Results 191 to 200 of about 6,365 (225)

Structure and properties of low-pearlite steel

Metal Science and Heat Treatment, 1977
1. In terms of increasing stability of austenite the steels investigated can be arranged in the following order: 08G2S; 08G2S+0.03% V; 08G2S+0.05% Nb; 08G2S+0.02% Nb+0.03% V. 2. The increase in the strength of steels 08G2S, 08G2SB, and 08G2SF and the increase of their cold resistance when the final rolling temperature is lowered to 700 ...
Yu. I. Matrosov, A. G. Nasibov, N. I. Karchevskaya, E. A. Demin   +3 more
openaire   +1 more source

Divergent pearlite in a manganese eutectoid steel

Acta Metallurgica, 1963
Abstract An unusual structural feature, diverging lamellae, has provided new insight to the influence of composition on transformations in steel. Samples from a high-purity ternary alloy of iron containing 5.2 per cent manganese and 0.6 per cent carbon were austenitized, isothermally transformed within the temperature range 500°–675°C, and quenched ...
John W Cahn, W.G Hagel
openaire   +1 more source

A Ferritic-Pearlitic Steel with Eutectoid Composition

1993
By alloy design based on demands for formability and high martensitic hardness, a new high-carbon, low-alloy steel has been developed. The steel, which minimizes the use of all elements except carbon and molybdenum, exhibits a microstructure and properties normally not attained in high-carbon steels.
I-M Andersson-Drugge, T Lund
openaire   +1 more source

Quasistatic and Dynamic Fracture of Pearlitic Steel

2008
The processes of cleavage crack initiation and characteristic features of fracture surfaces in pearlitic hypo-eutectoid steel (the chemical composition is given in Table 1) have been investigated using Charpy impact specimens and CT specimens for fracture toughness KIc assessment.
B. Strnadel, P. Hausild, M. Karlik
openaire   +1 more source

High temperature properties of pearlitic tube steel

Metal Science and Heat Treatment of Metals, 1959
1. The hot strength of the Cr-Mo-V steel under investigation depends greatly on the heat treatment conditions. For the available composition the optimum treatment was normalizing at 1030–1050°C (1885–1920°F) and tempering for not less than 5 hours at 700–720°C (1290–1320°F). 2.
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Understanding of tribomutation in ferritic / pearlitic steel

2019
Ferritic/pearlitic steels show a complex response to tribological stressing due to their different mechanical properties. In this work, different analysis methods are combined in order to achieve a better understanding of such processes. Especially the phase-information by optical microscopy combined with the strain information by electron backscatter ...
openaire   +1 more source

Pearlitic Steels: Wire Drawing

2016
Satyam S. Sahay, B.P. Gautham
openaire   +1 more source

Effects of inclusion size and stress ratio on the very-high-cycle fatigue behavior of pearlitic steel

International Journal of Fatigue, 2021
Tao Cong, Guian Qian, Xiangnan Pan
exaly  

Grain Boundary Relaxation in Pearlitic Steels

physica status solidi (a), 1998
Y. Ososkov, R. Akid
openaire   +1 more source

Isoscleric tempering conditions for pearlitic steel

Metal Science and Heat Treatment, 1963
V. Z. Tseitlin, V. P. Drozdov
openaire   +1 more source