Analysis of Sheet Metal Processing, Assembly, and Welding Processes

Procedura metalla folia multo communa est in productione industriae mecanicae et est componente magnus production is mecanicae. Habitur amplius applicationes in agris, quales automobilis et aerospace. Ille directe apparentiam machinae determinat et maturitatem suam reflexit. With the rapid development of the mechanical manufacturing industry, the shape of sheet metal parts has become increasingly complex. Calculatio, bending, welding, spraying and other processing processes in the development of metal materials directly determine whether sheet metal parts can have good appearance, sufficient strength and necessary accuracy. Pro hoc, accuratem calculationem magnitudinis eius, primam opus in design metallis lapides factum est, et lapides metallis bending est processione metallis multo importante. Qualitate procedentis bending directo magnitudinem et apparentiam parterum influent, particular qualitatem subsequentis ecclesiae et procedentium beneficii. This article analyzes the sheet metal unfolding calculation, bending process, welding, spraying and other processes from the perspective of technology, combined with the actual production process, and proposes solutions to the problems.

Prius initio opus fermenti, necesse est mensuras singulae partee post apertum, et positio locorum aut holarum in drawinge precisa computare. This is to solve the problem of the difference between the hole position and the overall size caused by laser cutting exceeding the tolerance. Materium externum sub momento fixationis plateae interioris metallis longitudo autem layer neutralis non mutabit inter tensionem et compressionem. Therefore, generally speaking, calculating the unfolded length of sheets metal parts is equivalent to calculating the length of the neutral layer. Longitudo metallorum lignorum est summa longitudinis rectae et longitudinis latitudinis neutral is. Longitudo latitudinis caracteriae conligata est ad typum, densitatem, et fusum materiae utilis. However, in actual processing, due to the fact that the mold and bending radius of sheets metal parts are the same, the calculation of bending radius is a simple algorithm without special requirements, and the actual size of bending radius is basically ignored. Infra 90 annos est. Metodo calculi simplificata pro partes curvatorum. The simple calculation formula is as follows: L=d1+d2-a

Among them, L is the unfolded length, and d1 and d2 are 90. When bending, the two right angles of the part are its overall size, and a is its bending compensation value. Hic algoritmus est adequatus plurimum partes metallicis ferentibus lapidibus in processione metallicis, particular quando radius ferentis inter 0,5mm et 2mm est et densitudo lapidis minus quam 2,5mm, calculus est valde conveniens.

However, in actual production and life, in most cases, the bending compensation value of sheet metal parts is unknown. At this point, it is necessary to use“ Test bending; Metodo conprehensionis pretium accipere. Operatio specific a est sicut: primum, utilis instrumentum machinae ut securet duos materiales quadraticos granditudinem aequalem a providente materiae ad testandum, tunc accurate mensura dimensiones in utraque directione, et tunc illos in directionibus paralelis et perpendicular is. Post crescendum, mensura longitudinem duorum laterum rectorum. At this point, the bending compensation value is equal to the length of two right angles and the length of the original square material, which can obtain the compensation values of the raw material in all directions.