Metal Finishing Guide Book


Issue link:

Contents of this Issue


Page 447 of 843

Fig. 3. Neutral salt spray results for Cr(3) thick layer passivation of zinc and zinc alloys. coating films produced by various passivating solutions. TRIVALENT CHROMATE PASSIVATION PROPERTIES Trivalent chrome passivation films are similar to hexavalent types as far as the barrier portion of the coating is concerned in many respects; however, the absence of soluble Cr(6) compounds contributes to a range of new properties. Corrosion Resistance NSS corrosion testing data per ASTM B 117 of zinc and zinc alloy plated surfaces with Cr(6) and Cr(3) passivation are illustrated in Figs. 2 and 3. Results support the concept of thick layer trivalent chrome passivation being a viable alternative to conventional hexavalent chromate. In all cases, except for barrel plated work, its performance matches or exceeds that of hexavalent types. This is due to mechanical damage to the passivation film during bulk processing and the absence of self-healing properties. This shortcoming is overcome by the use of sealers or topcoats to protect the film. Postpassivation treatment increases corrosion resistance further, and provides the flexibility to add a range of proper- Fig. 4. Scanning electron micrograph of Cr(6) at left and Cr(3) at right. Passivation films dried at room temperature prior to heat treatment at 1,000[times]. 440

Articles in this issue

view archives of Metal Finishing Guide Book - 2013