USING COAL FLOTATION WASTE AS A HEAT-INSULATING BILLING FOR THE HEAD PART OF A FORGING INGOT

I.K. Ibraev; O.T. Ibraeva; N.B. Aitkenov; K.E. Sakipov

doi:10.31489/2024No4/88-98

Authors

DOI:

https://doi.org/10.31489/2024No4/88-98

Keywords:

shrinkage cavity, heat-insulating backfill, ingot, dead-melted steel, coal flotation waste, segregation

Abstract

The experience of using coal flotation waste as a weakly exothermic insulating backfill for insulating the head part of forging dead-melted steel ingots is presented. It has been shown that when using weakly exothermic fills based on single-component fills in the form of coal flotation waste, it is possible to reduce the chemical heterogeneity of the ingot by producing a closed shrinkage cavity, which allows halving heat loss and depth of penetration of shrinkage looseness into the body of the ingot, reducing the segregation of impurities, compacting the head part of the ingot and increasing the yield; moreover, the profitable part of the ingot is more dense and less contaminated with nonmetallic inclusions. The studied patterns of the formation of a closed shrinkage cavity with a dense “bridge” in the head part of a dead-melted steel ingot made it possible to develop and implement a technology for casting large forging ingots of sufficiently high quality using weakly exothermic heat-insulating materials based on metallurgical waste (coke screenings, coal flotation waste).

Author's detail

I.K. Ibraev

Ibraev, Irshek Kazhikarimovich - Doctor of Technical Sciences, Professor, Professor, Department of Metallurgy and Metallurgy, Karaganda Industrial University, Temirtau, Kazakhstan; ORCID 0000-0002-6414-6901; ibraevik@yandex.ru

O.T. Ibraeva

Ibraeva, Orazbike Toktarkhanovna - Candidate of Technical Sciences, Associate Professor, NJSC "Karaganda Industrial University", Temirtau, Kazakhstan; ORCID 0000-0002-8490-1994; ibraevaot@yandex.ru

N.B. Aitkenov

Aitkenov, Nurbek Bolatovich - PhD, Senior Lecturer, Department of Metallurgy and Metallurgy, Karaganda Industrial University, Temirtau, Kazakhstan; ORCID 0000-0001-7495-6337; nurbek.aitkenov@mail.ru

K.E. Sakipov

Sakipov, Kamalkhan E. - Candidate of Technical Sciences, Senior Lecturer, Department of Thermal Power Engineering, L.N. Gumilyov Eurasian National University, Astana, Kazakhstan; ORCID 0000-0003-2477-3879; sakamer2100@gmail.com

References

E fimov V.S., E lda rkha nov A .S. (2004) Te chnologie s of mode rn me ta llurgy. Moscow: Ne w te chnologie s. 784. Available at: https://www.gpntb.ru/vystavki-v-gpntb-rossii/2021-god/113-chitatelyam/6/7748-metallurgiya-tekhnologii-i-innovatsii.html [in Russian]

Oh K.S., Le e J.D. , Kim S.J., Choi J.Y. (2015) De ve lopme nt of a la rge ingot continuous ca ste r. Me ta ll. Re s. Te chnol., 112, 203. DOI: 10.1051/me ta l/2015006. DOI: https://doi.org/10.1051/metal/2015006

Le ushin I.O., Gra che v A .N., Le ushina L.I. , Rya btse v A .D. (2023) E xothe rmic insula tion mixture for the production of sta inle ss ste e l ingots. Che rnye Me ta lly, 5, DOI: 10.17580/chm.2023.05.03.

E fimov M.V., Pa nov V.V., Kolomoe c A .N., Loba nov A .I., Pa shynskyi V.V., Snizko O.A ., Rya btse v A .D. (2012) Inve stiga tion of non-me ta llic inclusions in la rge -ma ss ingots, produce d by PJSC “E ne rgoma shspe tssta l”. Proce e ding of the 5th Inte rn. Congre ss on the Scie nce a nd Te chnology of Ste e lma king, 2012, Dre sde n, 335–340. DOI: 10.5937/vojtehg61-3873. DOI: https://doi.org/10.5937/vojtehg61-3873

Xu L.Yi., Wu Q., Tang Y. (2014) Control of Solidification Process and Surface Microstructure of Large Size Ingot ZALCu5MnA. Alloy, 620, 122 – 127. DOI: 10.4028/www.scientific.net/kem.620.122. DOI: https://doi.org/10.4028/www.scientific.net/KEM.620.122

Le ushin I.O., Gra che v A.N., Le ushina L.I., Rya btse v A .D. (2023) E xothe rmic insula tion mixture for the production of sta inle ss ste e l ingots. Che rnye Me ta lly Follow journa l, DOI: 10.17580/chm.2023.05.03.

