Abstract: The invention relates to a process to manufacture a clad strip, preferably <1.5 mm thick, intended for the manufacture of brazed heat exchangers, comprising: casting a plate of core alloy comprising (% by weight): Si<0.8, Fe<0.8, Cu 0.2-0.9, Mn 0.7-1.5, Mg<0.4, Zn<0.2, Ti<0.1, other elements <0.05 each and <0.15 in total, the remainder aluminum, homogenizing the plate between 550 and 630° C. for at least one hour, cladding one or two sides of the plate with a brazing aluminum alloy, preferentially containing 5 to 13% silicon, hot rolling followed by cold rolling of the plate to a thickness close to a final desired thickness, recrystallization annealing of the strip between 300 and 4000 C., strain hardening of the annealed strip to obtain a permanent deformation between 2 and 10% and to obtain the desired final thickness.

Abstract: The invention relates to a process to manufacture a clad strip, <1.5 mm thick, intended for the manufacture of brazed heat exchangers, comprising: casting of a plate made of core alloy composed as follows (o by weight): Si<0.8 Fe<0.8 Cu: 0.2-0.9 Mn: 0.7-1.5 Mg<0.4 Zn<0.2 Ti<0.1 other elements <0.05 each and <0.15 in total, the remainder aluminum, homogenization of said plate between 550 and 630° C. for at least one hour, cladding on one or two sides of said blank of a brazing aluminum alloy, preferentially containing 5 to 13% silicon, hot rolling followed by cold rolling of the plated blank to a thickness close to the final thickness, recrystallization annealing of the strip between 300 and 4000C., strain hardening of the annealed strip to obtain a permanent deformation between 2 and 10% and the final thickness.

Abstract: The invention relates to a process to manufacture a clad strip, preferably <1.

Abstract: Strip or drawn tube for the manufacture of a brazed heat exchanger, formed from an aluminum alloy containing Si, Cu and Mn, with optional amounts of Mg, Fe, Zn and Ti, where Fe≦Si, and Cu+Mg>0.4. In the form of a strip, the alloy may be coated on one or both surfaces with an aluminum brazing alloy.

Abstract: The invention relates to a process to manufacture a clad strip, <1.

Abstract: This invention relates to a process for identifying the external surface or surfaces of an Al alloy of a homogeneous or composite material by electrochemical means. This method involves forming an anodic layer, in situ, on the products to be identified, by electrolysis under predetermined conditions and following or plotting the development of the voltage U at the terminals of the electrolyzer as a function of time t during an intentiostatic test. The shape and relative position of curves U=f(t), thus obtained, allows the various alloys tested to be identified from a comparison of the derived curve from a curve U=f(t) derived from a known sample. The present method has advantages over the earlier methods of marking in that it provides: non-destructive method employable in situ on products which may have large dimensions (coils, plates, sheets, etc.); almost instantaneous identification; high reliability; and is simple and economic to use.

Abstract: A method for the production of a composite hollow body formed of aluminum alloys and composed of two layers having differing structure. One layer of the hollow body is intended to operate in contact with a mobile surface and is produced by extruding a mixture of particles of a hypereutectic silicon alloy having fine grains and an addition product. The other layer is selected from among alloys having certain particular properties and has the structure of a cast and wrought product. The present method particularly consists of the step of joining the two layers by coextrusion on a mandrel in an inverse extrusion press. The composite hollow bodies so produced are used in the production of linings for internal combustion engines or for jacks.