Saint Ann's Sheet Metal Co Ltd


East Midlands based St Ann’s Sheet Metal manufactures a universal range of sheet metal components from sheet metals such as mild steel, stainless steel, aluminium, galvanised steel, Zintec and plated metals.

As an ISO 9002 accredited company, our commitment to superior workmanship and excellence has earned us a reputation for producing high quality, competitively priced sheet metal components that give our customers a distinct advantage.

Metal Laser Cutting

We utilise the most current and advanced metal laser cutting and profiling technology to compliment our extensive sheet metal services like CNC Bending and CNC Punching.

Founded in 1960, and operating from 660m2 state-of the-art facilities in Nottingham equipped with the latest laser cutting equipment, we are now one of the East Midlands’ leading sheet metal companies.

Metal Laser Cutting

CNC Punching Sheet Metal

CNC punching sheet metal is the best process for a cost-effective method of making components out of sheet metal and when our Fibre Laser Cutter isn’t right for the job.

CNC punching sheet metal machines have a lower capital cost than laser machines and they do not use nearly as much power. No laser machine can match up to productivity of CNC punching machines when producing a large number of similar holes or slots.

CNC Punching Sheet Metal

Specialising in CNC Punching Sheet Metal, CNC Laser Metal Cutting and CNC Bending, St. Ann's Sheet Metal are able to supply the complete sheet metal package for light to medium sheetmetal fabrication work

Click here for CNC Punching Sheet Metal
Click here for CNC Laser Metal Cutting Sheet Metal

St Ann's Sheet Metal offer highly competitive prices for:

  • CNC Punching Sheet Metal
  • CNC Metal Laser Cutting and Profiling
  • CNC Bending Service
  • Precision Machining
  • Sheetmetal Fabrication
  • Quality Powder Coating and Metal Plating
  • Hot Dip Galvanising
  • Welding - mig welding, tig welding, spotweld
  • Production Tox Jointing
  • Thread and nut inserting
  • Linishing Fettling

We serve the following industries: Electrical and Electronic engineering, Automotive and Process manufacturing, Heating and ventilating, Marketing aids.

CNC Laser profiling using the latest trumpf trumatic lasercutting machine I 2510 with integral automatic loading/unloading, CNC punching with Amada 255, CNC bending using Amada and Promicam press brakes

Product Range Selection:

  • Point of sale display components
  • Heat exchange boxes and baffles cowles
  • Ventilation industry cabinets
  • Enclosures computer industry
  • Vending and gaming machine components
  • Grills, lighting units, recess and surface mount switch boxes

St. Ann's Sheet Metal are able to satisfy customers sheetmetal fabrication needs efficiently and competitively with state of the art facilities combined with professional workmanship all at highly competitive prices.

Metal Laser Cutting

Our sheet metal laser cutting machinery provides a range of benefits to our customers:

  • In comparison with punching it gives a superior edge finish that requires no de-burring or finishing.
  • Intricate detail & marking are all possible.
  • Lasers can cut complex shapes without the need for tooling.
  • Speed is comparable or faster than other profile cutting methods.
  • Localised heat distortion is reduced.
  • A polished edge finish can be achieved on stainless steel using a nitrogen assist gas.
Metal Laser Cutting

Welding Sheet Metal

Mig Welding (Metal Inert Gas Welding) or Mag Welding (Metal Active Gas Welding) welding is the most popular of the arc welding processes, this is mainly because Mig Welding is fairly easy and versatile.

In TIG Welding (Tungsten Inert Gas Welding) the Tig Welder strikes an arc between a tungsten Tig welding electrode and the workpiece.

TOX Joining

TOX Jointing Technique
The leading clinching system with many advantages:

  • Economic - Clinching is significantly more cost efficient than spot welding
  • Reliable - Guaranteed joint strength values
  • Versatile - Clinching is usable for numerous material combinations
  • Environmentally friendly - Clinching is energy saving, clean, quiet
  • User oriented - TOX = technology + production equipment from one source

Sheet Metal Processes

The Saint Anns Sheet Metal Company manufactures a wide range of sheet metal components in many different types of materials (including colour coated):

  • Laser profiling using the latest trumpf trumatic l2510 with integral automatic loading/unloading
  • CNC punching with Amada 255
  • CNC bending using Amada and promicam press brakes
  • Welding - mig welding, tig welding and spotweld
  • Thread and nut inserting
  • Production tox jointing
  • Powder Coating
  • Metal Plating
  • Hot Dip Galvanizing
  • and more Sheet Metal Processes

Sheet metal is exceptionally versatile. It can be formed and shaped by a variety of processes, each of which can produce different shapes and sizes.


Sheet metal brackets and other engineering components can be easily punched and laser cut from well nested sheets in low to medium volume. Our CAD engineers have years of experience in nesting components to optimal effect, carefully adjusting the space between component and sheet edge. Engineering components can also be punched with holes and squares where required.


We can produce high volume blanking of components like washers, spacers, shims and general punched parts, quickly and efficiently. Using customer containers we can supply high volume parts by weight ready for production management systems such as Kanban or direct line side supply.


Our skilled engineers and machinists use Computer-Aided Manufacturing (CAM) to manufacture or prototype components. First used in 1971 for car body design and tooling, CAM enables our teams to produce sophisticated 3D models using Computer-Aided Design (CAD) technology.

Deep drawing

Deep drawing is used where the depth of a part is more than half its diameter. It is primarily used for making automotive fuel tanks, kitchen sinks, two-piece aluminium cans, etc.

