Event price: No cost
Online payment: At the time of your registration you will be able to pay online with credit card and PSE.
Payment in banks:
Present the invoice printed in laser, and approach the following banking entities:
- Banco de Bogotá and its banking correspondents: Almacenes Éxito, Carulla, Surtimax, Súper inter.
Go to the University Cashier and pay with a debit or credit card.
Start date: 04-06-2020
End date: 04-06-2020
Duration: 0.67 hours.
Event city: Medellin
Hours: Thursday, June 4, 2020, from 07:00 pm to 07:40 pm
Place: Virtual classroom - CES University.
Event Code: 70081812
To register, you must fill out the form to generate the invoice and make the payment online, banks or in person at the University.
Learn about the importance of the topics to be addressed during the development of the Conference
We share the characteristics or requirements that you must meet to be part of this Conference
The modality of the event is Virtual
This webinar focuses on the description and technical and scientific foundations of the Laser Powder Bed Fusion (LPBF) additive manufacturing process, and applications of this process in the field of biomedical engineering, with a central focus on medical implants.
Engineering professionals, innovators, engineering students, and careers interested in innovation and manufacturing.
Find out how you can finance your registration in this event.
Find the contents to be discussed in the Continuing Education Conference
Learn about the skills you will acquire by holding the Conference at our University.
Finance the payment of your registration with SUFI, contact the advisor:
Anderson Esneyder Acevedo Benitez
Telephone: (57) (4) 604 91 25
Mobile: 301 254 98 44
Payment with Severance:
Check with your fund and severance management company about the requirements to make the payment *.
* Applies for diplomas and certifications.
- Additive manufacturing processes.
- 3D printing via (Laser Powder Bed Fusion) LPBF
- Applications in Biomedical Engineering.
Publicize the impact of one of the additive manufacturing technologies currently used in biomedical applications.
Mechanical Engineer, Specialist in Mechanical Design (U. Eafit). PhD candidate at the Pontificia Universidad Católica de Chile (DSc. Engineering - Mechanical Engineering) and Politecnico di Milano (PhD. Materials Engineering). Thesis at Consiglio Nazionale della Ricerca, Polo di Lecco - Lecco (Italy). Doctoral research work on processability, microstructure and mechanical behavior of non-conventional titanium alloys processed by LPBF.