[Mimics, ansys] Medical 3D Reconstruction and Hemodynamic Course

1. Medical finite element (Mimics, ANSYS)
live online from March 26th to March 29th
2. Biofluid mechanics modeling and simulation technology training course
March 19th to March 22nd live online
course 1: Overview of the finite element method And analysis (biomechanics basis)
finite element modeling basic knowledge training:
Course 2: mimics software (computer operation case analysis):
characteristics of medical finite element model and modeling method
Course 3: ANSYS finite element analysis operation
ANSYS software interface and Function module introduction
Course 4: Finite element in medical clinic (specific case analysis
of biomechanics) Application and analysis of finite element software in biomechanics (case analysis)
1) Mechanical analysis of anterior cervical butterfly plate
2) Artificial intervertebral disc replacement Postoperative mechanical analysis
3) Stress analysis at different angles of the anterior and posterior axis of the axis
4) Research on the motion mechanics response of femur-tibia complex under the impact of human body weight
5) Biomechanics of interlocking intramedullary nail, DHS plate and proximal locking plate Performance comparison
6) Human thoracic emergency compression mechanics simulation
7) Finite element analysis of micro-implant anchorage to improve Gingival Smile
8) Finite element analysis of mandibular body defect reconstruction with titanium plate
Course 5: Hemodynamics (specific case)
1. Risk assessment of aneurysm rupture
2. Correlation analysis of carotid artery stenosis and distal stroke/analysis of plaque stability
3. Deformation and arrangement of vascular endothelial cells under fluid force stimulation
4. Aortic dissection pressure distribution and thrombosis Effect prediction
5. Analysis of the effect of blood flow on stent displacement
6. The perfusion changes inside the aneurysm after the dense mesh stent is placed.
7. The correlation analysis between vascular fenestration and vascular disease.
Supplementary courses
1) Introduction to other related software
Geomagic, Freeform, hypermesh, etc.
2) Combining clinical subject analysis and design ideas
3) Free Q&A
4) Establish a long-term learning platform for the QQ group.
VI. Contact:
Contact: Li Lianjie (teacher) 13311241619 QQ: 1503177939
Medical Finite Element Learning Group Group Number: 858387385 (Added Group Remarks: Invited by Jet Li) Biofluid
Mechanics Training Course QQ group number: 946428130 (add group remarks: Jet Li’s invitation)