STRUCTURAL & STRESS ANALYSIS

As one of the leading Australian Design and Drafting service providers, we have an excellent track record in delivering the best quality structural stress analysis services with a quick turnaround time. Our highly skilled engineers offer design and drafting services using the best design process. We hire experienced project managers with years of experience designing AutoCAD 3D drawings and working with detail-oriented design projects. We help customers optimize product design, including safety factors and exploring safe design space.

At ASTCAD, we understand Structural Engineering Services, and our skilled team knows how to determine the cause of and predict the failure of a structure. We follow industry innovation and standards, are well-trained engineers, and have extensive domain experience. We undertake preliminary, conceptual, and detailed design projects in Structural Engineering Design and analysis. We endeavour to maintain international standards in quality, and our structural engineering team strives to reduce product design cycle time and ensure cost-effectiveness.

No project is too small or big for our team as we offer services for the smallest part of any project, and one can bring us at any stage of their project.

ASTCAD’S STRUCTURAL ENGINEERING DESIGN METHODOLOGY

• Our professional engineers industry-experienced and drafters provide efficient structural stress analysis services.
• To ensure quality results, we have an excellent team of engineers and drafters who work closely with your team.
• If needed, our engineers can quickly adapt your structural stress analysis approach to confirm the structural standards are well maintained.
• We give clear communication plans and standards for designs developed by our team in coordination.
• We have a team of engineers who ensure quality project results.
• We deliver high-quality results that include an entire set of 2d drawings or 3d drawings with structural details, sectional views, layout plans, elevations, and legends, or can be customized as per your requirements.
• We provide the easy-to-access graphical output and other information with details of the project in a drawing format such as AutoCAD, etc.

Why hire Australian design and drafting for structural stress analysis services?

We have a qualified team who use comprehensive structural analysis with performing relevant code and standards. We can deliver a full range of 2d or 3d drawing formats, using the most current releases of AutoCAD, Archicad, adt, Micro-station and staad. Our cad drawings output is usually in dwg format and dgn format when using MicroStation. Furthermore, we can use the latest cutting-edge software such as ram, robot, pro-steel, s frame, & x-steel.

Get the maximum advantage with our customized project process that meets your requirements.

Our expert team of engineers and drafters have a decade of experience and enables us to deliver industry-specific structural stress analysis services with the best outcome. We are equipped with state-of-the-art infrastructure and cutting-edge technology, including sufficient bandwidth, which is compatible with the requirements.

Structural & Stress Analysis for industries.

Structural and stress analysis is a crucial aspect of engineering in various industries. It involves evaluating the structural integrity and performance of components, systems, or structures under different loads and conditions. Here’s an overview of structural and stress analysis in industries:

1. Load Analysis: Determine the external loads that act on the structure or component during operation, such as static loads, dynamic loads, thermal loads, or fluid forces. Analyze the magnitude, direction, and distribution of these loads.
2. Finite Element Analysis (FEA): Use computational methods, specifically FEA, to simulate and analyze the behaviour of structures under different load conditions. FEA divides the structure into smaller elements, allowing for a detailed analysis of stresses, strains, and deformations.
3. Material Properties: Understand the mechanical properties of the materials used in the structure, such as strength, elasticity, thermal expansion, and fatigue resistance. Accurate material properties are essential for accurate stress analysis.
4. Static Analysis: Assess the structural response to steady-state loads without considering time-dependent effects. Static analysis helps determine the structure’s stresses, deformations, and displacements under normal operating conditions.
5. Dynamic Analysis: Evaluate the behaviour of the structure under time-varying loads or dynamic forces, such as vibrations, impact loads, or rotating machinery. Dynamic analysis helps identify resonant frequencies, mode shapes, and potential vibration-related issues.
6. Fatigue Analysis: Analyze the effects of cyclic loading on the structure’s fatigue life. Fatigue analysis helps predict and prevent failures due to repetitive loading over time, ensuring that the structure can withstand the expected operational lifespan.
7. Buckling Analysis: Assess the stability of slender structures under compressive loads. Buckling analysis helps determine the critical load at which the structure may buckle or deform uncontrollably, leading to failure.
8. Failure Analysis: Investigate the causes of structural failures or anomalies. Failure analysis involves examining the structure, evaluating the stress and strain distribution, identifying failure mechanisms (e.g., fracture, fatigue, or creep), and proposing corrective measures.
9. Optimization: Utilize analysis results to optimize the structure’s design by reducing weight, improving performance, or enhancing structural efficiency. Optimization techniques aim to find the best combination of design parameters while satisfying performance requirements and constraints.
10. Design Validation and Verification: Use structural analysis to validate the design against industry standards, codes, and regulations. Verification ensures that the structure meets safety, reliability, and performance criteria.
11. Documentation and Reporting: Prepare comprehensive reports documenting the analysis methodology, assumptions, results, and recommendations. Clear documentation enables effective communication among stakeholders and facilitates decision-making.

Structural and stress analysis in industries helps ensure structures and components’ safety, reliability, and performance. By simulating real-world operating conditions, engineers can identify potential issues, optimize designs, and make informed decisions to deliver robust and efficient products.