midas NFX
Product Industries Product Product Product
Company facebook Contact Us
Find us on
Medical Equipment
Designers and manufacturers of medical devices are challenged to deliver reliable and high quality products; invest in technology innovation; at the same time control product costs and prices.

midas NFX answers all the high end analysis requirements for medical equipment design. It provides all the analysis required(linear, nonlinear, dynamic, fatigue, optimization, thermal, fluid dynamic, multi physics ) in one unique interface. Additionally with the Designer / Analyst interfaces of NFX, designers and engineer can achieve better collaboration through true simulation driven design.
Solution Cases of Medical Equipment
Relevant Analysis
Linear Static Analysis
Using the superb analysis performance and the linear contact function of the high performance parallel processing solvers (multifrontal & AMG), models of any complexity can be analyzed quickly and accurately.
  • Linear stress, displacement and safety factor calculations
  • Linear contacts: single-body motion, sliding, interpolation link
  • Prestress function
  • Diverse and yet practical loads and boundary conditions
    - Loads: self-weight, centrifugal force, concentrated load, moment, temperature, pressure, beam load, pipe internal pressure, remote load, bolt load, etc.
    - Boundary conditions: constraint condition, symmetrical condition, MPC condition, etc.
  • GUI based subcase definition, calculation of results and transformation of result coordinate system
  • Outstanding analysis speed due to high performance parallel solvers
    - Direct method: multifrontal solver
    - Iterative method: AMG solver
  • Checking practical analysis results (convergence error caused by mesh density, etc.)
  • Extraction of stress results using surface elements
Nonlinear Static Analysis
Linear Dynamic Analysis
Fatigue Analysis
 


News & Events
2017-09-25
Enhancements in NFX 2018R1
dotline
2016-09-01
Enhancements in midas NFX 2017R1
dotline
2015-12-22
[Event In Italy] Introduzione alla Simulazione Strutturale nella Progettazione Meccanica
dotline
MIDAS FAMILY PROGRAM WEBSITE