Rapid prototyping is the automatic construction of physical objects with 3D printers, stereolithography machines, selective laser sintering systems, and other techniques, including:
Rapid prototyping is the automatic construction of physical objects with 3D printers, stereolithography machines, selective laser sintering systems, and other techniques, including:
Rapid prototyping is the automatic construction of physical objects with 3D printers, stereolithography machines, selective laser sintering systems, and other techniques, including:
CNC and SLS/SLA are fast for the first part (normally taking about a week) but it then takes the same time to make each subsequent part, so for 16 parts this takes a relatively long time, and costs a lot. For an injection mould tool, it may take 2 or 3 weeks to make a tool, but then all parts can be molded in an hour or so, and the parts are much cheaper.
CNC machine tools offer improved automation. The operator intervention related to producing workpieces can be reduced or eliminated, as many CNC machines can run unattended during their entire machining cycle, freeing the operator to do other tasks.
A second major benefit of CNC technology is consistent and accurate workpieces. Today’s CNC machines boast almost unbelievable accuracy and repeatability specifications. This means that once a program is verified, two, ten, or one thousand identical workpieces can be easily produced with precision and consistency.
A third benefit is flexibility. Since these machines are run from programs, running a different workpiece is almost as easy as loading a different program. Once a program has been verified and executed for one production run, it can be easily recalled the next time the workpiece is to be run. This leads to yet another benefit, fast change-overs. Since these machines are very easy to setup and run, and since programs can be easily loaded, they allow very short setup time.