Page 5 - SMF Online-Katalog
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Your Partner for Metalforming
for complex three-dimensional shapes for various three-dimensional products for round varieties of shapes resource-saving – quick – tubular
forming process deep-drawing forming process hydroforming forming process spinning forming process flow forming
shear forming
Product for Product for Product for Product for
medical aerospace industry sanitary industry petrochemical
technology industry
Product for
pressure vessels
Product for
space technology
Product for Product for Product for Product for Product for
railway industry medical technology railway industry railway industry medical technology Product for aviation industry
Deep-drawing is a manufacturing process in which a cut to In comparison to conventional processes the shaping options Spinning is an innovative forming technology for the Flow forming is an innovative forming technology of
size even plate is placed into a tooling and is pressed into are significantly extended with hydroforming. The inventive production of seamless sheet metal parts. seamless, tubular components.
a new form. contrast to conventional technologies is the fluid forming It is performed on machines which are built similar to lathes. Thus a long thin-walled tube, which is being characterized by
instead of the use of a punch. Instead of a chuck the spinning tool is fixed. In place of a an improved surface and a very high precision is being
Advantages are i. a. constant reproducible production quality,
cutter a spinning roll is installed. produced of a short thick-walled tube.
after approval short processing times and nearly constant wall Advantages are i. a. short development and delivery times
thickness. from CAD-model up to the first sample, constant reproducible Advantages in comparison to conventional methods i. a. Advantages in comparison to conventional methods i. a. are
production quality, excellent surface qualities due to unilateral are extremely well inner surfaces, high dimensional extremely well inner surfaces, an optimal grain structure and
Processible materials i. a.: stainless steels,
tooling contact and a constant wall thickness progression accuracy grades of parts, an optimal grain structure and the manufacturing of parts with integrated flange.
e.g. 304 / 316 /..., aluminium and aluminium alloys,
over the cross section of the part. the possibility of conical / weaned wall thicknesses. A very high diameter-to-length ratio is possible as well as
steel sheets, heat-treatable steels and other materials. significantly enhanced mechanical properties.
Processible materials i. a.:
Processible materials i. a.: stainless steels,
304 / 316 /... steel sheets, nickel and nickel alloys, Processible materials i. a.:
deep-drawing parts up to 4.500 x 2.500 mm e.g. 304 / 316 /... , aluminium and aluminium alloys, tantalum, zircon, niobium and other materials. 304 / 316 / 310 /... , 15-5PH, 17-4PH, steel sheets, nickel
draft depth up to 600 mm steel sheets, fine grained steels and other materials.
pressure force up to 2.500 t and nickel alloys, titanium and titanium alloys, tantalum,
zircon, niobium and other materials.
round hollow bodies up to 5.000 mm diameter
table dimension up to 1.300 x 2.000 mm
draft depth up to 600 mm wall thickness up to 30 mm
round hollow bodies Ø 25 – 650 mm
lenghts up to 6.500 mm · wall thickness 0,15 – 20 mm