The optimization of conversion coatings on stainless steel in nitric acid s
olution is obtained using statistical experimental designs. These conversio
n coatings must present strong interfacial adhesion and must be very porous
, in order to allow the deposit and the anchoring of the electrolytic ceram
ic layer. An electrochemical method was used to estimate the specific area
of the coating. The influence of all elaboration factors (temperature, time
and bath composition: acid, accelerators, inhibitors) and the interactions
between these factors were evaluated, using 2(5-1) and 2(4-1) fractional f
actorial design. Doehlert uniform shell design was used in order to optimiz
e the conversion coating. The most important factors were nitric acid and t
hiosulphate concentrations. With such optimized conditions, the real surfac
e area obtained was about 100 m(2)m(-2). This conversion coating modified b
y ceramic deposits leads to the formation of a coat characterized by strong
interfacial adhesion with the steel and by an efficient thermal barrier ch
aracter. A discussion of the use of experimental designs for the optimizati
on of conversion coating processes is also given. (C) 1998 Elsevier Science
S.A. All rights reserved.