Beyond these simple classical hand calculations in structural analysis, there are obviously many more advanced methods that dive much deeper into that area. You need to be able to do these quick back of the envelope calculations for your own sanity checks, and also for providing quick sizing of simple parts for the benefit of the designer or project engineer or management that comes to you with such simple requests. For example, if you build a detailed FEM to analyze a simple bracket, not only is it extremely inefficient but also considered as a lack of engineering judgement on your part. Want to get instant updates on the latest posts like this one and a free Ebook?Ī stress engineer's ability to perform classical hand calculations in structural analysis is one of the most important skills highly regarded in the stress engineering circles. A few exceptions to this are the use of finite element analysis for loads models (FEM models built exclusively to extract internal and external loads), crack growth analysis for failure and damage tolerance (F&DT), some detailed FEM models for fatigue analysis where simple to use stress concentration factors are not available, among others. In the stress analysis industries, especially in aerospace, classical hand calculations in structural analysis are pretty much a requirement to analyze even complex geometries. Click here to access pdf versions of the latest blog posts… Simple Beam, Classical Hand Calculations in Structural Analysis So without further delay, let us dive right into it. What does it mean? And why should you care? This post is all about this very critical skill, an essential skill set for any good stress engineer in the aerospace industry. You may have heard the term “Classical Hand Calculations in Structural Analysis”. Classical Hand Calculations in Structural Analysis
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |