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Number of results: 17
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Abstract

In this article, an outline of the key questions connected with the essential problems of energy-consumption of air-stream moulding machines has been presented. Research results and calculations of requisite parameters appraisable of energy-consumption of air-stream moulding machines have been supplemented also by the data analysis of offer of the moulding machines manufacturers. The attention on constructional and technological factors which are favourable for the diminution of energy-consuming of the moulding process has been paid.
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Authors and Affiliations

M. Brzeziński
K. Smyksy
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Abstract

The purpose of the present study is to demonstrate that environmental impacts exerted by manufactured products throughout their entire life cycle are major aspects to be considered, alongside their functional features and cost-effectiveness. One of the available methods to evaluate environmental impacts is known to as the Life Cycle Assessment (LCA) method. The study summarises the reports from the literature on the subject of environmental impact assessment. In conclusions, the authors indicate the need for assessing the environmental impact of cast products made from conventional and newly introduced alloys.

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Authors and Affiliations

A. Fedoryszyn
M. Brzeziński
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Abstract

The paper outlines the methodology of virtual design of a foundry plant as a system. The most important stage in the procedure involves the development of a model defined as a set of data about the system. Model development involves two stages: defining the model’s architecture and specifying the model data in the form of parameters and input-output relationships. The structure is understood as configuration of machines and transport units, representing the sub-systems and system components. As the main purpose of the simulation procedure is to find the characteristics of the system’s behaviour, the merits of the iterative method involving analysis, synthesis and evaluation of results are fully explored.

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Authors and Affiliations

A. Stawowy
E. Ziółkowski
M. Brzeziński
R. Wrona
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Abstract

Design of a compressed air system is a complex issue, involving the design of structures formed by the air sources, air receptors and

installations connecting all structure components. Another major task is to ensure the required quality of compressed air. The paper briefly

outlines the methodology of integrated and network structure design, using an objective function to find the optimal solution. In terms of

quality assurance, the technological aspects of compressed air generation, treatment and distribution are defined.

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Authors and Affiliations

R. Wrona
E. Ziółkowski
M. Brzeziński
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Abstract

This study summarises the research efforts undertaken in iron foundry plants in which the process are mostly automated and mechanised.

The research program was limited in scope, focusing on causes of surface defects in castings products that are attributable to the

bentonite-containing sand and the mould system. One of the potential roots of surface defects is heterogeneity of sand grains, containing

lumped ball-shaped grains and irregular pellets with a layered-structure. The moisture contents of those lumped grains is different than

the moisture level required in the process, besides these grains may contain various elements and metallic compounds which, when cast

into moulds, may react with molten metals in an uncontrolled manner. As a result, surface defects are produced, such as surface blowholes,

burst penetration, sand holes, slag inclusions, pinhole porosity. This study investigated the efficiency of key sand preparation and

moulding machines and installations integrated into the casting process line. The efficiency of machines and installations is defined in

terms of quality parameters of sand mix and moulds, which are associated with the emergence of surface defects on castings.

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Authors and Affiliations

R. Wrona
E. Ziółkowski
M. Brzeziński
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Abstract

Shot blasting machines are widely used for automated surface treatment and finishing of castings. In shot blasting processes the stream of shots is generated and shaped by blasting turbines, making up a kinetic and dynamic system comprising a separating rotor, an adapting sleeve and a propelling rotor provided with blades. The shot blasting performance- i.e. the quality of shot treated surfaces depends on the actual design and operational parameters of the unit whilst the values of relevant parameters are associated with the geometry of turbine components and the level of its integration with the separator system. The circulation of the blasting medium becomes the integrating factor of the process line, starting from the hopper, through the propeller turbine, casting treatment, separation of contaminated abrasive mixture, to its recycling and reuse. Inferior quality of the abrasive agent (shot) and insufficient purity of the abrasive mixture are responsible for low effectiveness of shot blasting. However, most practitioners fail to fully recognize the importance of proper diagnostics of the shot blasting process in industrial conditions. The wearing of major machine components and of the blasting agent and quality of shot treated surfaces are often misinterpreted, hence the need to take into account all factors involved in the process within the frame of a comprehensive methodology. This paper is an attempt to formulate and apply the available testing methods to the engineering practice in industrial conditions.

