Study on warm rolling of AISI 1015 carbon steel
-
Carmen Medrea-Bichtas
,
Ionel Chicinaş
Abstract
Warm rolling experiments on AISI 1015 carbon steel were performed using a duo-reversible mill. The samples have been studied after warm rolling with three deformation ratios by light microscopy and scanning electron microscopy. During the warm rolling pearlite grains are subjected to two simultaneous processes: (i) deformation of the mosaic blocks followed by the separation of some blocks which then appear in the microstructure as fine lamellae pearlite grains, and (ii) deformation of the cementite lamellae which tend to a globular shape within the remaining grains. A slight variation of the hardness across the longitudinal section of the material was evidenced.
Abstract
Es wurde das Halbwarmwalzen eines AISI-1015-Stahls in einem duo-reversiblen Walzwerk mittels Lichtmikroskopie und Rasterelectronenmikroskopie untersucht. Im Laufe des Halbwarmwalzens mit drei Verformungsgraden erleiden die Perlitkörner zwei gleichzeitige Prozesse: (i)Verformung der Mosaikblöcke, von denen sich einige Blockteile abtrennen, die nachher in der Struktur als feinlamellare Perlitkörner erscheinen, und (ii) Verformung der Zementitlamellen zu kugelförmigen Gebilden in den verbleibenden Körnern. Eine leichte Variation der Härte senkrecht zur Längsschnittfläche der Probe ist zu beobachten.
References
1 Vermeşan, G.: Guide for Heat Treating, Dacia Publishing House, Cluj-Napoca (1987) [in Romanian].Suche in Google Scholar
2 Georgescu, S.: Basic Principles of Heat Treating of Steels, ODPT Bucharest (1970) [in Romanian].Suche in Google Scholar
3 Dulamita, T.; et. al.: Technology of Heat Treating, EDP Bucharest (1982) [in Romanian].Suche in Google Scholar
4 Loscher, H., et. al.: Neue Hütte 7 (1962) 341.Suche in Google Scholar
5 Vander Veen, J.H.: J. West of Scotland Iron and Steel Inst. 60 (1953) 350.Suche in Google Scholar
6 Morgan, E.R., et. al.: J. Metals 17 (1965) 829.Suche in Google Scholar
7 Kirk, D.: Ph. D. Thesis, University of Birmingham (1958).Suche in Google Scholar
8 Dragan, I.; Boer, N.: Machine Building 28 (1976) 493 [in Romanian].Suche in Google Scholar
9 Lester, R.D.H.: Metalurgia 24 (1972) 12 [in Romanian].Suche in Google Scholar
10 Nistor, L.: Rolling of Metals, Guide for Practical Works, IP Cluj-Napoca (1987).Suche in Google Scholar
11 Tselikov, A.I.; Nikitin, G.S.; Rokotyan, S.E.: The Theory of Lengthwise Rolling, Mir Publishers, Moscow (1981).Suche in Google Scholar
12 Gabriel, B. L.: SEM: AUser Manual for Materials Science, American Society for Metals, Metals Park, Ohio (1992).Suche in Google Scholar
13 Acosta, P.; Jimenez, J.A.; Frommeyer, G.; Ruano, O.A.: Mater. Sci. Eng. A 206 (1996) 194.10.1016/0921-5093(95)10001-6Suche in Google Scholar
© 2002 Carl Hanser Verlag, München
Artikel in diesem Heft
- Frontmatter
- Articles/Aufsätze
- Mechanical properties of Cu/In – 48 Sn/Cu diffusion-soldered joints
- Effect of ultrasonic (cavitation) treatment of the melt on the microstructure evolution during solidification of aluminum alloy ingots
- Computer simulation of the long-range diffusional transformation based on the postulated principle of maximum dissipation rate of Gibbs energy
- Kinetics of growth of intermetallics in the Cu–Sn system
- Atomic composition of the metastable β″ phase precipitate in an Al –Mg–Si alloy
- Interfacial tension of metastable immiscible alloys: a novel measurement concept
- On the kinetics of the initial oxidation of iron and iron nitride
- Synthesis and characterisation of MgAlON
- Kinetic studies of oxidation of MgAlON and a comparison of the oxidation behaviour of AlON, MgAlON, O’SiAlON–ZrO2, and BN–ZCM ceramics
- Study on warm rolling of AISI 1015 carbon steel
- Experimental study on elastic modulus and damping capacity of woodceramics
- Texture development during cold rolling of unidirectionally solidified Al–Al3Ni alloy
- Wear behavior of A356/M7C3 and A356/SiC particulate metal matrix composites
- Microstructural characterization and microhardness of rapidly solidified Al –Ce alloys
- Effect of quenching rate on the microstructure of rapidly solidified Al –Sr alloys
- The protective mechanism of the native rust layer on Cr-containing steels exposed to marine atmosphere
- Notifications/Mitteilungen
- Personen
- DGM conferences
Artikel in diesem Heft
- Frontmatter
- Articles/Aufsätze
- Mechanical properties of Cu/In – 48 Sn/Cu diffusion-soldered joints
- Effect of ultrasonic (cavitation) treatment of the melt on the microstructure evolution during solidification of aluminum alloy ingots
- Computer simulation of the long-range diffusional transformation based on the postulated principle of maximum dissipation rate of Gibbs energy
- Kinetics of growth of intermetallics in the Cu–Sn system
- Atomic composition of the metastable β″ phase precipitate in an Al –Mg–Si alloy
- Interfacial tension of metastable immiscible alloys: a novel measurement concept
- On the kinetics of the initial oxidation of iron and iron nitride
- Synthesis and characterisation of MgAlON
- Kinetic studies of oxidation of MgAlON and a comparison of the oxidation behaviour of AlON, MgAlON, O’SiAlON–ZrO2, and BN–ZCM ceramics
- Study on warm rolling of AISI 1015 carbon steel
- Experimental study on elastic modulus and damping capacity of woodceramics
- Texture development during cold rolling of unidirectionally solidified Al–Al3Ni alloy
- Wear behavior of A356/M7C3 and A356/SiC particulate metal matrix composites
- Microstructural characterization and microhardness of rapidly solidified Al –Ce alloys
- Effect of quenching rate on the microstructure of rapidly solidified Al –Sr alloys
- The protective mechanism of the native rust layer on Cr-containing steels exposed to marine atmosphere
- Notifications/Mitteilungen
- Personen
- DGM conferences
