Design analysis is the cornerstone of just about any research or engineering endeavor. Before one process could be replicated or mass produced, it is important to determine whether or not the idea holds up to scrutiny via a structural analysis study. Once it has proven that it could deliver on the various promised results, the product could easily be said to have reached a certain standard of reliability and design theory ideals that could easily be used to justify its future production or manufacturing.
Even if there are various disciplines that may need different approaches to dealing with the studies, the concepts that govern the system of design analysis are very similar across the board.
- The first concept that is being tested in design analysis is effectiveness. As one might guess, effectiveness is all about making sure that the product design delivers the supposed benefit or result that it promises. By carefully doing finite element analysis, it would be easy to isolate which parts of the design are integral for the actual plan to work. If there are any departures from the desired effect, certain design techniques should be employed to make sure that the process or product is fine tuned before delving into mass production.
- The next thing that has to be checked is efficiency. By making sure that the system is not just effective but also able to make the most out of the limited resources that are available to the client. Dynamic analysis should also be employed to check whether or not the changes being done on the system are really making the system better in terms of its efficiency and cost benefit returns.
- If any test is to be dependable or accurate, it has to be something that could be repeated many times under the similar circumstances. Algorithms must have specific recommendations for how many times certain tests and procedures would have to be repeated to be really sure that it truly works consistently and predictably.
Some engineers would use “fatigue” tests to optimize structural design, therefore making the end product stronger and able to withstand wear and tear. This is especially important in designs where structural strength and integrity are important in safety—for instance in automotive engineering—and particularly where load-bearing structures are put in place to ensure safety and longevity, such as in buildings.
Some fields would require analysis that would break down a structure into its minute components. For instance, steelwork can be analyzed based on the basic material used, and even the molecular patterns that make up the internal structure of the material, and whether this would result in optimal strength and durability.
Structural analysis is a good tool that could be used to ensure that designs are well tested and dependable before it is brought into the market. This is usually one means by which product designers try to determine possible stress points and weak spots in products. Once these problems are detected and caught, designers would then do tweaks and modifications such that the design is perfected even before going into production. You can find out more information about structural design analysis by enrolling in online design classes.