How Computer Aided Manufacture Can Benefit Complex Design Projects
When you’re working on a product design, sometimes the most difficult thing is translating it from page to reality. Complex deigns with multiple components or intricate shapes can be easy to visualise but far more difficult to realise, as they often require highly skilled machinery or people to get the job done. For such items, complex engineering may be required in order to make your project work, and it may be worth considering a mix of manual and computer-controlled machining. By making use of modern technology such as CAD and CAM it is possible to realise even the most complex of designs.
What is CAD?
CAD stands for Computer Aided Design, and it refers to the use of computers to aid in the creation of a design, especially precision drawings or technical illustrations. Specialist software is used which allows the user create the look and the mechanisms of a product, whilst also documenting the design process. It may include detailed information pertaining to what materials are to be used to make the product, what the dimensions and tolerances are, and what processes should be employed to make it. All of this information comes in the form of a two-dimensional image of their design, or a 3D diagram, which can then be translated into a three-dimensional model through the use of automated Computer Aided Manufacture, or CAM.
How Can You Utilise CAM?
If you’re working on a project that could benefit from Computer Aided Design and Manufacture, then you can find machining services in Perth that offer both traditional and computer aided manufacture. As the equipment is very expensive, it is unrealistic to be able to own it. Therefore, professional services that hold and operate all of the machinery needed for digital manufacturing are the best choice for those looking to translate their digital designs into a finished piece.
How Does It Work?
By creating a vector image, a design can be copied in the motions of specially engineered machines which are designed to work in tune with the CAD software. These may come in the form of 3D printers on the smaller side but can go all the way up to heavy machinery that is able to handle weights of twelve tonnes.
What Is It Good For?
CAM is a very versatile manufacturing process, as it can be adapted to almost any design and any material. For complex designs with many components, each segment will need to be designed as a separate image to allow them to be made to specification. These technologies are excellent for things such as prototypes, as items can be 3D printed in a low-cost material such as plastic, in order to test their functionality before making the real thing. For many complex designs, CAD and CAM offer a solution to make tricky products that wouldn’t be possible to make by hand. Likewise, large and complex designs that would prove difficult for humans to realise can be produced with ease using heavy duty CAM machinery.
CAM provides an adaptable and cost-effective method for creating complex products and prototypes. If you’re thinking about utilising CAM for your design, look into professional machining services near you that have the equipment and expertise that you need.