2021
DOI: 10.1002/admt.202001115
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Multifunctional Reactive Nanocomposites via Direct Ink Writing

Abstract: 3D printing of reactive materials has, to date, primarily focused on controlling reaction velocities and energy release rates by printing novel architectures, which during reaction typically form gaseous and oxide powder products. The utility of printed reactive materials can be increased by designing the material such that its reaction produces both a controlled energy release and a functional product phase without gaseous products. Here, we report the direct ink writing of reactive materials composed of tern… Show more

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Cited by 17 publications
(6 citation statements)
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“…Consequently, these effects could collectively be responsible for the observed deterioration in mechanical properties compared to systems based on preceramic polymers. Nevertheless, the reported low-carbon ceramic composite manufacturing has the potential to offer enhanced mechanical performance when compared to 3D printing and self-sustaining reactively formed cermets, which currently have a yield strength of 13 MPa . Furthermore, to explore the variation in mechanical strength over time, we performed a compressive test of the same batch of ceramic composite.…”
Section: Resultsmentioning
confidence: 99%
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“…Consequently, these effects could collectively be responsible for the observed deterioration in mechanical properties compared to systems based on preceramic polymers. Nevertheless, the reported low-carbon ceramic composite manufacturing has the potential to offer enhanced mechanical performance when compared to 3D printing and self-sustaining reactively formed cermets, which currently have a yield strength of 13 MPa . Furthermore, to explore the variation in mechanical strength over time, we performed a compressive test of the same batch of ceramic composite.…”
Section: Resultsmentioning
confidence: 99%
“…Increasing the MK to activator ratio results in decreasing final porosity, as shown in Figure 6a. The lowest porosity achievable is 22% when the MK to activator ratio is 1:3, indicating ∼3 times decrease compared to self-sustaining reaction-assisted 3D-printed cermet structure 19 as illustrated in Table 1, an increase in the MK to activator ratio results in a higher Si/Al ratio, which in turn leaves more water within the geopolymer structure after the curing process. This observation aligns with findings from prior research.…”
Section: Porosity and Mechanicalmentioning
confidence: 99%
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“…Reactive material products from the additive manufacturing process have been proposed for a wide variety of applications. Different applications may require very different, sometimes oppositional, properties of reactive materials: Providing a high reaction rate (for example, a multichannel igniter [ 72 ]); Providing a low controlled reaction rate and the absence of gas formation [ 73 ]; Releasing heat during the reaction (for example, destruction of microcircuits [ 74 ]); Generating gases (for example, micromotors and actuators [ 75 ]). …”
Section: Trends and Directions For Further Researchmentioning
confidence: 99%
“…1,2 Within the realm of 3D Printing, there exists a specific process termed "Direct Ink Writing (DIW)," which involves the precise layer-by-layer extrusion of ink through a fine micron-sized nozzle. In this process, gels, 3 composite pastes, 4 colloids, 5 and polymers 6 can be easily printed at low cost and with high flexibility. Primarily, the DIW approach can operate at ambient temperatures, so it is possible to manufacture materials that are not directly melted or sintered.…”
Section: Introductionmentioning
confidence: 99%