Investigation of Thermal Conditions of the Aluminothermic Welding and their Influence on the Structure and Properties of Metal Rails

A.D. Abramov; A.S. Ilinykh; M.S. Galay; Je.S. Sidorov

doi:10.4028/www.scientific.net/MSF.906.50

Paper Titles

Effect of Electropulsing on the Fatigue Behavior and Change in the Austenite Steel Structure
p.26

Electron-Beam Welding - Structural-Phase State and Microhardnes in the Weld Zone in a Submicrocrystalline Titanium Alloy Grade2
p.32

High-Speed Steel Surface Modification by Electron-Beam Processing
p.38

Integral Strain Gauges Application for Gearing Reliability Estimation
p.44

Investigation of Thermal Conditions of the Aluminothermic Welding and their Influence on the Structure and Properties of Metal Rails
p.50

Modification of Silumin Using the Electroexplosive Method
p.56

On the Thermal and Electrical Characteristics of the Hybrid Plasma-MIG Welding Process
p.63

Promising Electron-Beam Techniques for Joining Metal Materials in Power Equipment Designs
p.72

Technology of Powder Coatings Application by Gas-Flame Spraying Using Oxyhydrogen Flame
p.80

HomeMaterials Science ForumMaterials Science Forum Vol. 906Investigation of Thermal Conditions of the...

Investigation of Thermal Conditions of the Aluminothermic Welding and their Influence on the Structure and Properties of Metal Rails

Abstract:

Rail welded joints are integral part of continuous welded rail. However, they often do not have sufficient reliability during the operation. The article is devoted to the assessment of temperature influence effect on the mechanical properties and structure of weld metal and welded rails. The temperature distribution across the rail section in welded zone during the cooling process of aluminothermic rail welding is obtained using simulation by LVMFlow. The results of the study of hardness and structure of metal rail aluminotermitic welded joints are given. It is shown that the hardness of rail welded joints increases from 24 HRC to 38 HRC in the fusion zone of the weld metal and rail metal. It is due to the harmful effects of overheating of the metal during the welding process. The hardness is confirmed by microstructural analysis. Microstructural analysis showed the differences in the grains sizes of metal welded zone and heat affected zone. The structure of welded metal is acicular dendritic. Owing to a difference between structures of the welded joint zones the probability of occurrence of cracks on the boundary of fusion weld and metal is increased.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Materials Science Forum (Volume 906)

Pages:

50-55

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.906.50

Citation:

Cite this paper

Online since:

September 2017

Authors:

A.D. Abramov, A.S. Ilinykh, M.S. Galay*, Je.S. Sidorov

Keywords:

Hardness, Properties, Structure, Welding

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Yamamoto R , Terashita Y, Tatsumi M, Itoh H and Umenai K 2016 Investigation of Cause and Prevention Measures against Surface Defects on Thermit Welds Quarterly Report of RTRI 2 (57) 112-117.

DOI: 10.2219/rtriqr.57.2_112

Google Scholar

[2] Costea D.M., Gảman M.N. and Dumitru G. 2014 The weld aluminothermic optimization of rail track by microalloyed Bulletin of the Transilvania University of Braşov CIBv 7 (56) 285 – 288.

Google Scholar

[3] Brânzei M., Coman T. 2012 Structure Improvement of Aluminothermic Welding Joints by Using Modifiers International Journal of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering 6 (8) 745-748.

Google Scholar

[4] Saarna M. and Laansoo A. 2004 Rail and rail weld testing Proc. 4th International DAAAM Conference Industrial engineering – innovation as competitive edge for SME, (Tallinn, Estonia, 29-30 April 2004) pp.217-219.

Google Scholar

[5] Tikhomirova L. B., Ilinykh A.S., Galay M.S. and Sidorov Je S 2016 The effect of normalization on the structure and mechanical properties of rails aluminotermitic welded joints Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) – Metal Working and Material Science 1(70) 60-66 DOI: 10. 17212/1994-6309-2016-1-60-66.

DOI: 10.17212/1994-6309-2016-1-60-66

Google Scholar

[6] Kargin V.A., Tikhomirova L.B., Galay M.S. and Kuznetsova Y.S. 2015 Improving service properties of welded joints produced by aluminothermic welding Welding International 29(2) 155-157.

DOI: 10.1080/09507116.2014.897809

Google Scholar

[7] Kargin V.A., Tikhomirova L.B., Abramov A.D. and Galai M.S. 2014 Effect of vibroimpact treatment on the physical and mechanical properties on the surface layer of welded joints in rails Welding International 28 (3) 245-247.

DOI: 10.1080/09507116.2013.796676

Google Scholar

[8] Mouallif Z., Radi B. and Mouallif I. 2015 The Thermomechanical Modeling of Aluminothermic Welds Affected by Different Defects International Journal of Engineering Research and Development 11 44-48.

Google Scholar

[9] Sidki F., Mouallif I., Mouallif Z. and Benali A. 2012 Finite element modeling of the aluminothermic welding with internal defects and experimental analysis, Proc. International Conference on Structural Nonlinear Dynamics and Diagnosis CSNDD'2012 (MATEC Web of Conferences1) (Marrakech, Maroc, 2012) DOI: 10. 1051/matecconf/2012010000.

DOI: 10.1051/matecconf/20120100002

Google Scholar

[10] Specifications 0921-127-01124323-2005 2005 The aluminothermic rail welding methods-house of the intermediate casting Moscow VNIIZhT Publ. p.27.

Google Scholar