Deep drawing is generally done in multiple steps called draw reductions. The greater the depth, the more reductions are required. Fewer reductions can also be achieved by heating the workpiece (for example in sink manufacture).

In many cases the process is aided by a special material that has been rolled at the steel mill in both directions. Referred to as ‘draw quality’ material, it has a more uniform grain structure and can improve deep drawing by limiting tearing.


Drawing forms sheet metal into cylindrical or box shaped parts by using a punch which presses the blank into a die cavity. The drawing process can also be utilized to create arbitrary shapes with the help of soft punch.


Our machinists use a tool to drill holes by pecking to let the swarf out. Using a special tapping tool together with the ability to control the exact rotational position of the tool with the depth of cut, it can be used to cut screw threads.

Laser Cutting

CNC laser involves moving a lens assembly carrying a beam of laser light over the surface of the metal. Oxygen or nitrogen or air is fed through the same nozzle from which the laser beam exits. The metal is heated and then burnt by the laser beam, cutting the metal sheet.

The quality of the edge can be mirror smooth, with a precision of around 0.1mm. Cutting speeds on thin (1.2mm) sheet can be as high as 25m a minute. Most laser cutting systems use a CO2 based laser source with a wavelength of around 10um. Some more recent systems use a YAG based laser with a wavelength of around 1um.


A linisher machine is used to polish flat objects. The surface of its flat revolving cloth belt is impregnated with a suitable abrasive material to achieve precisely the right finish.

Press brake forming

A press brake is used to bend long and thin sheet metal parts. The lower part of the press contains a V-shaped groove called ‘the die’. The upper part contains a punch that presses the sheet metal down into the V-shaped die, causing it to bend.

The most common method is ‘air bending’. Here the die has a sharper angle than the required bend (typically 85 degrees for a 90 degree bend) and the upper tool is precisely controlled to push the metal down so it bends through 90 degrees.

Typically, a general purpose machine has a bending force of around 25 tonnes per metre of length. The opening width of the lower die is typically 8 to 10 times the thickness of the metal to be bent (for example, 5mm material could be bent in a 40mm die). The inner radius of the bend is determined by the lower die width, not the radius of the upper tool. Typically, the inner radius is equal to 1/6th of the V-width used in the forming process.

A back gauge is usually used to position the depth of the bend along the workpiece. This is computer controlled to allow the operator to make a series of bends to a high degree of accuracy.

Simple machines control only the backstop, however more advanced machines control the position and angle of the stop, its height and the position of the two reference pegs used to locate the material. The machine also records the exact position and pressure required for each bending operation allowing the operator to achieve a perfect 90 degree bend across a variety of operations.


Sheet metal can be punched by moving the sheet between the top and bottom tools of the punch to cut a simple shape (e.g. square, circle, or hexagon). A larger area can be cut by making several hundred small square punches around the perimeter.

Punching is less flexible than a laser for cutting compound shapes, but faster for repetitive shapes (e.g. air-conditioning grille). A typical CNC punch has up to 60 tools in a ‘turret’ that can be rotated to bring any tool to the active punching position. A modern CNC punch can take 600 blows per minute. A typical component (e.g. the side of a computer case) can be cut to high precision from a blank sheet in under 15 seconds by either a punch or laser CNC machine.

Roll Forming

Roll forming (or Rollforming) is a continuous bending operation for producing open profiles or welded tubes with long lengths or in large quantities. A long strip of metal (typically coiled steel) is passed through consecutive sets of rolls, or stands, each performing an incremental part of the bend until the desired cross-section profile is obtained.

Individual metal articles, such as steel girders or wrought iron gates, can be hot-dip galvanized by a process called batch galvanizing. These days, however, hot-dipping has largely been replaced by processes like electro galvanizing which achieves a far thinner and stronger bond.

Roll-forming lines can be set up with multiple configurations to punch and cut off parts in a continuous operation. Features may be added in a hole, notch, embossment or shear form by punching in a roll-forming line and can be done before, during or after the process.

Some roll-forming lines incorporate only one of the above punch or cutoff applications while others incorporate some or all of the applications in one line.

Roll Forming Variation

Roll forming can produce a variety of cross-section profiles, each of which requires a carefully crafted set of roll-tools. The design of the rolls starts with a flower pattern, which is the sequence of profile cross-sections, one for each stand of rolls. The roll contours are then derived from the profile contours. Because of the high cost of the roll sets, simulation is often used to validate the designed rolls and optimize the forming process to minimize the number of stands and material stresses in the final product.


Spinning is used to make components like rocket motor casings, missile nose cones and satellite dishes. Axis-symmetric parts are produced by applying a work piece to a rotating mandrel with the help of rollers or rigid tools.


Sheet metal is stretched by clamping it around the edges before being stretched over a die or form block. Stretching is mainly used for the manufacture of aircraft wings, automotive door and window panels. Stretching tools are very useful such as a kindilan.

Sheet Metal Manufactured Products

  • Enclosures
  • Bespoke PC Enclosures
  • Cable Management metalwork
  • Fruit Machine parts
  • Automotive Brackets & metalwork
  • Refrigeration metalwork
  • Catering Equipment metal work
  • Transformers
  • Electrical enclosures
  • Electronic enclosures
  • Computer security enclosures
  • Computer rack enclosures
  • Audio front panels
  • Audio enclosures
  • Power supply enclosures

Capacity List

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