Your search keyword '"Theofani Tzevelekou"' showing total 6 results

1. Valorization of Slags Produced by Smelting of Metallurgical Dusts and Lateritic Ore Fines in Manufacturing of Slag Cements

Author

Theofani Tzevelekou, Paraskevi Lampropoulou, Panagiota P. Giannakopoulou, Aikaterini Rogkala, Petros Koutsovitis, Nikolaos Koukouzas, and Petros Petrounias

Subjects

slag valorization, metallurgical dusts, slag cement, CO2 emissions, EAF slag, zero waste, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

A pyrometallurgical process was developed for the recycling of Ni bearing dusts and laterite ore fines by direct reduction smelting in DC (direct current) arc furnace. In the course of the performed industrial trials, besides the Ni-recovery in the liquid bath, slag composition was deliberately adjusted in order to produce a series of metallurgical slags with different chemical and mineralogical composition. The aim of this study was to investigate their suitability as clinker substitute in cement manufacturing. Examined parameters were slag FeOx content, basicity and applied cooling media (air, water cooling). A series of composite Portland and slag cements were manufactured in laboratory scale incorporating 20% and 40% of each slag, respectively; the rest being clinker of OPC (ordinary Portland cement) and 5% gypsum. The extended mineralogical analysis and microstructural properties of the produced slags were examined and correlated with the properties of the produced cements. The physical and mechanical characteristics of all examined cement products were found to meet the requirements of the regulation set for cements. The present research revealed that the most critical parameter in the compressive strength development of the slag cements is the mineralogical composition of the slag. Even in cases where rapid cooling to obtain glassy matrix is not feasible, adjustment of slag analysis to obtain mineralogical phases similar to those met in clinker of OPC, even at higher FeO contents (up to ~21wt.%), can result in production of slag with considerable latent hydraulic properties. These results indicate that there is potentially space for adjustments in conventional EAF (electric arc furnace) steel slags composition to allow for their wider use in cement manufacturing with significant environmental and economic benefits resulting from the reduction of energy requirements, CO2 emissions and natural raw materials consumption.

Published

2020

2. Typical defects in plate and long steel products

Author

Alexandros Antonopoulos, Antonios Gypakis, Theofani Tzevelekou, and Spyros Papaefthymiou

Subjects

Ladle, Materials science, business.industry, Mechanical Engineering, Metallurgy, Final product, Mechanical engineering, 02 engineering and technology, 01 natural sciences, Steelmaking, 020501 mining & metallurgy, 010309 optics, Cracking, chemistry.chemical_compound, 0205 materials engineering, chemistry, Mechanics of Materials, Casting (metalworking), 0103 physical sciences, Non-metallic inclusions, Slag (welding), business, Ductility, Civil and Structural Engineering

Abstract

Purpose During steel plate and long-product production, numerous imperfections and defects appear that deteriorate product quality and consequently reduce revenue. The purpose of this paper is to provide a practical overview of typical defects (surface and internal) that occur and their root causes. Design/methodology/approach The data presented here derive from the quality department and from more than 50 technical reports of ELKEME S.A. on the last decade’s production of steel making companies STOMANA S.A. and SIDENOR S.A., with emphasis on the defects occurred in some of the products of the Bulgarian plant. Stereoscopic observations of surface defects, light optical metallography, and scanning electron microscopy with EDS represent the most used techniques to characterize defected macro-/micro-areas and microstructures. Findings In general, the most commonly encountered defects from semi-finished (billets, blooms, and slabs) and final (round bar and plate) steel products are as follows: network cracks, porosity, gas holes, shrinkage, shell, slivers, casting powder entrapment, ladle slag entrapment, other non-metallic inclusions, low hot ductility, centerline segregation cracking, macro- and micro-segregation, and mechanical defects (scratches, transverse cracks, and seams). Practical implications External and internal quality improvement can reduce the production cost (Euro/ton). Social implications Improvement of the quality of industrial plates and long products increases the safety of the further-produced constructions and systems such as bridges, cranes, heavy equipment, automobile parts, etc. Originality/value Root cause analysis and categorization of the most commonly encountered defects can pave the way to production process improvements that directly affect final product quality and the overall per ton production cost. The benefits of this work obviously affect all steel producers/processers, and also society through the safety increase achieved by the quality improvement in the steel products used in constructions and automobile parts.

Published

2016

3. Determination of defects on a processed disc from S355J2 steel

Author

Dimitris C. Papamantellos, Panagiotis Sismanis, Vasiliki Panteleakou, Athanasios Vazdirvanidis, Theofani Tzevelekou, and Spyros Papaefthymiou

Subjects

Materials science, Scanning electron microscope, Mechanical Engineering, Metallurgy, Nozzle, chemistry.chemical_element, Microstructure, chemistry, Breakage, Mechanics of Materials, Aluminium, Casting (metalworking), Composite material, Steel casting, Civil and Structural Engineering, Refining (metallurgy)

Abstract

Purpose – A failed disc that was forged from S355J2 round bar was investigated in order to determine the failure route cause. The purpose of this paper is to determine the defects and route cause analysis regarding their origin. Design/methodology/approach – Macroscopic evaluation, microstructure observation using light optical metallography and scanning electron microscopy with EDX analysis were the techniques used to analyse and characterize the defected areas. Findings – Macro-inclusions (up to 850 µm) that correspond to high melting aluminium rich calcium-aluminate particles were detected. Their formation, possibly due to improper calcium treatment during ladle furnace steel refining process might be associated with clogging problems at casting. SEM-EDX analysis revealed whitish spots containing Zr that could be related to submerged entry nozzle (SEN) erosion/breakage. Characteristic is the large size and unusual shape of the traced particles, as well as the presence of low Si, Na, K. The findings indicated that nozzle clogging and/or breakage at casting was most possibly the root cause of the product’s quality degradation. Originality/value – After extended root cause analysis, specific countermeasures are proposed to avoid clogging phenomena. The suggestions are based on the findings taking into account restrains of the steel-making process. Emphasis was laid in detecting the weaknesses that lead to product quality degradation and consequently in optimizing the steel-making process. Such incidents are often found during steelmaking a useful suggestion to steelmakers is to mark and remove cast parts after SEN problems are encountered. In this way quality issues in intermediate and/or final products will be avoided.

