ФІЗИКО-ХІМІЧНІ МЕТОДИ ПІДВИЩЕННЯ ТРІЩИНОСТІЙКОСТІ СПЛАВУ АМ4,5КД (ВАЛ10). ПОВІДОМЛЕННЯ 4: ПОРІВНЯННЯ ЕФЕКТИВНОСТІ ФІЗИКО-ХІМІЧНИХ ВПЛИВІВ НА РОЗПЛАВ: Procesi littâ, 2024, Vol 1 (155), 29-38

ФІЗИКО-ХІМІЧНІ МЕТОДИ ПІДВИЩЕННЯ ТРІЩИНОСТІЙКОСТІ СПЛАВУ АМ4,5КД (ВАЛ10). ПОВІДОМЛЕННЯ 4: ПОРІВНЯННЯ ЕФЕКТИВНОСТІ ФІЗИКО-ХІМІЧНИХ ВПЛИВІВ НА РОЗПЛАВ: Procesi littâ, 2024, Vol 1 (155), 29-38

The purpose of the article is to study the effectiveness of ways to increase the crack resistance of AM4.5Kd alloy (VAL10), including modification with rapidly cooled (Vохол.≥103 оС/s) ligatures, vibration in the process of solidification of the casting, treatment of the melt with hydrogen and a...

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Збережено в:
Бібліографічні деталі
Дата:2024
Автори: Бєлік, В.І., Пригунова, А.Г., Нурадинов, А.С., Шейгам, В. Ю., Бабюк, В.Д., Житков, Є.А., Головаченко, В.П.
Формат: Стаття
Мова:Ukrainian
Опубліковано: National Academy of Sciences of Ukraine, Physical-Technological Institute of Metals and Alloys of NAS of Ukraine 2024
Теми:
сплав АМ4,5Кд (ВАЛ10)
гарячі тріщини
проба на тріщиностійкість
фізико-хімічні впливи на розплав
виливок
міцність
пластичність
Онлайн доступ:https://plit-periodical.org.ua/index.php/plit/article/view/230
Теги: Додати тег
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Назва журналу:Casting Processes

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Casting Processes
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Резюме:The purpose of the article is to study the effectiveness of ways to increase the crack resistance of AM4.5Kd alloy (VAL10), including modification with rapidly cooled (Vохол.≥103 оС/s) ligatures, vibration in the process of solidification of the casting, treatment of the melt with hydrogen and a rotating cooling rotor.To achieve this goal, a special test was developed. Its design makes it possible to assess the susceptibility of the alloy to crack formation by the size and configuration of the hot crack in the casting, to make samples for mechanical tests, which contributes to the determination of productive methods of increasing its crack resistance and properties under various physical and chemical influences on the liquid state.The set of methods used in the work made it possible to obtain data on the effectiveness of the investigated methods of influence, which was calculated by the ratio of the number of castings that solidified without a crack to the total number of castings obtained using one or another action on the melt aimed at preventing the formation of a crack. The ability of the alloy to form cracks, its strength and plasticity after liquid-phase treatment were compared with each other, as well as with control samples obtained in this sample under conditions that exclude the formation of hot cracks and in a mold that provides good feeding of the casting. The obtained results can be used in the practice of foundry production for a reasoned choice of a method of increasing resistance to cracks depending on the technological capabilities of the enterprise and the features of the casting technology at this enterprise. In particular, 100 percent efficiency was shown by modification with a rapidly crystallized aluminum-titanium ligature based on the introduction of 0.15% titanium into the melt, as well as processing of the melt with a rotor. At the same time, in the first case, the strength and plasticity of the cast metal is significantly higher than in the second, and higher than when using other investigated methods.

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