Post by account_disabled on Mar 5, 2024 22:55:44 GMT -8
Presenting New Applications of Printing, and Traumatology in Particular. And, as Incredible as It May Seem, in the Future, When We Break a Bone, Maybe Printers Will Help Medical Professionals Heal Our Injuries. Can Printing Heal Our Broken Bones? An Advance at Mit May Fundamentally Help Solve the Problem of Broken Bones Caused by Accidental Blows or Falls. His Research Work, Published in the Journal Advanced Functional Materials, Enabled the Printing of Resins and Heterogeneous Materials That Could Imitate Bone Structures in the Future. If We Know the State of the Fracture, We Can Simulate the Mechanical Properties of the Fracture by Computer Designing the Best Material to Accommodate the Damage Caused. These Printed Synthetic Materials Can Be Adapted to Patients and Used Routinely in Medicine. You Can Imagine That Everywhere in the Hospital.
Are They All Printers? Maybe This Utopia Will Become a Reality Sooner Than We Think. Bone Scanning the Great Achievement of This Working Group Led by Was Not the Creation of Bones by Printing, but Rather the Important Advances That Could Be Extended to Other Applications of Such Printers. This is Because They Have Chinese Europe Phone Number List Successfully Used Printing for the First Time to Create Two Synthetic Polymers Based on a Certain Geometric Pattern, Much Like What Happens in Bone Structure (at a Distance, of Course). The Bone's Material Isn't Unique, Nor is Its Design Simple. Basically Though, There Are Two Components (a Soft Elastic Collagen Matrix That Acts as a "Support" for the Rigid and Hard Hydroxyapatite), and Based on This Structure We Can Make These New "Artificial Bones" . As We Can Imagine, Simulating and Printing by Design and.
Making Bones is No Simple Task. If a Broken Bone Doesn't Heal Naturally, How Do We Transfer It to the Artificial World of a Printer? The Buehler Team Addressed This Important Challenge Through Classic Trial-and-error Testing, Which Included Testing Various Designs and Components to Ensure That the Printed Product Had the Same Properties (Such as Resistance to Fracture) as Parts of the Natural Bone Material. In the Words of a Researcher and Participant in the Study, “most Importantly, the Experiment Confirmed the Computational Prediction That Bone-like Samples Exhibit Maximum Resistance to Fracture.” in Other Words, This Achievement is Not Just About Obtaining Bones by Printing; the Most Suitable Bionic Structure Can Be Predicted and Designed Through Computers. This Mit Advancement Could Be Used in Medicine in the Medium Term, but the Way It Works and Its Applications Will Also Revolutionize the Work Done Using Printers. Were Able.