The influence of copper content on intergranular corrosion of model AlMgSi(Cu) alloys

To increase magnetic storage density, it is necessary to develop recording heads using materials with optimised magnetic properties. Several works have revealed the high Bs Co 90 Fe 10 alloys (1.8 ± 2.0 T). However, coercivity of these alloys is too high and the addition of a third element such as c

## Abstract The exposure tests followed by metallographic evaluation and the electrochemical reactivation measurements in double‐loop (DL‐EPR) modification were used for investigation of the influence of non‐boiling heat transfer on initiation and rate of propagation of intergranular corrosion (IGC

The influence of temperature on pitting corrosion of copper in borat+boric acid buffer @H 9.00) +x M sodium chloride (0.0 < x c 0.5) is studied in the &5O"C range, through the change in the breakdown potential determined at a low sweep rate and the passivity current measured at a constant potential.

## Abstract In sodium chloride solutions alloy composition, phases, microstructure and grain size influence the corrosion behaviour of magnesium alloys. Concentration and distribution of the critical impurities iron, nickel and copper affect the corrosion performance strongly. Salt spray tests acc

Lattice defects were introduced in wires of a gold-7 at. y0 Cu alloy by quenching from 900°C or 450°C or by stretching 15 per cent at -195'C. The effect of annealing at temperatures up to 300°C on the electrical resistivity was investigated. For comparison the same experiments were carried out on pu