Full text: Fortschritte in der Metallographie

r, shallower [12] H. K. D. H. Bhadeshia, S. A. David, J. M. Vitek, Mat. Sci. and Tech., 7 (1991)1, 50-61. 
subsequent [13] A. J. Sedriks, Corrosion, 45 (1989)6, 510-518. 
[14] J. C. Lippold, W. F. Savage, Weld. J., 59 (1980)2, 48-s - 58-s. 
[15] S. A. David, Weld. J., 60 (1981)4, 63-s - 71-s. 
[16] R. M. Bootby, Mat. Sci. and Tech., 2 (1986)1, 78-87. 
[17] R. Fenn, C. J. Newton, Mat. Sci. and Tech., 2(1986)2, 181-188. 
[18] U. Kamachi Mudali, A. K. Bhaduri, J. B. Guanamoorthy, Mat. Sci. and Tech., 6(1990)5, 475. 
cooling rate [19] S. J. Pawel, E. E Stansbury, C. D. Lundin, Corrosion, 45 (1989)2, 125-133. 
c to cellular [20] R. Sriram, D. Tromans, Corrosion, 45 (1989)10, 804-810. 
e structure [21] N. Sridhar, J. Kolts, Corrosion-NACE, 43(1987)11,646-651. 
re becomes [22] G. Radenkovic, S. K. Zecevic, Z. Cvijovic, D. M. Drazic, J. Serb. Chem. Soc., in press 
r, while the [23] S. C. Srivastava, M. B. Ives, Corrosion, 45 (1989)6, 488-493. 
resistance. 
reases and 
ed alloy is 
The pit size 
cooling rate. 
1. 
Prakt. Met. Sonderbd. 26 (1995) 307
	        
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