Instructions for Sheet Metal Processing, Assembly, and Bending Process

Impossibile est intellegere totam proceduram deformation is partium processionis metallorum folii. When the board is bent, it mainly serves three functions: bending moment, shear force, and local pressure. Bending moment is mainly generated by the bending and deformation of sheets metal works pieces. When sheet metal processing parts deform, they are affected by external forces. Under the action of external forces, resistance will inevitably be generated inside it. At this point, external and internal forces should be equal. At this point, if the external force increases correspondingly, the internal pressure will also increase, resulting in a greater degree of bending. However, all sheets metal materials have elastic limits. Before reaching the elastic limit, the sheet metal workpiece is in an elastic deformation state. Si fortitudo externe disappearet, materia metalla ad formam suam revertetur antequam fortitudo applicatur. However, if the external force continues to increase when the sheet metal workpiece reaches its elastic limit, its plastic deformation will become prolonged. Ut est, post auferendum fortitudinem exterioris, materia metalla folia non revertetur ad originalem suam et deformationem longitudinem permanebit. Haec processus est deformatio parterum processionis metallorum quas prima discimus. When the external force is too large, the sheet metal workpiece will break due to its long-term deformation. In hoc case, sheet metal materials will lose their practical value. In manibus fermenti, alii factores poterunt influendere proceduram fermenti tabuli.

Small bending radius of sheet metal processing parts

Quando lapis metallis creverit, latus interioris anguli rotationis eius compressus est, et latus exterius propter hoc extentur. Minus angulus fermenti, maximus effectus compressionis et extensionis materiae, quando densitate artificis metallis fermenti non mutata est. When the tensile force reaches its limit, the sheet metal piece will break or fracture. Pro hoc, in designo parterum curvatorum, minor radii bending should be avoided as much as possible. Usually, sheet metal materials use larger bending radii. Si non sunt praecepta ad radium bending in operatione praeceptae, fermentum fermentum minor est quam densitate materiae metalli folii.

Distancia inter angulos foraminum metallorum partium ligaminis metallorum

Forum in quaeculo distantia a angularibus, quia si distantia inter duos nimis proxima est, materia metalla folia expandet foram dum crescere, et tunc influent utilitatem partee. Pro hoc, in design partes metallorum processionis folios, necesse est certare quod distancia inter angulum forinsecus et exterior lateris maior est quam tres vices densitatis plateae. Si distancia controlare non potest, parva caverna antequam cresceret, et postea crescere post deformationem ut conformetur requiribus.

Altitudo partes metallorum metallorum rectorum

For sheet metallic parts with a bending angle of 90 degrees, to facilitate forming and use, their height is usually greater than twice their thickness. Si altitudo minus quam duodecim est densitudo propter design aut alios necessitates, operatio bending primum exercitur, et tunc processio secundum necessitates post bending ut magnitudinem objectionis attingeretur. In partes metallis foliis cum angulis solis, primum ignora angulos dextras, primum opera bending facite, et postea opera succidere post bending ut faciat eam in angulum pulsere et faciat propositiones objectionis.