CAM uses software for translating data and drawings into detailed instructions. 2D digital drawings are used for guiding a physical or laser cutting tool for cutting cladding and other components so that they fit the architect’s design. A simpler and broader definition of CAM is that it is a manufacturing process, which utilizes computer software to assist, facilitate, or automate the manufacturing process. Once you avail of our Computer-aided Manufacturing case study assignment help, you will get a clear understanding of the subject and you will overcome all your queries and doubts.
How is CAM Used in the Construction Industry?
CAM is used onsite all across the globe though it is not a commonplace. It is widely divided into two types: additive and reductive. The uses are discussed in our Computer-Aided Manufacturing assignment help firm.
The reductive process includes getting rid of materials and it includes the earlier examples to guide cutting tools to cut a cladding section. These shaping and cutting processes are used commonly in CAM. The sheet metal laser cutting has become more common. Computer numerical control or CNC routing utilizes a spinning part for carving materials to desired shapes. Water and laser cutting are used on thin pieces and panels.
Additive processes include adding materials. They are less common presently, however, with the arrival of 3D printers this has become an interesting area. Walls and structures are being printed and robotics are opening up new areas. Saws and robot bricklayers have been trialed and even deployed on many construction sites. Students can ask their queries like, "do my homework for me on Computer-Aided Manufacturing," from us anytime.
Another area that has huge CAM potential is modular construction. The building is assembled from prefabricating offsite parts in manufacturing plants before they are transported to a construction site for assembly. Modular construction is available in Germany though not popular in the USA and the UK. CAM technology advances can enhance greatly efficiencies of modular buildings and can improve and speed up its accuracy.
Benefits of CAM
CAM has multiple benefits while creating components that are used in the construction of buildings. In comparison to manually operated machines, it offers the advantages that are highlighted in our online help with assignment on Computer-Aided Manufacturing.
- Higher speed to produce components
- Greater efficiency because computer-controlled machines are free from breaks
- Greater consistency and accuracy with every finished product or component the same
- Greater sophistication is related to following complicated patterns such as tracking the circuit boards.
CAM has delivered several improvements in manufacturing processes such as improved machine capabilities, improved material usage, and improved machine efficiency.
CAM and CAD Processes
There cannot be CAD without CAM. CAD focuses to design a part or a product, the way it looks and the way it functions. You can design an elegant part in a CAD tool, however, if you cannot make it efficient with a CAM system, it is of no use. In CAD every design is known as a model and it contains physical properties used by CAM systems.