FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3025302138> ?p ?o ?g. }

• W3025302138 endingPage "101299" @default.
• W3025302138 startingPage "101299" @default.
• W3025302138 abstract "Abstract In the context of the large format additive manufacturing in ambient conditions, extrusion materials need to be thermally stable, thus short fiber-reinforced composites have been developed to tailor the thermal behavior. However, lack of public knowledge in material properties and dataset lead to improper processing; yielding degradation of materials during trial & error operations which not only increase cost but also reduce the quality of printed parts. This research investigated neat and composite ABS filled with short carbon fiber (ABS/CF) and glass fiber (ABS/GF) using thermophysical and thermomechanical characterization techniques to generate dataset and knowledge that can be used to process materials without degrading the properties as well as achieving the quality parts in future. Thermogravimetric analysis was performed to study the degradation behavior. Differential scanning calorimetry (DSC) analyzed the glass transition temperature ( T g ) and specific heat to understand the heat dissipation of neat and composite materials. While the T g measured in DSC was not significantly different, the dynamic mechanical analysis showed that T g in ABS/CF was increased due to the impeded polymer chain mobility. In addition, both ABS/CF and ABS/GF showed that mechanical stiffness increased by 272 % and 84 % respectively compared to the neat ABS. The thermomechanical analysis described the deformation behavior before and after the transition temperature which suggested that ABS/CF has the highest thermal stability to retain the shape at elevated temperature followed by ABS/GF and neat ABS. The findings of this article can be used during the modeling of pellet-fed large format AM and developing empirical process parameters." @default.
• W3025302138 created "2020-05-21" @default.
• W3025302138 creator A5002256749 @default.
• W3025302138 creator A5039259767 @default.
• W3025302138 creator A5053563567 @default.
• W3025302138 creator A5067479962 @default.
• W3025302138 creator A5076591183 @default.
• W3025302138 date "2020-10-01" @default.
• W3025302138 modified "2023-10-05" @default.
• W3025302138 title "Thermomechanical characterization of short carbon fiber and short glass fiber-reinforced ABS used in large format additive manufacturing" @default.
• W3025302138 cites W1965032138 @default.
• W3025302138 cites W1966049388 @default.
• W3025302138 cites W2021883569 @default.
• W3025302138 cites W2039420782 @default.
• W3025302138 cites W2089729137 @default.
• W3025302138 cites W2124777151 @default.
• W3025302138 cites W2152602280 @default.
• W3025302138 cites W2267003548 @default.
• W3025302138 cites W2308316586 @default.
• W3025302138 cites W2591595431 @default.
• W3025302138 cites W2793435880 @default.
• W3025302138 cites W2887008785 @default.
• W3025302138 cites W2890489907 @default.
• W3025302138 cites W2892260645 @default.
• W3025302138 cites W2914346043 @default.
• W3025302138 cites W4233480432 @default.
• W3025302138 cites W566602208 @default.
• W3025302138 doi "https://doi.org/10.1016/j.addma.2020.101299" @default.
• W3025302138 hasPublicationYear "2020" @default.
• W3025302138 type Work @default.
• W3025302138 sameAs 3025302138 @default.
• W3025302138 citedByCount "25" @default.
• W3025302138 countsByYear W30253021382020 @default.
• W3025302138 countsByYear W30253021382021 @default.
• W3025302138 countsByYear W30253021382022 @default.
• W3025302138 countsByYear W30253021382023 @default.
• W3025302138 crossrefType "journal-article" @default.
• W3025302138 hasAuthorship W3025302138A5002256749 @default.
• W3025302138 hasAuthorship W3025302138A5039259767 @default.
• W3025302138 hasAuthorship W3025302138A5053563567 @default.
• W3025302138 hasAuthorship W3025302138A5067479962 @default.
• W3025302138 hasAuthorship W3025302138A5076591183 @default.
• W3025302138 hasConcept C159985019 @default.
• W3025302138 hasConcept C171250308 @default.
• W3025302138 hasConcept C177229083 @default.
• W3025302138 hasConcept C192562407 @default.
• W3025302138 hasConcept C2780841128 @default.
• W3025302138 hasConcept C519885992 @default.
• W3025302138 hasConceptScore W3025302138C159985019 @default.
• W3025302138 hasConceptScore W3025302138C171250308 @default.
• W3025302138 hasConceptScore W3025302138C177229083 @default.
• W3025302138 hasConceptScore W3025302138C192562407 @default.
• W3025302138 hasConceptScore W3025302138C2780841128 @default.
• W3025302138 hasConceptScore W3025302138C519885992 @default.
• W3025302138 hasLocation W30253021381 @default.
• W3025302138 hasOpenAccess W3025302138 @default.
• W3025302138 hasPrimaryLocation W30253021381 @default.
• W3025302138 hasRelatedWork W1835257605 @default.
• W3025302138 hasRelatedWork W1969845509 @default.
• W3025302138 hasRelatedWork W2082293200 @default.
• W3025302138 hasRelatedWork W2230009713 @default.
• W3025302138 hasRelatedWork W2326997823 @default.
• W3025302138 hasRelatedWork W2376168832 @default.
• W3025302138 hasRelatedWork W2387616028 @default.
• W3025302138 hasRelatedWork W2968655943 @default.
• W3025302138 hasRelatedWork W3087783407 @default.
• W3025302138 hasRelatedWork W3162732562 @default.
• W3025302138 hasVolume "35" @default.
• W3025302138 isParatext "false" @default.
• W3025302138 isRetracted "false" @default.
• W3025302138 magId "3025302138" @default.
• W3025302138 workType "article" @default.