VISCOSITY END ELECTRICAL CONDUCTIVITY OF LIQUID HYPEREUTECTIC ALLOYS Al-Si

Чикова, О. А.; Никитин, К. В.; Moskovskikh, O. P.

doi:10.12776/ams.v22i3.774

Cited by 17 publications

(4 citation statements)

References 10 publications

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“…In industrial conditions, modification is carried out with mixtures of one of these two elements (mainly strontium) and salts of various metals. The composition of the mixtures used in industrial conditions to modify silumins remains known only to the alloy manufacturer [19][20][21][22][23][24][25][26][27][28].…”

Section: Introductionmentioning

confidence: 99%

Modification of AlSi7Mg alloy with Sr and Sb

Lipiński

Pietraszak

2023

22nd International Scientific Conference Engineering for Rural Development Proceedings

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Hypoeutectic aluminum-silicon alloys called hypoeutectic silumins have been used for foundry structural elements. Their properties depend directly on the microstructure. They are one of the few metal alloys that are characterized by a simultaneous increase in strength and elongation. This is possible by changing the shape of the eutectic silicon precipitates from the lamellar form to the dendritic or, less frequently, spheroidal form. Hard and at the same time brittle silicon plates are natural notches occurring in silumins. They are also places of nucleation and development of microcracks leading to the destruction of the material. Modification of the shape of this unfavourable phase to an oval shape leads to an increase in the properties of the alloy. A number of silumin modification processes are known in the literature. These processes can be divided into technological ones, in which the geometric form of eutectic silicon is changed, e.g. by controlling the crystallization of the alloy by means of a temperature gradient. The second group of processes are chemical modification processes. During these processes, chemical additives introduced into the liquid alloy by affecting the crystallization process cause changes in the microstructure. The influence of a very large number of chemical elements on the alloy crystallization process is known. Unfortunately, among so many reports, there is contradictory information about the impact of individual additives. In this work, it was decided to check the repeatability of the test results found in the literature in other technological conditions. Typical hypoeutectic silumin containing 7% silicon with the addition of magnesium was tested. The alloy was modified only with antimony and a double modification consisting in modification with strontium and then with antimony was carried out. The contents of antimony and strontium were taken from the literature. As a result of the tests, it was noticed that the addition of antimony leads to the modification of the microstructure, and thus to the increase of the mechanical properties of the alloy. After double modification with strontium and then with antimony, changes in mechanical properties oscillating around the measurement error were obtained. It can therefore be assumed that modification of the alloy with antimony after prior permanent modification with strontium is not very effective.

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Section: Introductionmentioning

confidence: 99%

Modification of AlSi7Mg alloy with Sr and Sb

Lipiński

Pietraszak

2023

22nd International Scientific Conference Engineering for Rural Development Proceedings

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“…It was found that the addition of modifiers, initially sodium and strontium, to Al-Si casting alloys significantly improves mechanical properties, especially ductility [29][30][31][32]. The influence of strontium on the stability of phase fragmentation and mechanical properties is more noticeable and more durable than that of sodium [32][33][34][35]. The improvement in mechanical properties is generally attributed to changes in the morphology and size of the eutectic particles of the silicon phase.…”

Section: Introductionmentioning

confidence: 99%

Effect of Ti and B additions as powder and preliminary alloy with Al-Si alloy on microstructure and mechanical properties of AlSi9Mg alloy intended for parts of agricultural machinery

Lipiński

Karpisz

2021

20th International Scientific Conference Engineering for Rural Development Proceedings

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Foundry aluminum silicon alloys are widely used in various industries. In their unmodified state, they are not used for construction materials. Their use is possible after improving the unfavourable microstructure. Initially, the microstructure of hypoeutectic silumins is composed of a large primary α-phase and large, sharpshaped eutectic silicon grains. This phase creates microstructural notches. This microstructure is the reason for the low mechanical properties of the alloy. Increasing the properties of hypoeutectic silumins can be achieved, inter alia, by introducing chemical additives into the alloy, which refine the microstructure. There are reports in the literature on the use of various chemical compounds and technologies aimed at fragmenting the microstructure. A new approach is the modification process using a homogeneous modifier. This process does not introduce new alloying elements into the alloys. However, this process did not fragment the primary α-phase. The paper presents the results of AlSi9Mg alloy modification with AlSi9Mg alloy and boron and titanium. The test results confirm the effectiveness of the applied treatment. After it was carried out, the α + β eutectic and the primary α phase were fragmented. These changes, represented by the fragmentation of the microstructure, turned out to be correlated with an increase in the tensile strength of the alloy and its plasticity. The highest mechanical parameters (Rm = 195 MPa and A = 6.5%) were obtained for the alloy with 0.6% Al-Si + 0.15% Ti + 0.06% B.

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“…It is known that the presence of exogenous non-metallic inclusions in the metal affects the melt viscosity [5][6]. It is also known that the heating temperature of the melt affects the structure and properties of the cast metal, including the presence of defects of metallurgical origin in the ingot microstructure: non-metallic inclusions, pores and discontinuity defects [7][8][9][10][11][12]. It was established experimentally that the destruction of the microheterogeneous structure of the melt is usually accompanied by anomalies in the temperature dependences of the melt viscosity.…”

Section: Introductionmentioning

confidence: 99%

“…The temperature dependences of the melt viscosity corresponding to heating and subsequent cooling were different. In this case, the temperature T *, which corresponds to an irreversible transition of the melt to a more uniform state, was determined from the beginning of the high-temperature coincident segment of the heating and cooling polytherms [7][8][9]. It was proposed to overheat in industrial conditions various melts above the indicated temperatures T *, i.e., to perform temperature treatment of the melt before pouring.…”

Section: Introductionmentioning

confidence: 99%

Examining of Solid and Liquid Industrial Copper Blanks with Purpose for Quality Control in Respect of Defects of Technological Origin

Tkachuk

Mal'tsev

Чикова

2020

MSF

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Microstructure of ingot and industrial blanks made of copper M2 was examined for quality control. Microstructure was examined by means of traditional metallographic analysis methods. Exogenous nonmetal inclusions and pores in microstructure were found. The transition from exogenous inclusions and pores, which were not removed in initial processing stage, to the crack, which leads to billet destruction on one of last processing stages, is shown. Without quality control of copper blanks by a metallographic method, it is impossible to provide guarantee of reliable operation of machines and responsible purpose constructions. A comparative study of the temperature dependences of the viscosity of the melts of charge materials and finished ingots for copper M2 was carried out. The study of the viscosity of copper melts M2 was carried out with the aim of quality control in the chain of "charge-melt-ingot" at the foundry stage.

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VISCOSITY END ELECTRICAL CONDUCTIVITY OF LIQUID HYPEREUTECTIC ALLOYS Al-Si

Cited by 17 publications

References 10 publications

Modification of AlSi7Mg alloy with Sr and Sb

Modification of AlSi7Mg alloy with Sr and Sb

Effect of Ti and B additions as powder and preliminary alloy with Al-Si alloy on microstructure and mechanical properties of AlSi9Mg alloy intended for parts of agricultural machinery

Examining of Solid and Liquid Industrial Copper Blanks with Purpose for Quality Control in Respect of Defects of Technological Origin

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