SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3132032968> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W3132032968 endingPage "110154" @default.
W3132032968 startingPage "110154" @default.
W3132032968 abstract "Abstract Intense pulsed ion beam (IPIB), featured with pulsed high-power density, has been widely used in the modification of structural material, especially in high strength materials. The effects of IPIB treatment on phase transformation and surface microstructure of alumina ceramics were investigated in this work. Experiments were carried out on the BIPPAB-450 accelerator with peak accelerating voltage and current density of 360 kV and 170 A/cm2. X-ray diffraction (XRD), scanning electron microscope (SEM) and atomic force microscope (AFM) were used to analyze the phase transformation and cross-section and surface morphology of alumina ceramics under IPIB treatment. The XRD pattern indicated that phase transformation from α-Al2O3 to γ-Al2O3 occurred on the irradiated area due to the combined effect of rapid re-solidification and thermal stress caused by IPIB. The SEM cross-section images indicated that homogeneous modified layer with thickness up to 1.53 μm was produced and cracks inside sample were observed as well after IPIB irradiation. The evolution of cracks on surface of samples with pulse number was investigated in this work. Micro-holes distributed on the net structure of cracks were observed after IPIB irradiation and the evolution of size and number of micro-holes with pulse number was discussed." @default.
W3132032968 created "2021-03-01" @default.
W3132032968 creator A5012325681 @default.
W3132032968 creator A5027046437 @default.
W3132032968 creator A5027227258 @default.
W3132032968 creator A5043809871 @default.
W3132032968 creator A5043924583 @default.
W3132032968 creator A5052481491 @default.
W3132032968 creator A5055138326 @default.
W3132032968 creator A5059000495 @default.
W3132032968 creator A5059543861 @default.
W3132032968 creator A5061657570 @default.
W3132032968 creator A5061898503 @default.
W3132032968 creator A5062841666 @default.
W3132032968 creator A5063183000 @default.
W3132032968 creator A5068099363 @default.
W3132032968 creator A5074931746 @default.
W3132032968 date "2021-05-01" @default.
W3132032968 modified "2023-10-16" @default.
W3132032968 title "Study of phase transformation and surface microstructure of alumina ceramic under irradiation of intense pulsed ion beam" @default.
W3132032968 cites W1642682098 @default.
W3132032968 cites W1897429963 @default.
W3132032968 cites W1958403153 @default.
W3132032968 cites W1982665286 @default.
W3132032968 cites W1992537618 @default.
W3132032968 cites W1997704412 @default.
W3132032968 cites W2005767625 @default.
W3132032968 cites W2012414669 @default.
W3132032968 cites W2016058673 @default.
W3132032968 cites W2021192341 @default.
W3132032968 cites W2032520457 @default.
W3132032968 cites W2034695774 @default.
W3132032968 cites W2035377915 @default.
W3132032968 cites W2035405992 @default.
W3132032968 cites W2042007088 @default.
W3132032968 cites W2043199648 @default.
W3132032968 cites W2044615652 @default.
W3132032968 cites W2050308165 @default.
W3132032968 cites W2062025142 @default.
W3132032968 cites W2063219199 @default.
W3132032968 cites W2083785912 @default.
W3132032968 cites W2089364979 @default.
W3132032968 cites W2094145235 @default.
W3132032968 cites W2095059285 @default.
W3132032968 cites W2104187985 @default.
W3132032968 cites W2136796482 @default.
W3132032968 cites W2166857436 @default.
W3132032968 cites W2169190654 @default.
W3132032968 cites W2219571193 @default.
W3132032968 cites W2490748297 @default.
W3132032968 cites W2764255125 @default.
W3132032968 cites W2782872077 @default.
W3132032968 cites W2889337864 @default.
W3132032968 cites W2898303580 @default.
W3132032968 cites W2950344880 @default.
W3132032968 cites W3000014283 @default.
W3132032968 cites W3010161364 @default.
W3132032968 cites W3217601237 @default.
W3132032968 cites W744541698 @default.
W3132032968 cites W2020506712 @default.
W3132032968 doi "https://doi.org/10.1016/j.vacuum.2021.110154" @default.
W3132032968 hasPublicationYear "2021" @default.
W3132032968 type Work @default.
W3132032968 sameAs 3132032968 @default.
W3132032968 citedByCount "6" @default.
W3132032968 countsByYear W31320329682021 @default.
W3132032968 countsByYear W31320329682022 @default.
W3132032968 countsByYear W31320329682023 @default.
W3132032968 crossrefType "journal-article" @default.
W3132032968 hasAuthorship W3132032968A5012325681 @default.
W3132032968 hasAuthorship W3132032968A5027046437 @default.
W3132032968 hasAuthorship W3132032968A5027227258 @default.
W3132032968 hasAuthorship W3132032968A5043809871 @default.
W3132032968 hasAuthorship W3132032968A5043924583 @default.
W3132032968 hasAuthorship W3132032968A5052481491 @default.
W3132032968 hasAuthorship W3132032968A5055138326 @default.
W3132032968 hasAuthorship W3132032968A5059000495 @default.
W3132032968 hasAuthorship W3132032968A5059543861 @default.
W3132032968 hasAuthorship W3132032968A5061657570 @default.
W3132032968 hasAuthorship W3132032968A5061898503 @default.
W3132032968 hasAuthorship W3132032968A5062841666 @default.
W3132032968 hasAuthorship W3132032968A5063183000 @default.
W3132032968 hasAuthorship W3132032968A5068099363 @default.
W3132032968 hasAuthorship W3132032968A5074931746 @default.
W3132032968 hasConcept C104317684 @default.
W3132032968 hasConcept C111337013 @default.
W3132032968 hasConcept C113196181 @default.
W3132032968 hasConcept C120665830 @default.
W3132032968 hasConcept C121332964 @default.
W3132032968 hasConcept C134132462 @default.
W3132032968 hasConcept C145148216 @default.
W3132032968 hasConcept C159985019 @default.
W3132032968 hasConcept C168834538 @default.
W3132032968 hasConcept C178790620 @default.
W3132032968 hasConcept C185544564 @default.
W3132032968 hasConcept C185592680 @default.
W3132032968 hasConcept C192562407 @default.
W3132032968 hasConcept C204241405 @default.