884619031 hasAuthorship W2884619031A5079445425 @default.
W2884619031 hasConcept C120665830 @default.
W2884619031 hasConcept C121332964 @default.
W2884619031 hasConcept C127413603 @default.
W2884619031 hasConcept C147120987 @default.
W2884619031 hasConcept C159985019 @default.
W2884619031 hasConcept C168834538 @default.
W2884619031 hasConcept C192562407 @default.
W2884619031 hasConcept C19474535 @default.
W2884619031 hasConcept C20480867 @default.
W2884619031 hasConcept C26771246 @default.
W2884619031 hasConcept C2776139624 @default.
W2884619031 hasConcept C2776143536 @default.
W2884619031 hasConcept C3450827 @default.
W2884619031 hasConcept C57879066 @default.
W2884619031 hasConcept C59616599 @default.
W2884619031 hasConcept C62520636 @default.
W2884619031 hasConcept C78519656 @default.
W2884619031 hasConcept C89344249 @default.
W2884619031 hasConcept C95312477 @default.
W2884619031 hasConceptScore W2884619031C120665830 @default.
W2884619031 hasConceptScore W2884619031C121332964 @default.
W2884619031 hasConceptScore W2884619031C127413603 @default.
W2884619031 hasConceptScore W2884619031C147120987 @default.
W2884619031 hasConceptScore W2884619031C159985019 @default.
W2884619031 hasConceptScore W2884619031C168834538 @default.
W2884619031 hasConceptScore W2884619031C192562407 @default.
W2884619031 hasConceptScore W2884619031C19474535 @default.
W2884619031 hasConceptScore W2884619031C20480867 @default.
W2884619031 hasConceptScore W2884619031C26771246 @default.
W2884619031 hasConceptScore W2884619031C2776139624 @default.
W2884619031 hasConceptScore W2884619031C2776143536 @default.
W2884619031 hasConceptScore W2884619031C3450827 @default.
W2884619031 hasConceptScore W2884619031C57879066 @default.
W2884619031 hasConceptScore W2884619031C59616599 @default.
W2884619031 hasConceptScore W2884619031C62520636 @default.
W2884619031 hasConceptScore W2884619031C78519656 @default.
W2884619031 hasConceptScore W2884619031C89344249 @default.