Advanced Certificate in 3D-Printed Ceramics: Impactful Design
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⢠Advanced 3D Modeling for Ceramics: In this unit, students will explore advanced 3D modeling techniques and principles, specifically tailored for ceramic design and production. This will include learning to use industry-standard software such as ZBrush, Rhino, or Fusion 360.
⢠3D Printing Technologies for Ceramics: Students will learn about the various 3D printing technologies available for ceramics, including material extrusion (FDM), vat photopolymerization (SLA/DLP), powder bed fusion (SLS/DMLS), and binder jetting. This unit will cover the principles of each technology, their strengths and limitations, and how to choose the right one for a given project.
⢠Post-Processing Techniques for 3D-Printed Ceramics: This unit will cover the various post-processing techniques for 3D-printed ceramics, including cleaning, sanding, glazing, and firing. Students will learn how to optimize these processes for the best possible results, and how to troubleshoot common issues that may arise.
⢠Advanced Ceramic Materials and Mix Design: In this unit, students will explore advanced ceramic materials and mix designs, with a focus on how these properties impact the final 3D-printed product. This will include learning about the different types of clay, glazes, and other materials, and how to create custom mixes for specific applications.
⢠Sustainable Ceramic 3D Printing: Students will learn about the environmental impact of ceramic 3D printing, and how to minimize it through sustainable practices such as using recycled materials, reducing waste, and optimizing energy consumption.
⢠Design for Manufacturing (DFM) for Ceramic 3D Printing: This unit will cover the principles of DFM, specifically for ceramic 3D printing. Students will learn how to design parts for optimal 3D printing, including how to minimize support structures, reduce printing time, and improve print quality.
⢠Advanced Ceramic 3D Printing Applications: In this unit, students will explore the various advanced applications of ceramic 3D printing, such as in architecture, aerospace, automotive, and healthcare. This
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