SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3000676257> ?p ?o ?g. }

Showing items 1 to 100 of ±121 with 100 items per page.

W3000676257 endingPage "548" @default.
W3000676257 startingPage "542" @default.
W3000676257 abstract "The potential of ceramics to serve modern needs is increasing day by day. High hardness, lightweight, excellent wear and corrosion resistance, bio-compatibility combined with chemical inertness make the ceramics even more attractive in modern industrial practices. Because of high hardness and lower fracture toughness of ceramics, it is very difficult to machine them using conventional machining processes and also it is not economically feasible. The limitations posed by conventional machining processes are overcome by the invention of thermal energy based advanced machining processes. Of all the developed thermal energy based machining processes, Electric Discharge Machining (EDM) is economical because of its non-contact and force free machining operation. The material removal by continuous recurring of electrical discharges made the EDM unique. Silicon Carbide (SiC) being one of the hardest ceramics, is currently finding its need in aerospace, automotive, space and other industries. Traditional sintering processes makes it difficult to manufacture complex shapes with SiC. Hence, in this paper, various electric discharge machining techniques have been discussed to machine silicon carbide." @default.
W3000676257 created "2020-01-23" @default.
W3000676257 creator A5007272709 @default.
W3000676257 creator A5015983422 @default.
W3000676257 creator A5029629173 @default.
W3000676257 creator A5033058635 @default.
W3000676257 creator A5081925087 @default.
W3000676257 date "2020-01-01" @default.
W3000676257 modified "2023-10-02" @default.
W3000676257 title "Past and current trends in electric discharge based machining of Silicon Carbide" @default.
W3000676257 cites W1965586219 @default.
W3000676257 cites W1965722618 @default.
W3000676257 cites W1970883224 @default.
W3000676257 cites W1971914026 @default.
W3000676257 cites W1975631031 @default.
W3000676257 cites W1982254422 @default.
W3000676257 cites W1983302432 @default.
W3000676257 cites W1984134797 @default.
W3000676257 cites W1985321891 @default.
W3000676257 cites W1987195663 @default.
W3000676257 cites W1989504034 @default.
W3000676257 cites W2004948008 @default.
W3000676257 cites W2007857582 @default.
W3000676257 cites W2008025565 @default.
W3000676257 cites W2009181904 @default.
W3000676257 cites W2009210323 @default.
W3000676257 cites W2009761061 @default.
W3000676257 cites W2013092755 @default.
W3000676257 cites W2013838059 @default.
W3000676257 cites W2030021336 @default.
W3000676257 cites W2030238666 @default.
W3000676257 cites W2030300863 @default.
W3000676257 cites W2032374659 @default.
W3000676257 cites W2041032277 @default.
W3000676257 cites W2041200602 @default.
W3000676257 cites W2041634586 @default.
W3000676257 cites W2044093234 @default.
W3000676257 cites W2045742839 @default.
W3000676257 cites W2047100258 @default.
W3000676257 cites W2047498581 @default.
W3000676257 cites W2053978732 @default.
W3000676257 cites W2057489616 @default.
W3000676257 cites W2059599066 @default.
W3000676257 cites W2066859098 @default.
W3000676257 cites W2074162254 @default.
W3000676257 cites W2075208794 @default.
W3000676257 cites W2075882891 @default.
W3000676257 cites W2077773039 @default.
W3000676257 cites W2088267956 @default.
W3000676257 cites W2093689866 @default.
W3000676257 cites W2161732477 @default.
W3000676257 cites W2169032100 @default.
W3000676257 cites W2246436892 @default.
W3000676257 cites W2294579144 @default.
W3000676257 cites W2294767232 @default.
W3000676257 cites W2306122006 @default.
W3000676257 cites W2324279342 @default.
W3000676257 cites W2357239884 @default.
W3000676257 cites W2528068051 @default.
W3000676257 cites W2770936713 @default.
W3000676257 cites W2894745406 @default.
W3000676257 cites W2905850366 @default.
W3000676257 doi "https://doi.org/10.1016/j.matpr.2019.12.135" @default.
W3000676257 hasPublicationYear "2020" @default.
W3000676257 type Work @default.
W3000676257 sameAs 3000676257 @default.
W3000676257 citedByCount "9" @default.
W3000676257 countsByYear W30006762572020 @default.
W3000676257 countsByYear W30006762572021 @default.
W3000676257 countsByYear W30006762572022 @default.
W3000676257 countsByYear W30006762572023 @default.
W3000676257 crossrefType "journal-article" @default.
W3000676257 hasAuthorship W3000676257A5007272709 @default.
W3000676257 hasAuthorship W3000676257A5015983422 @default.
W3000676257 hasAuthorship W3000676257A5029629173 @default.
W3000676257 hasAuthorship W3000676257A5033058635 @default.
W3000676257 hasAuthorship W3000676257A5081925087 @default.
W3000676257 hasConcept C127413603 @default.
W3000676257 hasConcept C134132462 @default.
W3000676257 hasConcept C140075996 @default.
W3000676257 hasConcept C146978453 @default.
W3000676257 hasConcept C167740415 @default.
W3000676257 hasConcept C191897082 @default.
W3000676257 hasConcept C192562407 @default.
W3000676257 hasConcept C2780722187 @default.
W3000676257 hasConcept C523214423 @default.
W3000676257 hasConcept C5335593 @default.
W3000676257 hasConcept C78519656 @default.
W3000676257 hasConcept C99595764 @default.
W3000676257 hasConceptScore W3000676257C127413603 @default.
W3000676257 hasConceptScore W3000676257C134132462 @default.
W3000676257 hasConceptScore W3000676257C140075996 @default.
W3000676257 hasConceptScore W3000676257C146978453 @default.
W3000676257 hasConceptScore W3000676257C167740415 @default.
W3000676257 hasConceptScore W3000676257C191897082 @default.
W3000676257 hasConceptScore W3000676257C192562407 @default.
W3000676257 hasConceptScore W3000676257C2780722187 @default.
W3000676257 hasConceptScore W3000676257C523214423 @default.