<p>CSEI of cseinc.org performs mechanical fatigue analysis, mechanical failure analysis, mechanical fracture analysis, structural fatigue analysis, structural fracture analysis, structural failure analysis, corrosion fatigue analysis, corrosion stress analysis due to environmental conditions such as mechanical vibrations, mechanical dynamics, structural vibrations, structural dynamics, and corrosion.</p> <p>CSEI of cseinc.org performs mechanical fatigue analysis using finite element analysis, mechanical failure analysis using finite element analysis, mechanical fracture analysis using finite element analysis, structural fatigue analysis using finite element analysis, structural fracture analysis using finite element analysis, structural failure analysis using finite element analysis, mechanical vibrations using finite element analysis, mechanical dynamics using finite element analysis, structural vibrations using finite element analysis, structural dynamics using finite element analysis, corrosion fatigue analysis using finite element analysis, and corrosion stress analysis using finite element analysis procedures.</p> <p>CSEI of cseinc.org performs mechanical fatigue analysis using FEA, mechanical failure analysis using FEA, mechanical fracture analysis using FEA, structural fatigue analysis using FEA, structural fracture analysis using FEA, structure failure analysis using FEA, corrosion fatigue analysis using FEA, corrosion stress analysis using FEA, mechanical vibration analysis using FEA, mechanical dynamics using FEA, structural vibrations using FEA, structural dynamics using FEA, and corrosion analysis using FEA.</p>

Fatigue And Fracture Analysis


fatigue1

Fatigue of a structure or manufactured product may significantly shorten the functional life of the structure or manufactured product, far less than predicted by steady-state, linear elastic stress analyses. The ability of a structure or manufactured product to transmit forces from points of application to points of constraint, over the expected life of the structure or manufactured product, will be reduced as fatigue cracks develop and grow.

Fracture of a structure or within a manufactured product will occur when fatigue cracks grow to a critical size. If the growth of fatigue cracks is not monitored and remaining life accurately predicted, catastrophic failure of the structure or manufactured product may occur without notice.

Analysis Capabilities

Stress-life analysis of products
Strain-life and LEFM analysis of products
Corrosion fatigue analysis of products
Stress concentrations accounted for in analysis
Crack growth estimates
Determination of critical crack lengths

Applications

Structural and manufactured product life predictions.
Evaluating low cycle fatigue and high cycle fatigue components of structural and product life expectancy.
Predicting time to crack initiation as a function of cycles.
Predicting crack growth as a function of cycles.
Evaluating the effects of material and manufacturing defects on the life expectancy of a structure or manufactured product.
Evaluating the effects of shape discontinuities on the life expectancy of a structure or manufactured product.


CSEI - Application of finite element analysis in the design process