The Future of Manufacturing Education un curso de milagros
Computer Aided Design. In reference to software, it is the means of designing and creating geometry and models that can be used in the process of product un curso de milagros. Computer Aided Manufacturing. In reference to software, it is the means of processing a designed part model, creating machine toolpath for its various components and creating an NC program that is then sent to a CNC Machine tool to be made. The purpose of CAD-CAM is to automate CNC programming and allow innovators, designers and cnc businesses to manufacture products, bringing them to market faster and more profitably than ever before. It is the concept of producing goods faster and for less.
In 2013 and beyond, thousands of students in North America alone are currently planning to enter careers in Manufacturing. From Advanced Mechanical Design, Fabrication, Aerospace Engineering and Aircraft Manufacturing to Industrial Engineering, Automotive and CNC Machining, these students will be the future of Manufacturing moving forward. They will be the innovators, the creators and architects that will design and make all of the products we use on a daily basis. As design and manufacturing technology advances, so does the look and usability of the products we buy and use. Costs are driven down and the speed in which products are brought to market increases. This means that we can buy products from dishwashers to cell phones cheaper while enjoying a broader selection to choose from.
While software providers are constantly moving forward in the development of CAD/CAM software, adding new automation and making it more intuitive than the last software revisions, you will agree that there needs to be a swiftly moving system of keeping these students on par with the cutting edge of CNC automation. Thus ensuring their survival once they land in shops and manufacturing businesses around the world.
A common challenge for CAD/CAM in Education has to do with the type of applications or even industries being taught along with the curriculum segments revolving around software as it relates to that specific industry or application. In 2008 a panel of manufacturing and business professionals were interviewed by O & P.com, an online resource for Orthotics and Prosthetics companies. The interviews focused on CAD/CAM software in education and the results were surprising. These business professionals really felt that there was a serious lack of professional training available in the area of CAD design and CAM machining technology.
Some of them had even gone so far as to provide seminars on the subject at schools and universities in an effort to get educators more involved in the subject so that there would be some support for the industry moving forward. It makes sense. Even now in 2013 there is no CAD/CAM software product that caters to the design and manufacturing of prosthetics as an example. The closest form of CAD/CAM for a specific application would be special dental prosthetic products that cater to the dental industry. But what about the rest? Software is used for CNC automation in just about every available type of application today without schools having to find custom-specific application type systems.
The solution has to be available where CAD/CAM providers work directly with the educator, teacher or school to develop curriculums that deal with specific applications in order to tune down the product and be more application focused. While many CAD/CAM providers will help, education still suffers because of budgets and the high price of implementing software for such cases.