Published

2015

4. Hot-water corrosion failure of a hard-drawn copper tube

Author

Athanasia Flampouri, George Pantazopoulos, Theofani Tzevelekou, Andreas Rikos, Dionysios Skarmoutsos, and Athanasios Vazdirvanidis

Subjects

Cuprite, Piping, Materials science, education, Metallurgy, General Engineering, chemistry.chemical_element, Copper, Corrosion, chemistry, visual_art, visual_art.visual_art_medium, Pitting corrosion, General Materials Science, Water quality, Erosion corrosion of copper water tubes, Leakage (electronics)

Abstract

Deoxidized high phosphorus copper (C12200, DHP-Cu) is the principal construction element in piping in water distribution systems and HVAC (Heating Ventilation and Air-Conditioning) installations due to its excellent thermal and electrical conductivity, formability, corrosion resistance and antimicrobial activity. However, design and installation deficiencies or aggressive environmental parameters, such as improper water quality, may lead to unexpected failures causing material losses and many times property damage incurring high costs of repair. A corroded copper water tube caused leakage in a hot water hydraulic installation. The leakage was reported after approximately 6 years in service. Tubes were disconnected from a hydraulic installation and samples were taken for failure investigation. Failure analysis findings suggest strongly that the leakage was caused by tube perforation from the inner waterside due to localized pitting corrosion. The main cause of the accelerated tube pitting corrosion was the improper water chemistry (especially high chlorine content and low pH) inducing chemical attack of copper leading to scale layers of cuprite, chlorides and sulfates.

Published

2013

5. Direct Smelting of Metallurgical Dusts and Ore Fines in a 125t DC-HEP Furnace

Author

Peter van Hüllen, Friedrich Höfer, Demetrios C. Papamantellos, Hans Günter Geck, and Theofani Tzevelekou

Subjects

Kiln, chemistry.chemical_element, 02 engineering and technology, engineering.material, 020501 mining & metallurgy, Materials Chemistry, Laterite, Physical and Theoretical Chemistry, Cement, Waste management, business.industry, Metallurgy, Metals and Alloys, Stockpile, Slag, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Nickel, 0205 materials engineering, chemistry, Flash smelting, visual_art, Smelting, engineering, visual_art.visual_art_medium, 0210 nano-technology, business

Abstract

In the metallurgical plant of LARCO at Larymna, approximately 200000t/y of nickelferrous dust are collected in the gas cleaning systems of the Rotary Kilns (R/Ks) corresponding to an annual production of 100000t FeNi20%. In addition, a stockpile of one million tons of old R/K dust lies close to the plant and the community of Larymna. A one-stage environmentally friendly process has been developed for the recycling of this dust by direct reduction smelting in a DC arc furnace. The industrial adaptation of this process was tested in the 125t DC-HEP (Direct Current - Hollow Electrode Powder) furnace at Georgsmarienhutte steelwork (GMH) in Germany. About 70t of dust were directly smelted by injection through the hollow electrode of the furnace. The nickel recovery in the metal bath was 93-99.9%. Final products were low nickel alloyed steel grades and slag suitable for special cement types production. Main cause of the dust generation in the R/Ks is the disintegration of laterite and the ore fines fraction after the ore crushing. Their separation, collection and metallurgical exploitation prior to their feeding in the R/Ks would significantly reduce the amount of the generated dust. Therefore, the smelting of untreated laterite ore fines in the DC-HEP furnace was also indicatively tested. Thus, a zero residues industrial production process was developed for the recycling of nickel bearing dust and ore fines by smelting in a DC-arc furnace, since the finally produced FeNi-alloy and slag are 100% utilized in the steel and cement industry respectively.

Published

2004

6. Ανάπτυξη μεθόδου ανακύκλωσης και παραγωγής νέων υλικών με αναγωγική τήξη κόνεων συστημάτων αντιρρύπανσης βιομηχανίας παραγωγής σιδηρονικελίου

Author

Theofani Tzevelekou

Subjects

Materials science, Kiln, Metallurgy, Ferroalloy, Slag, chemistry.chemical_element, engineering.material, Ferrous, Nickel, chemistry, visual_art, Smelting, visual_art.visual_art_medium, Laterite, engineering, Graphite electrode

Abstract

The tratment of the laterite nickel ferrous ores in Hellas for the production of ferronickel at Larymna is associated with the emission of 200000t/y of fine dust collected in the gas cleaning systems of the rotary kilns (R/Ks), with 1.2-1.5% and 4-5% . Average Ni and C contents respectively . This thesis contributed to the development of a method for the recycling of this dust by means of its direct reduction smelting in a DC-HEP furnace (Direct Current-Hollow Electrode Powder) by its injection through the central hollow graphite electrode. The preliminary theoretical study and the laboratory trials were followed by industrial heat campaigns in the 12st DC-HEP furnace at georgsmarienhutte steelwork in Germany, where around 70t of dust and 2.5t of ore fines were smelted. The Ni-recovery was very high 93-99.9%. Low Nickel alloyed steel grades were produced and various slag types for the investigation of their utilization for the production of composite-portland cements and slag cements. The metallurgical evaluation of the trials was performed and model for the dust reduction smelting process was developed.

Published

2014