SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2943660169> ?p ?o ?g. }

Showing items 1 to 90 of 90 with 100 items per page.

W2943660169 endingPage "3755" @default.
W2943660169 startingPage "3741" @default.
W2943660169 abstract "Polymer-derived in situ magnesium metal matrix composites (P-MMMCs) were fabricated by injecting a liquid or cross-linked polysilazane precursor into molten magnesium by a stir-casting method at two different melt temperatures of 700 and 800℃. Microstructural analysis reveals that the composites fabricated at 700℃ exhibit uni-modal grain size distribution having more or less columnar-shaped grain morphology. On the contrary, bi-modal grain size distribution with predominantly dendritic grain morphology occurs in the Mg matrix composites fabricated at 800℃. Such difference in grain morphology can be associated with variation in the availability of heterogeneous nucleation sites, and direction of heat flux during solidification. All of the fabricated composites were investigated for their solidification characteristics, microstructural evolution, micro/nano-hardness and compression properties. This article discusses the correlation between the processing parameters, microstructural evolution and mechanical properties of the as-cast in situ composites fabricated by liquid metallurgical route. Polymer-injection followed by in situ pyrolysis holds the potential of revolutionary processing technologies for producing castings of metal matrix nanocomposites, for example by bubbling the organic liquid with a carrier gas, e.g. nitrogen, into the molten metal by a Bessemer-like process." @default.
W2943660169 created "2019-05-09" @default.
W2943660169 creator A5033057393 @default.
W2943660169 creator A5065801513 @default.
W2943660169 creator A5085782012 @default.
W2943660169 date "2019-05-02" @default.
W2943660169 modified "2023-10-01" @default.
W2943660169 title "Effects of processing conditions on solidification characteristics and mechanical properties of in situ magnesium metal matrix composites derived from polysilazane precursor" @default.
W2943660169 cites W1964333184 @default.
W2943660169 cites W1973763811 @default.
W2943660169 cites W1980561619 @default.
W2943660169 cites W1999213443 @default.
W2943660169 cites W1999619636 @default.
W2943660169 cites W2008169411 @default.
W2943660169 cites W2028956270 @default.
W2943660169 cites W2042233106 @default.
W2943660169 cites W2044897192 @default.
W2943660169 cites W2049297949 @default.
W2943660169 cites W2059796661 @default.
W2943660169 cites W2063761939 @default.
W2943660169 cites W2073647788 @default.
W2943660169 cites W2078509753 @default.
W2943660169 cites W2089169339 @default.
W2943660169 cites W2093046794 @default.
W2943660169 cites W2102331776 @default.
W2943660169 cites W2108573472 @default.
W2943660169 cites W2145638111 @default.
W2943660169 cites W2168792291 @default.
W2943660169 cites W2171062151 @default.
W2943660169 cites W2197866783 @default.
W2943660169 cites W2333533749 @default.
W2943660169 cites W2379424490 @default.
W2943660169 cites W244161829 @default.
W2943660169 cites W2568491684 @default.
W2943660169 doi "https://doi.org/10.1177/0021998319846546" @default.
W2943660169 hasPublicationYear "2019" @default.
W2943660169 type Work @default.
W2943660169 sameAs 2943660169 @default.
W2943660169 citedByCount "8" @default.
W2943660169 countsByYear W29436601692020 @default.
W2943660169 countsByYear W29436601692021 @default.
W2943660169 countsByYear W29436601692022 @default.
W2943660169 countsByYear W29436601692023 @default.
W2943660169 crossrefType "journal-article" @default.
W2943660169 hasAuthorship W2943660169A5033057393 @default.
W2943660169 hasAuthorship W2943660169A5065801513 @default.
W2943660169 hasAuthorship W2943660169A5085782012 @default.
W2943660169 hasConcept C159985019 @default.
W2943660169 hasConcept C16635281 @default.
W2943660169 hasConcept C178790620 @default.
W2943660169 hasConcept C185592680 @default.
W2943660169 hasConcept C191897082 @default.
W2943660169 hasConcept C192191005 @default.
W2943660169 hasConcept C192562407 @default.
W2943660169 hasConcept C543218039 @default.
W2943660169 hasConcept C61048295 @default.
W2943660169 hasConcept C87976508 @default.
W2943660169 hasConcept C92880739 @default.
W2943660169 hasConceptScore W2943660169C159985019 @default.
W2943660169 hasConceptScore W2943660169C16635281 @default.
W2943660169 hasConceptScore W2943660169C178790620 @default.
W2943660169 hasConceptScore W2943660169C185592680 @default.
W2943660169 hasConceptScore W2943660169C191897082 @default.
W2943660169 hasConceptScore W2943660169C192191005 @default.
W2943660169 hasConceptScore W2943660169C192562407 @default.
W2943660169 hasConceptScore W2943660169C543218039 @default.
W2943660169 hasConceptScore W2943660169C61048295 @default.
W2943660169 hasConceptScore W2943660169C87976508 @default.
W2943660169 hasConceptScore W2943660169C92880739 @default.
W2943660169 hasIssue "26-27" @default.
W2943660169 hasLocation W29436601691 @default.
W2943660169 hasOpenAccess W2943660169 @default.
W2943660169 hasPrimaryLocation W29436601691 @default.
W2943660169 hasRelatedWork W1972254111 @default.
W2943660169 hasRelatedWork W1984645231 @default.
W2943660169 hasRelatedWork W2031540510 @default.
W2943660169 hasRelatedWork W2053623882 @default.
W2943660169 hasRelatedWork W2063388647 @default.
W2943660169 hasRelatedWork W2146788481 @default.
W2943660169 hasRelatedWork W2352525910 @default.
W2943660169 hasRelatedWork W2353409022 @default.
W2943660169 hasRelatedWork W2491222380 @default.
W2943660169 hasRelatedWork W3015963878 @default.
W2943660169 hasVolume "53" @default.
W2943660169 isParatext "false" @default.
W2943660169 isRetracted "false" @default.
W2943660169 magId "2943660169" @default.
W2943660169 workType "article" @default.