Numerically Simulated 3D Printing of Magnesium Bone Scaffolds for Regeneration using ABAQUS & PYTHON
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- เผยแพร่เมื่อ 27 ส.ค. 2024
- For CAE files and Tutorial, Please reach out to me via:
Website: www.arsalanmaa.com
Email: arsalanmuhammadahmad@yahoo.com
WhatsApp: +92-315-977-9633
Hello everyone !!!!! This is Arsalan and I am back with my new project related to 3D printing in the field of biomedical engineering. Today, I will show you the details of bone scaffolds and their 3D printing, with a special focus on a magnesium-based scaffold. We'll explore the crucial role bone scaffolds play in regenerative medicine and how 3D printing technology is revolutionizing the field. Bone scaffolds act as a support structure for bone regeneration, providing a framework for new tissue growth. 3D printing technology allows for the creation of highly customized scaffolds, tailored to the unique anatomy of each patient. This personalized approach enhances the effectiveness of the scaffold in promoting bone healing."
Now, let's take a closer look at the modeling process. Our journey begins with 3D modeling using Dassault Systèmes software ABAQUS, a powerful finite element analysis software. The STL file of our magnesium bone scaffold was generated using Workbench, ensuring precision in the representation of the scaffold's geometry. Next in line was the generation of G-codes, the instructions that guide the 3D printer in creating the physical scaffold. ReplicatorG software was employed for this task. The G-codes, which serve as the machine language for 3D printing, were then further refined using a Python script in the form of event series data, which represents the layering sequence during 3Dpriniting. Next, we proceeded to simulate the 3D printing process using Abaqus using AM PLUGIN. Our focus was on LDED (Layer Deposition and Extrusion Deposition) 3D printing technology, ensuring accurate representation of each layer of the scaffold. This simulation provides insights into the structural integrity, thermal aspects, and overall behavior during the printing process."
Stay tuned for more updates on the exciting intersection of technology and healthcare.
you can find some similar project releated to this on my website. Here is detail
Project # Comparative analysis of Mg “magnesium” Scaffold Shapes: Modelling Corrosion and Mechanical Resilience in Simulated Body Fluids”
