Allweld’s cutting facility combines advanced CNC technology with experienced operators to deliver precise, efficient cutting across a wide range of materials and thicknesses. Our equipment includes CNC laser cutting, 5-axis CNC waterjet cutting, plasma cutting and a CNC deburring machine to deliver clean, accurate parts ready for the next stage of production.
We can cut mild steel, stainless steel, aluminium, copper, brass, plastics, acrylic and timber to thicknesses up to 200mm, with a maximum bed size of 4m x 2m and a cutting tolerance of 0.05mm. Our CNC router and robotic systems further extend our cutting and processing capability for complex or high-volume work.
Whether you need one-off components or production runs, our cutting team delivers consistent quality and fast turnaround as part of your broader fabrication project or as a standalone cutting service.
We confirm your material, thickness, quantity and required tolerance before programming begins.
Your parts are programmed using our CAM software to optimise cut paths, material usage and accuracy.
Parts are cut on the appropriate machine — laser, waterjet, plasma or router — depending on material and specification.
Cut parts are deburred and inspected to confirm they meet the required tolerance and specification.
Parts are delivered to you or passed directly to the next stage of your fabrication project.
We cut mild steel, stainless steel, aluminium, copper, brass, plastics, acrylic and timber. If you have a specific material requirement, get in touch and we’ll confirm whether we can accommodate it.
We can cut mild steel, stainless steel and aluminium up to 200mm thick, across a maximum bed size of 4m x 2m.
Our CNC cutting equipment achieves a tolerance of 0.05mm, making it suitable for precision components and tight-fit assemblies.
We handle both one-off parts and production runs. Whether you need a single prototype component or a high-volume batch, we can accommodate your requirements.
Our 5-axis waterjet cutter cuts complex profiles and bevelled edges without heat distortion, making it ideal for precision parts in materials sensitive to high-heat cutting methods.
