The abbreviation CNC stands for Computer Numerical Control. This means that the machine is being controlled by a program (typically G-code), and not an operator.

CNC Laser Cutting

Falcon Precision have one of the very best fiber laser cutters on the market today. Fiber laser cutting has revolutionised CNC metal cutting in recent years, reducing cutting times whilst improving the cutting finish across thin gauge steel.

CNC Punching

CNC punching is the process of creating a hole or shape in metal by applying a high force through a tool and die, to shear or indent. This process is repeated using a variety of custom precision made tools to make a wide range of parts. Punching is often, the most efficient way of producing sheet metal parts, though this depends on part geometry and materials. CNC Punching is most efficient when it can be used for ‘forming’, often with custom tooling. Countersinks, bridges, louvres, dimples, indents, half shears and symbol marking are extremely cost effective with this method. To learn more on CNC punching sheet metal, see our post below that covers this topic in more depth.

CNC Milling

Falcon Precision have been milling aluminium, steel and an assortment of plastic for over 15 years. This is often the most versatile CNC metal cutting technique. Capable of machining tolerances of +/-0,05mm, our CNC milling machines are often used to give a high quality finish to products. Whether its machining fine connector details on a front panel, or machining heavy duty steel, Falcon can cover a huge range of requirements. See our post from earlier in 2019 that covers our two milling machines in greater detail.

To see how Falcon can help your company’s metal cutting requirements, click the link below to contact us directly.

The post CNC Metal Cutting appeared first on Falcon Precision Sheet metal work & Machining in Hampshire.

CNC punching is the process of creating a hole or other shape in a piece of sheet metal by applying a high force through a tool and die, to shear or indent the metal. This process is repeated using a variety of custom precision made tools to make a wide range of parts. Punching is often, but not always, the most efficient way of producing sheet metal parts, though this depends on the part geometry and materials used.

The abbreviation CNC stands for Computer Numerical Control. This means that the machine is being controlled by a program (typically G-code), and not an operator. As well as having a CNC punch, Falcon also has a CNC fibre laser and CNC milling machines.

What materials can be CNC punched?

Falcon Precision can punch aluminium, steel, stainless steel, brass, copper and many others. Typically, the maximum thickness we like to punch is 3mm. Whilst we can punch thicker than this, it can dramatically reduce the life span of the tooling used.

CNC punching or laser cutting?

Both manufacturing techniques have their own strengths and weaknesses, and the process we use for your parts will depend on a variety of factors.

CNC punching strengths:

CNC punching diagram

– Generally faster run times – suits larger volumes. Up to 500 punch strokes per minute!

– More economical to produce simple forms. E.g. countersinks, louvres, dimples, thread forming, dunces, bridges, symbols, ribs, locking tabs – the list is endless!

– Can create entire parts in a single punch with custom tooling.

– Cluster tools can be used to punch large grid patterns, creating multiple holes/slots in a single punch stroke.

Laser cutting strengths:

– The space between parts on a sheet is smaller, giving a more economical sheet utilisation which can result in cheaper parts.

– Can cut a wider range of material thicknesses.

– Faster set-up times to suit smaller volumes

– Can laser etch serial numbers, product codes or revision statuses into components for trace ability.

At Falcon we believe it is essential to have both processes to offer a complete manufacturing service to customers.

Tips for CNC punching

– Hole diameters or rectangular slots should be the same gauge as the material thickness.

– Distance between holes/slots/edges should be the same as the material thickness, however we can go smaller in some circumstances if required.

– Some features are not economical to produce on a CNC punch such as convoluted curves. If your part doesn’t have any aesthetic requirements, make sure it uses straight lines and edges in its geometry so it is suitable for CNC punching.

– It can take less than 0.5 seconds to countersink a hole on a CNC punch turret compared to roughly 10-15 seconds for an operator to manually enter one on a pillar drill. To benefit from these cost

CNC punch turret

savings, make sure the rest of your part is suitable for CNC punching.

– Cluster tools can punch a number of holes in a grid at the same time, drastically reducing run times. This can be used very effectively for ventilation grilles or LED panels.

– As a CNC punch typically takes longer to set up compared to a laser cutter, consider increasing your order volumes to reduce the unit price. This will also reduce the amount of distortion in the part.

– Punch forming can produce some useful features very economically. Louvres for air vents, dimples for locating positions, bridges for slide rails or back stops can all be produced in a matter of seconds.

– If your part is smaller than 88.9mm in diameter (3.5″), we may be able to punch it in one punch stroke with custom tooling. If you are buying parts in their hundreds this is an often underused technique to help economise, however it may not be perfectly flat.

– Some customers have worked with Falcon to help create a ‘nest’ of their parts, similar to how a model of a plane would come in a box. The customer benefits from having a economical collection of parts which they can ‘break-out’ and use as required. This also works with laser cutting.

For more tips on sheet metal design, visit our latest in a series of new design pages here:

The post CNC Punching Design Tips appeared first on Falcon Precision Sheet metal work & Machining in Hampshire.

1) Minimum Bend Radius

The minimum bend radius of a part must be the same as the thickness of the material being formed. We can bend parts to a variety of radii but the minimum must be the same as the thickness of the material. Consider what is required for your design; using the minimum bend radius is considered standard for the industry but a larger radius will generally give a stronger part.

      Bend Radius Example

2) Minimum Edge Distance

Keep all holes and cut-outs at least the thickness of the material away from other edges. It is possible to go under this recommendation with some materials but this is a good starting point.

     Minimum Edge Distance Example

3) Design for Punch or Laser?

This consideration is often overlooked at the design stage and is regularly just an afterthought. Punching a part will almost always be cheaper than laser cutting, however laser cutting allows more convoluted shapes and can generally cut thinner gaps than a punch. Does your part have a lot of countersunk holes? It takes less than 0.5 seconds to countersink a hole on a punch, whilst it takes 12 seconds for a pillar drill to do the same job! Try to design for punch if that is the case by changing over to a simpler design with less curves.

Counterpunch Example

4) Design for Scan Cut

Falcon Precision are known for being specialists in fabricating boxes for the computer industry. A common design feature of this type of work is a large number of rectangular cut-outs that are often used for air vents or grills. This feature is perfect for Falcon’s Bystronic Fibre Laser ‘Scan Cut’ feature, which can cut steel parts much faster than the normal pierce cut > outline cut method used most of the time. Many of Falcons customers benefit from the reduced laser time on their parts; see the video below for a display of what scan cutting can do (seconds 0>20).

Scan Cut Example

To use this feature, parts must be made from mild steel or stainless, and must be no thicker than 1.5mm.

5) Take advantage of our In-house CNC Milling

Very often computer cases have a dozen sheet metal components, yet customers commonly only interact with the front panel. Make your products stand out from the competition by having your company logo engraved on the front face, or incorporate a small recess to perfectly house that custom connector. The ‘feel’ of the product is often what makes it, so make sure your product doesn’t fall short in this area.

CNC Milled Front Panel

For more on sheet metal design at Falcon, click on the link below.

Design & Reverse Engineering

The post Sheet Metal Design appeared first on Falcon Precision Sheet metal work & Machining in Hampshire.