Zha ng S., Bao Y., Wang M. (2016) Influe nce of ca sting pa ra me te rs on shrinka ge porosity of a 19 ton ste e l ingot. La Me ta llurgia Ita lia na , 1, 37 - 44. Available at: https://www.researchgate.net/publication/295938553.

Le ushin I.O. E xothe rmic mixture for the rma l insula tion of the he a d pa rt of the ingot during ca sting of ste e ls a nd a lloys. RF Pa te nt No. 2773977. A pplie d: 03/02/2022. Publishe d: 06/14/2022. Bulle tin No.17. [in Russian] DOI: 0.17580/chm.2023.05.03.

Toshihiro Dodo (2009) Me thod for producing a n e xothe rmic mixture , e xothe rmic mixture , e xothe rmic composition a nd e xothe rmic product. Pa t. E P 2009/1782780 A 4. IPC: A 61F7/08, C09K5/16. Available at: https://patents.google.com/patent/EP1782780A4

Pindor I.J., Kurka V., Kosňovská J., Štefanišinová S., Socha L., Pyszko R. (2017) E ffe ct of Cooling of the Ingot on its Ma crostructura l a nd Che mica l He te roge ne ity. Hutnické listy, 70, 3, 47–57. Available at: https://www.hutnickelisty.cz/en/archives/content-3-2017/effect-of-cooling-of-the-ingot-on-its-macro-structural-and-chemical-heterogeneity/

Bettoni P., Biebricher U., Franz H., Lissignoli A., Page rni A., Scholz H. (2014) Large E SR forging ingots and their qua lity in production. Forgiatura La Metallurgia Italiana , 10. Available at: https://www.researchgate.net/publication /293074610

Me dova r L.B., Sa e nko V.Ya ., Stovpche nko A .P., Tsykule nko A .K., She vche nko N.T., Zhura ve l V.M. (2010) E le ctrosla g te chnology of production of la rge forging ingots. A dva nce s in E le ctrome ta llurgy, Available at: https://www.thefreelibrary.com/Electroslag technology of production of large forging ingots.-a0319615343.

Bächle K., Mülle r D., La ge ma nn J. (2020) E ntwicklung e ine s ve rfa hre ns und prüfsta nde s zur qua litätsprüfung e xothe rme r spe ise r. Gie sserei, 4. 32 - 37. [in German] Available at: https://www.giesserei.eu/artikel/entwicklung-eines-verfahrens-und-pruefstandes-zur-qualitaetspruefung-exothermer-speiser.

Leushin I.O., Grachev A.N., Leushina L.I., Ryabtsev A.D. (2023) Exothermic insulation mixture for the production of stainless steel ingots. Chernye Metally Follow journal, DOI: 10.17580/chm.2023.05.03. DOI: https://doi.org/10.17580/chm.2023.05.03

Rutsky D.V., Zyuban N.A. (2015) Development of defective zones and structure of cast metal in elongated two-piece ingots of chromium-nickel-molybdenum steel. Bulletin of Cast Iron and Steel of the CIS, 10, 14 – 18. Available at: https://www.researchgate.net/publication/290476154_Development_of_defect_zones_and_cast_metal_ structure_in_elongared_two-piece_Cr-Ni-Mo DOI: https://doi.org/10.17580/cisisr.2015.01.03

Rutskiy D.V., Zyuban N.A., Galkin A.N., Gamanyuk S.B. (2012) Effect of crystallization condirions of the forging ignots head on their structure and forging’s quality. Izvestiya. Ferrous Metallurgy, 55(7), 32 - 37. DOI:10.17073/0368-0797-2012-7-32-37. [in Russian] DOI: https://doi.org/10.17073/0368-0797-2012-7-32-37

Nazaratin V.V., Kobelev O.A., Efimov M.V., Selyutin A.A., Yavtushenko P.M. (2013) Analysis of technologies used to make hollowingots and prospects for their improvement. Metallurgis, 56, 672–678. Available from: https://link.springer.com/article/10.1007/s11015-013-9634-z DOI: https://doi.org/10.1007/s11015-013-9634-z

Ibraev I.K., Ibraeva O.T., Aitkenov N.B. (2024) Experience in using coal flotation waste to insulate the head part of forging ingots. Ferrous metallurgy. Bulletin of scientific, technical and economic information, 80, 6, 51 – 66. DOI: 10.32339/0135-5910-2024-6-51-66. DOI: https://doi.org/10.32339/0135-5910-2024-6-51-66

USING COAL FLOTATION WASTE AS A HEAT-INSULATING BILLING FOR THE HEAD PART OF A FORGING INGOT