OUR SERVICES

• Stress-strain analyses with aid of the finite element method

• Computational models of bidirectional interaction between flow, structure and acoustics

• Computational fluid dynamics

• Preparation of hard and soft tissue geometry models from CT/MRI and micro CT images

• Determination of mechanical properties of soft tissues on uniaxial and biaxial testing equipment

• Measurement of tissue orientation, fibrillation and waviness

• DIC & micro DIC measurements

• Optical 3D scanning of large and small objects, photogrammetry & 3D measurement

• 3D printing

Analysis of the trabecular bone, geometry from microCT

Stress-strain analysis of a TEP hip stem and design of a TEP stem with an auxetic structure

Mechanical analysis of auxetic structure

Stress-strain analysis of the hip spacer

Stress-strain analysis of a cementless femoral stem of the hip joint TEP

Stress-strain analysis of the knee joint TEP

CFD analysis of nasal airflow

Simulation of the human phonation

Mucosal wave travelling on the vocal fold surface

CT image

Reconstruction of a human head geometry from MRI

Sound-field around the human head

Remodelation of a bone tissue

Strain analysis of the cranial implant

Stress analysis of a mandibular bone tissue from the dental implant

Simulation of contraction of the human hearth

Spatial model of a human carotid bifurcation with a stenosis

Geometry reconstruction of the human carotide from CT-A images

Fluid flow inside the human carotide with a stenosis

STL geometry and scanning with the Shining 3D® EinScan Sense optical scanner

Combining geometry from CT data and from photogrammetry

Preparation of a specimen for the uniaxial tension test

Preparation of specimens for the biaxial tension tests

Evaluation of orientation of collagen fibres

An artery wall under a microscope

Biaxial tension test