You expect bends to match your CAD model, your tolerances, and your assembly requirements. meviy makes that expectation realistic. Upload your 3D CAD model and get instant validation of bend feasibility, angles, radii, and interference, all checked against real production rules. Fewer revisions. Fewer delays. More confidence before you order.
Automated bending checks, built into every quote.
Bend angle tolerances are applied based on plate thickness and bending method. For standard bending, plates up to 10 mm follow tighter angle tolerances than thicker material, while feed bending (FR bending) uses clearly defined reference values. This helps parts align correctly in real assemblies.
meviy performs interference analysis against the bending die before production. If C-bends, stepped bends (Z-bends), nuts, or surrounding geometry collide during forming, the issue is flagged instantly in the 3D viewer.
C-bends, Z-bends, and R-bends are evaluated against minimum bending heights, clearances, and die constraints. Feasibility is determined by analysis results, not assumptions, giving you confidence when designing compact or multi-bend parts.
Upload your 3D CAD model and see bending feasibility, interference warnings, and design guidance immediately. After adjustments, you can re-upload and re-quote in minutes, keeping iteration fast and controlled.
Feed bending (FR bending) may leave die marks and protrusions of up to around 15% of the plate thickness on each side. meviy makes these effects visible upfront, so surface appearance is never a surprise after delivery.
The platform checks minimum distances between cut-outs and bend lines, verifies the presence of edges parallel to the bend line for backgauge stability, and confirms whether bending can be performed without dimensional shift.
Bending is supported across steel, stainless steel, aluminium, and perforated metal. Typical thickness ranges run from below 1 mm up to around 3 mm, depending on material and finish, with automatic size limits applied based on surface treatment and bend geometry.
For parts with mountable nuts, meviy reproduces the nut geometry during bending analysis. If interference with the die occurs, the platform identifies it before the part is manufactured.
If you require bending without visible stamp marks or need special handling, you can request a manual quotation directly from the 3D viewer.
meviy supports sheet metal bending across a wide range of materials, thicknesses, and part sizes. All limits reflect real manufacturing conditions, not theoretical values.
Steel bending supports low-carbon grades with common surface treatments. Typical thicknesses range from below 1 mm to just over 3 mm. Maximum part size depends on thickness and finish. Surface options include zinc plating, black oxide, chromate treatments, powder coating, and painting. Feed bending surface effects are clearly indicated during quoting.
Stainless steel bending supports standard and polished finishes for both functional and visible parts. Thicknesses typically range from under 1 mm to above 2 mm, depending on grade and finish. Size limits adjust automatically to ensure stable and accurate bending.
Aluminium bending supports lightweight designs with thicknesses from under 1 mm up to 3 mm. Clear, black, and matt anodised finishes are available, along with chromate passivation. Pre-finished anodised plates are supported, with clear visibility of where bending may affect the surface.
Perforated stainless steel sheets can be bent with defined hole sizes and pitches. meviy automatically checks stiffness and feasibility based on perforation pattern and thickness.
Thickness tolerances and maximum dimensions depend on material, finish, and bend geometry. meviy applies these limits automatically during quotation and flags unsafe designs instantly.
Bend angle tolerances are determined by material thickness and the selected bending method and are automatically applied during the quotation process.
meviy automatically detects die and nut interference. You see exactly where the issue occurs and can revise the design before re-uploading.
Yes. C-bends and Z-bends are supported as long as minimum bending heights and clearances are met. Feasibility is confirmed through interference analysis.
Some methods may leave die marks or minor protrusions, especially with feed bending. meviy makes this visible upfront so you can choose standard processing or request a manual quotation.