Contact

Structural Static Analysis costly redesigns.

Reduce Risk.
Build with Certainty.

Static analysis assesses how your structure behaves under real world loads, helping identify risks before real failures occur. Without proper analysis, components can fail under loading, leading to safety risks, downtime and costly redesigns.

View Our Services
Talk to an Engineer

< 24 hr

Response Time

Ongoing

Support

Delivered

When Promised

200+

Projects Delivered
(Combined Experience)

Common Structural Static Failures

Our static analysis services detect risks others overlook to identify where and how critical failures can occur early in the design process, helping you build more reliable structures.

Yielding Failure

When structures deform and don’t return to their original shape after the load is removed, resulting in a permanent change in geometry.

Buckling Failure

When slender structures become unstable under compressive loads, leading to sudden deformation.

Deflection Failure

When components excessively deform under load, causing functional or alignment issues despite not being permanently damaged.

Shear Failure

When forces cause parts of the material to slide past each other, effectively “cutting” the component along a plane.

Contact / Bearing Failure

When contact between components causes local deformation, leading to misalignment or reduced load transfer.

Fatigue Failure

Repeated loading causes microscopic damage to accumulate over time, leading to crack initiation and eventual failure even when stresses are below material limits.

How We Analyse Your Design

A step by step approach to assessing structural performance
Preparation
Simulation

Geometry Preparation

The model is simplified to remove unnecessary detail while preserving key structural features.

Material Definition

Material properties are defined, including strength, stiffness, and any other relevant behaviour.

Loads & Constraints

Realistic loads and boundary conditions are applied to represent real world conditions.

Meshing

The model is discretised into finite elements to enable accurate numerical analysis.

Solving

The simulation calculates stresses, strains, & displacements under the defined conditions.

Results

Post Processing

Results are reviewed to identify critical areas, performance, and potential failure points.

Interpreting Results

We provide clear engineering insights and recommendations to improve your design.

What You Get

Typical outputs from a structural static analysis, with additional deliverables tailored to your project requirements

Detailed Analysis Report

• Comprehensive report documenting methods, assumptions, and results.
• Includes model overview,
input data, boundary
conditions, and load cases.

Stress & Deflection Results

• Clear visualisation of stress distribution and displacement under applied
• loads. Verify performance against allowable limits.

Critical Area Identification

• Pinpoint critical stress concentrations and potential failure locations. • Highlights on design weaknesses and areas requiring attention.

Failure Mode Identification

Clear explanation of how and where failure is likely to occur. • Understand failure mechanisms under applied loading conditions.

Design Optimisation Recommendations

• Specific recommendations tc reduce stress and improve structural performance. • Opportunities to reduce weight and cost.

CASE STUDY HIGHLIGHT

Challenge

A mounting bracket was
failing under dynamic
loading conditions.

Solution

Performed nonlinear FEA and topology optimisation to reduce stress concentrations and weight.

Challenge

Result 20% reduction in peak stress, 18% weight saving and improved fatigue life by 2.3x.
View All Case Studies →

Ready to validate your design?

Our engineering experts build safer, stronger and more reliable structures.

Talk to an Engineer →

Get in touch with our engineering team and get the help you need

Scroll to Top