Structural Stress Analysis – How Is It Important?
Posted by: Nikunj Patel | Posted on: February 13th, 2014
This Structural Stress Analysis Method offers Numerous Benefits and Features for Architects, Builders, Contractors, Engineers, and Others as well.
Such testing methods depend upon mechanical stress calculation besides calculation of related deformations and strains. It mostly consists of the final leg of complex multi-field analysis related to electromechanical devices. Based on failure analysis and fatigue assessment process stress analysis provides a counterfoil for structural analysis in many ways.
To which industries does structural stress analysis cater?
An expansive range of industrial scenarios including aerospace, construction, manufacturing, healthcare, automobile, marine, gas and oil, and railways can benefit from stress analysis. Automated processes nowadays ensure accuracy of results and appropriate determination allowing the best decision-making. Calculations related to stress analysis help determine the levels of strain and stress levels related to industrial structures, subsea components, aerospace, and nuclear components. Different software available nowadays ensures both authenticity and efficient results, quickly.
Which are the different features?
Structural stress analysis modules generally contain the following.
- Rigorous & Dispersed Loading
- Plane Strain & Stress
- Electrical & Magnetic Forces
- Thermal Stresses
- Anisotropic Stretch Property
What is the objective?
The main aim of structural stress analysis is to decide whether elements or their assortment known as the structure will behave as expected upon loading. A wide variety of techniques are used for the process in order to gain accurate results. This includes numerical traditional techniques, computational simulation, modern testing techniques, or their combination. The quantities measured are in gigapascals, megapascals, pounds per square inch, K pounds-force per square inch.
Which are the methods of analysis?
The primary part of structural stress analysis contains load nature fixing. Which are the different kinds of loads acting on specific structures? Determining such factors as amalgamation, torsion, tension, trim, density, and winding of loads is extremely important. Analysis process involving the determination of stress related to specific load cyclic conditions is known as fatigue analysis. It is important for finding out stress levels related to the structural aerodynamic system.
Why using software makes sense?
When it comes to successful structural stress analysis, one cannot deny the importance of computing software in the process. It helps to streamline the process and save loads of time. Since stress analysis nowadays occurs on a virtual plane, it minimizes the chance of making errors and accuracy levels increase naturally. In different industries, this signifies meeting the regulations, elimination of extensive research and costly alterations, besides getting tailor made solutions in keeping with specific needs.
As one can see from above, structural stress analysis is a vital step related to manufacturing, building, and construction because it ensures the feasibility of the whole structure. There is never any product failure because errors become fewer. You can get solutions in keeping with specific budgets and do exact calculations related to load distribution, strain, and deflection. What more could you expect from such high-quality solutions?
About Author: Nikunj Patel is a design engineer working with Hi-Tech Engineering for the past 4 years. He loves designing specialized industrial equipments and can always be found in the lab discussing, brainstorming & tweaking designs. He has also worked on architectural projects taking interest in every aspect of design & analysis.