Nesting (process)
In manufacturing industry, Nesting refers to the process of laying out cutting patterns to minimize the raw material waste. Examples include manufacturing parts from flat raw material such as sheet metal.
Process
To minimize the amount of scrap raw material produced during cutting, companies use proprietary nesting software. The software analyses the parts (shapes) to be produced at a particular time. Using algorithms, it then determines how to lay these parts out in such a way as to produce the required quantities of parts, while minimizing the amount of raw material wasted. Off-the-shelf nesting software packages address the optimization needs. While some cater only to rectangular nesting, others offer profile or shape nesting where the parts required can be any odd shape. These irregular parts can be created using popular computer-aided design (CAD) tools. Most of the profile nesting software can read IGES or DXF profile files automatically, a few of them work with built-in converters. An important consideration in shape nesting is to verify that the software in question actually performs true profile nesting and not just block nesting. In block nesting an imaginary rectangle is drawn around the shape and then the rectangles are laid side-by side which actually is not profile nesting. There remains scope for waste reduction.
Nesting software must take into account the limitations and features of the machining technology in use, such as:
- Machining cannot take place where the raw material is clamped into place;
- Some machines can access only half of the material at a particular time; the machine automatically flips the sheet over to allow the remaining half to be accessed;
- When punching, the width of the punch tool must be considered;
- Shearing may be permitted only in certain areas of the sheet due to limitations of the machinery;
Nesting software may also have to take into account material characteristics, such as: [1][2]
- Defects on material that must be discarded;
- Different quality areas that must match corresponding quality levels required for different parts;
- Direction constraints, that may come from a printed pattern or from fiber direction;
Many machine manufacturers offer their own custom nesting software designed to offer ease of use and take full advantage of the features of their specific machines.
If a fabricator operates machines from more than one vendor, they may prefer to use an off-the-shelf nesting package from a third-party vendor. They then have the potential to run jobs on any available machine, and their staff should not have to learn several different software packages.
See also
Material may be cut using off-line blanking dies, lasers, plasma, punches, shear blades, ultrasonic knives and water jet cutters.