Additive manufacturing of zirconia parts with organic sacrificial supports

Li, Wenbin; Armani, Amir; McMillen, Devin; Leu, Ming C.; Hilmas, Gregory E.; Watts, Jeremy Lee

doi:10.1111/ijac.13520

Cited by 11 publications

(1 citation statement)

References 38 publications

(72 reference statements)

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“…To obtain complex (hollow, cantilever) ceramic components, double-extrusion and multiple-extrusion LEF methods were developed. Also, researchers have developed a variety of supporting materials for the forming of complex components, including salt base, calcium oxide base, graphite base, starch base, plastic base, etc., and prepared components with different levels of complexity, such as Mg scaffolds with well-controlled and ordered porosity, turbine blower ceramic shell, etc [112][113][114][115][116][117][118] . However, due to the intrinsic behaviors of the LEF process, deposited slurry filaments accumulate layer by layer, and the corresponding sample's surface inevitably exhibits "laminated striation" morphology (Fig.…”

Section: Layered Extrusion Forming (Lef)mentioning

confidence: 99%

A review of additive manufacturing technology and its application to foundry in China

et al. 2021

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The application of additive manufacturing technology is one of the main approaches to achieving the rapid casting. Additive manufacturing technology can directly prepare casting molds (cores) with no need of patterns, and quickly cast complex castings. The combination of additive manufacturing and traditional casting technology can break the constraint of traditional casting technology, improve casting flexibility, and ameliorate the working environment. Besides, additive manufacturing promotes the realization of "free casting", greatly simplifying the processing procedures and shortening the manufacturing cycle. This paper summarizes the basic principle of additive manufacturing technology and its development situation domestically and overseas, mainly focusing on the development status of several main additive manufacturing technologies applicable to the foundry field, including three-dimensional printing, selective laser sintering, stereolithography, layered extrusion forming, etc. Finally, the future development trend of additive manufacturing technology in the foundry field is prospected.

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Section: Layered Extrusion Forming (Lef)mentioning

confidence: 99%

A review of additive manufacturing technology and its application to foundry in China

et al. 2021

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Additive Manufacturing of Composite Materials and Functionally Graded Structures Using Archerfish Hunting Technique

Prakash,

Koushik,

Jha

et al. 2024

Lubrication Science

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This paper proposes an optimisation method for fabricating composite materials and functionally graded structures. Using the proposed method, 3D printing of copper (Cu)–polyethylene (PE) composite, Al2O3–ZrO2 ceramic composite and functionally graded CuO foams are utilised. This work aims to advance the capabilities of additive manufacturing by leveraging nature‐inspired approaches to create complex, tailored structures with enhanced performance across various industries. The major objective of the proposed method is to reduce the feed rate and increase the airflow rate and airflow temperature for the heat transfer process. Using the proposed technique in the advanced preparation conditions, Cu–PE composites with unreliable Cu substances are fabricated. The PE binder particle is melting as well as forming thick composites by means of soft surfaces. Using the proposed AHO approach, functionally graded materials with common distributions can be efficiently optimised. By then, the proposed model is implemented on the MATLAB platform, and its execution is calculated using the current procedures. The proposed technique displays superior outcomes in all existing methods like wild horse optimiser, particle swarm optimisation and heap‐based optimiser. The proposed method shows a throughput of 57 mm3. The existing method shows the throughput of 32, 27 and 45 mm3. The results show that the proposed method has higher throughput compared with existing methods.

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Breakthrough to the pragmatic evolution of direct ink writing: progression, challenges, and future

2023

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Additive manufacturing of zirconia parts with organic sacrificial supports

Cited by 11 publications

References 38 publications

A review of additive manufacturing technology and its application to foundry in China

A review of additive manufacturing technology and its application to foundry in China

Additive Manufacturing of Composite Materials and Functionally Graded Structures Using Archerfish Hunting Technique

Breakthrough to the pragmatic evolution of direct ink writing: progression, challenges, and future

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