I’m trying to work on getting better at organizing.
My more complicated files, where I copy and paste stuff in, are pretty on the surface, but a horrific mess of X-Ref errors, missing shapefile links, un-used layers that I don’t know how to delete, and are generally just ‘exploded’ until everything works. The only original parts I draw are hydraulic profiles and plant flow schematics which are just a bunch of arrows and lines, it requires no AutoCAD skills at all. It mostly entails cutting and pasting layers from DWGs provided by the equipment suppliers, structural engineer, and surveyors into the same consolidated DWG with a few added notes. I draw plans for Waste Water Treatment Plants and Water Treatment Plant designs. I’m an environmental engineer, 3rd yr EIT. Structural engineer’s drawings for multi story residential propertiesĪlthough most of my work is heading to Pro-E, I do all the drawings to repair older/broken steam turbines. You can do Flood, utility analysis, and other simulations It has so much potential, but I don’t know how to Use it all. Its been great for making alignments and grading. I have recently been messing with CIVIL 3D. My company has been using Microstation and LDD for years. I have been using LDD for roadway design. Ship Design – Currently for producing general arrangements, which are like architect’s drawings of many aspects of a ship and its layout. To draw & print architectural floor plans. To be more specific, here are few answers to this question from Reddit.
So please feel free to share some of the creative ways in which you have used computer-aided design in your field of study in the comment box below. I have outlined what I believe are the most important uses of AutoCAD in today’s design society but your input on this topic will definitely be appreciated. Subsequently, designers can also use the virtual prototype for presentations when advertising or seeking for funds. With the use of its CAD interface, industrialists can design working prototypes of virtually any object as well as test its functionality during the design process.ĪutoCAD provides the tools to both design the initial prototype as well as tweak its ergonomics before the need to sink money into the actually production comes up. The goal of every manufacturing and industrial organization is to make enough money to cover the cost accrued in producing any product and AutoCAD helps reduce that cost in many ways.
So in this stead, AutoCAD serves as software for designing mechanical components, analyzing electrical and piping systems and solving design issues that may arise. And to do this while minimizing human errors, the use of a computer-aided design application is recommended.ĪutoCAD is one of the recommended design software applications because it provides professionals in these niches with unique drafting tools that can be used to bring their engineering ideas to life with the accuracy they require. The drawing of engineering components, infrastructure designs and analyzing HVAC systems plays a major role in most engineering –Civil, Mechanical, Systems and Electrical engineering- fields. This means that with AutoCAD, you can create an architectural plan, design a building and carry out specific analysis to know the capacity and strengths of the building before replicating it on a physical site. Newer versions of AutoCAD also provide architects and builders with the analytical tools needed to analyze a building’s components and troubleshoot the stress and load levels of every support structure of a virtually designed building.