The paper describes the results of a research programme, carried out at the Department of Aerospace Engineering of the University of Pisa, for the assessment of the influence of plasma cutting on the physical and mechanical properties of Fe510 D1, a low carbon steel widely used in carpentry. The activity started by observing that several industries rework plasma cut edges, particularly in the case of fatigue structures, in spite of the good quality of the plasma cut edges in a fully automatic process. Obviously, reworking is very expensive and time-consuming. Comparative fatigue tests demonstrated that the fatigue resistance of plasma cut specimens in Fe510 steel was fully comparable to that of milled specimens, as the consequence of the beneficial residual stresses which formed in the plasma cut edges. [S0094-4289(00)02201-5]

1.
Harris, I. D., 1996, “Plasma Arc Cutting of Bridge Steels,” Proceedings of the International Conference on Welded Structures in Particular Welded Bridges, Budapest, 2–3 September, pp. 363–364.
2.
Gurney, T. R., 1979, Fatigue of Welded Structures, Second Edition, Cambridge University Press.
3.
Kirkpatrick
,
I.
,
1995
, “
High Definition Plasma—An Alternative to Laser Technology
,”
Sheet Metal Ind.
72
, pp.
18
19
, Sept.
4.
Harris
,
I. D.
, and
Lowery
,
J.
,
1996
, “
High Tolerance Plasma Arc Cutting
,”
Weld. World
,
37
, No.
6
, pp.
283
287
.
5.
Hoult
,
A. P.
,
Pashby
,
I. R.
, and
Chan
,
K.
,
1995
, “
Fine Plasma Cutting of Advanced Aerospace Materials
,”
J. Mater. Process. Technol.
,
48
, pp.
825
831
, Jan.
6.
Peterson, R. E., 1974, Stress Concentration Factors, John Wiley, New York.
7.
Juvinall, R. C., 1967, Stress, Strain, and Strength, McGraw-Hill, New York.
8.
Prokopenko
,
A. V.
, et al.,
1991
, “
Effect of Plasma Cutting on the Fatigue and Cracking Resistance of Steel
,”
Strength of Materials
(English translation of Problemy Prochnosti), Vol.
22
, No.
12
, Aug., pp.
1738
1740
.
You do not currently have access to this content.