For mechanical engineers, the core of their functioning involves designing mechanical objects, pertaining to motor, engine gears or complete instruments that meets the functional criteria in an efficient manner. For these engineers, design software and programs like AutoCAD becomes highly significant to create groundwork designs and identify production related errors.
AutoCAD in mechanical engineering & design
Mechanical designers, engineers and technicians go through a comprehensive
AutoCAD mechanical training to learn the functioning of the comprehensive AutoCAD (Computer Aided Design ) program, which helps them to develop 3-D models of their devices, detailing the dimensions and functions of the parts.
Below, we look at 5 significant reasons this design software helps mechanical engineers develop efficient models whilst saving time and money in comparison to traditional prototyping:
1. Design Production
AutoCAD helps the engineers to sketch and create ideas, to determine the best possible solution for their requirement. Rather than designing new blueprints for each part, the designers can implement simplified redesign process.
2. Testing and troubleshooting
With this software, the engineers can easily locate errors, flaws & discrepancies in the design process, along with identifying the malfunctioning source, thus developing an efficient and robust model. Instead of physically testing each design iteration, the testing process becomes easy and quick.
3. Reduced design times and design costs
Physical prototyping is a lengthy process, which can be reduced significantly with quick prototype testing process, enabled by AutoCAD, resulting in enhanced results. As there are is need of physical materials or workshop space for the design process and testing, the costing automatically reduces. In the longer run, the price of the software is way less than the use of physical materials.
4. Quality Assurance
The software also allows accurate assessment of a prototype’s performance over a longer period by simulating a variety of environments. This helps to develop handy specifications and deliver efficient and required model.
5. Integration and communication
The digital format allows multiple users to work and make changes to the design from their own systems, thus developing overall communication and collaboration.
In order to become highly efficient in the process and implement high level design process, mechanical designers and engineers should develop their conceptual and practical knowledge of the software through quality and comprehensive
CAD/CAM courses.