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Authors and Affiliations

R. Wrona
M. Brzeziński
E. Ziółkowski
P. Zyzak
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Abstract

Vacuum conditions in foundry installations are generated using electric-driven vacuum pumps. The purpose of the experiment is to evaluate the performance of a vacuum-assisted system for compaction of moulding sand basing on registered plots of selected electric power parameters of the power-supplying system of the pumps. Model testing done on an experimental vacuum system installation, power-supplied from a system incorporating the recorders of instantaneous current and voltage values. Following the numerical procedure, the experimental data are analysed to yield mathematical relationships between the variations of the generated vacuum pressure levels and variations of selected electric power parameters. Registered and computed values of selected parameters: instantaneous and RMS voltage and current values, active, reactive and apparent power levels and power coefficient allow for diagnosing the adequacy and reliability of the system operation. According to the authors, the applied monitoring of the power parameters of a vacuum-assisted installation may become an effective and easy practical method of evaluating the performance of such installations, used also in foundry plants.

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Authors and Affiliations

M. Brzeziński
E. Ziółkowski
R. Wrona
K. Smyksy
P. Zyzak
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Abstract

In this article the main problems related with the proper choice of the design and operation parameters of vacuum installation in vacuum moulding system have been discussed. In such system a vacuum are generated using electric-driven vacuum pumps. The aim of the experiment is to evaluate the performance of a vacuum system basing on registered plots of selected electric power parameters of the power-supplying system of the pumps with parallel measurements instantaneous values of pressure in selected points of model stand. The measurements system for power-supply unit has incorporated the recorders of instantaneous current and voltage values. Following the suitable numerical procedure, the experimental data are analysed to yield mathematical relationships between the variations of the generated vacuum pressure levels and variations of selected electric power parameters. According to the authors, the applied measurements system of the parameters of a vacuum-assisted installation may become an effective and easy practical method of evaluating the performance of such installations, used also in industry.

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Authors and Affiliations

K. Smyksy
E. Ziółkowski
M. Brzeziński
R. Wrona
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Abstract

Blast furnace and cupola furnace are furnace aggregates used for pig iron and cast iron production. Both furnace aggregates work on very similar principles: they use coke as the fuel, charge goes from the top to down, the gases flow against it, etc. Their construction is very similar (cupola furnace is usually much smaller) and the structures of pig iron and cast iron are very similar too. Small differences between cast iron and pig iron are only in carbon and silicon content. The slags from blast furnace and cupola furnace are very similar in chemical composition, but blast furnace slag has a very widespread use in civil engineering, primarily in road construction, concrete and cement production, and in other industries, but the cupola furnace slag utilization is minimal. The contribution analyzes identical and different properties of both kinds of slags, and attempts to explain the differences in their uses. They are compared by the contribution of the blast furnace slag cooled in water and on air, and cupola furnace slag cooled on air and granulated in water. Their chemical composition, basicity, hydraulicity, melting temperature and surface were compared to explain the differences in their utilization.

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Authors and Affiliations

A. Pribulová
P. Futáš
J. Petrík
M. Pokusová
M. Brzeziński
J. Jakubski
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Abstract

Refractories are the basic material for the construction of the lining of a melting furnace used, among other things, in the foundry industry. The article describes a comparative study of the influence of the type of moulding on the quality of the finished refractory product. A method for making products from refractory materials was proposed and a test methodology was developed. The results, based on a classic study of the quality of these materials, confirm a strong influence on the quality of the materials obtained in terms of reduced porosity and homogeneity of pore size.
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Authors and Affiliations

Alicja Trela
ORCID: ORCID
M. Brzeziński
1
ORCID: ORCID
A. Pribulova
2
ORCID: ORCID
Peter Futas
ORCID: ORCID

  1. AGH University of Krakow, Faculty of Foundry Engineering, Al. Mickiewicza 30, 30-059 Krakow, Poland
  2. Technical University, Department of Metallurgy, Kosice, Slovakia

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