Metallurgical and optical engineering plant in Argentina. Send specifications, simulate cutting paths, and request volume manufacturing with tolerances below 0.01 mm.
Send your part specifications and receive a cutting simulation with parameters optimized for your material and volume.
Request simulationDirect answers about processes, materials, and lead times in precision B2B manufacturing.
We work with carbon steels up to 25 mm, stainless steels up to 20 mm, and aluminum up to 15 mm. For titanium alloys and superalloys, the limit depends on the composition; we perform a free preliminary simulation to validate the exact thickness.
For series of 500 to 5000 parts, the typical lead time is 10 to 18 business days, including simulation, cutting, and dimensional inspection. Urgent orders can be expedited to 5 days with a logistics surcharge. The exact time is defined upon submitting the technical specifications.
Standard tolerance of ±0.05 mm on contours and ±0.02 mm on precision holes. For aerospace components, we certify ±0.01 mm with verification by coordinate measuring machine. Each batch includes a quality report with the measured values.
Yes. You upload the CAD file or specifications to our B2B platform, and we generate a thermo-mechanical simulation with results on deformation, heat-affected zones, and estimated cutting time. The simulation is free for registered customers and does not obligate you to purchase.
We accept STEP, IGES, DXF, DWG, and 2D PDF with dimensions. For complex geometries, we recommend STEP or IGES. If the file exceeds 50 MB, we use a secure transfer link. We do not work with images or STL files without prior conversion.
Yes, we offer deburring, shot blasting, passivation, and anti-corrosion coatings. We also perform laser marking of codes and batch numbers. Each treatment is quoted separately based on the material and quantity of parts. Check availability for special alloys.
Technical differences that matter in precision industrial manufacturing.
Tolerances below 0.01 mm in high-strength steels and titanium alloys. Each part is verified with inline machine vision systems, not by sampling.
We thermally and mechanically model each path before the first shot. 18% scrap reduction and 40% fewer trial-and-error iterations in aerospace components.
From technical specification to delivery, each batch has a digital record of cutting parameters, inspection, and material certification. No paper sheets.