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Evaluation of Collapsibility of Selected Core Systems

Obzina Tomas, Merta V., Rygel J., Lichý P., Drobíková K.

Archives of Foundry Engineering

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2022

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Vol. 22, iss. 1

48--52

EN

There are mainly two different ways of producing sand cores in the industry. The most used is the shooting moulding process. A mixture of sand and binder is injected by compressed air into a cavity (core), where it is then thermally or chemically cured. Another relatively new method of manufacturing cores is the use of 3D printing. The principle is based on the method of local curing of the sand bed. The ability to destroy sand cores after casting can be evaluated by means of tests that are carried out directly on the test core. In most cases, the core is thermally degraded and the mechanical properties before and after thermal exposure are measured. Another possible way to determine the collapsibility of core mixtures can be performed on test castings, where a specific casting is designed for different binder systems. The residual strength is measured by subsequent shake-out or knock-out tests. In this paper, attention will be paid to the collapsibility of core mixtures in aluminium castings.

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Badania wstępne utwardzanych mikrofalowo połączeń wykonanych z klejów sporządzonych na bazie uwodnionego krzemianu sodu i piasku kwarcowego

Stachowicz M.

Prace Instytutu Odlewnictwa

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2018

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Vol. 58, no. 4

295--308

PL

W pracy podjęto próbę wyjaśnienia zjawisk towarzyszących powstawaniu i niszczeniu połączeń klejonych elementów form i rdzeni, w których jako kleje zastosowano mieszaninę niemodyfikowanego uwodnionego krzemianu sodu o module molowym 2,9 (SiO2/Na2O) i nośnika, którym był bardzo drobny piasek kwarcowy. Mieszaniny sporządzanych klejów wykonano według własnych propozycji składu i opisów patentowych. Na podstawie dostępnych danych literaturowych opracowano metodykę wytwarzania i badania wytrzymałości na rozciąganie połączeń klejonych z użyciem dzielonych kształtek ósemkowych typu dog-bone. Przeznaczone do klejenia połówki kształtek ósemkowych typu dog-bone wykonano z utwardzonej mikrofalowo kwarcowej masy z uwodnionym krzemianem sodu o module molowym 2,5 (SiO2/Na2O). Do utwardzenia klejonych połączeń również zastosowano metodę nagrzewania falą elektromagnetyczną o częstotliwości 2,45 GHz. Wyniki badań zrywania sklejonych połówek kształtek typu dog-bone, w ich najmniejszym przekroju, odniesiono do prób wytrzymałości standardowych kształtek ósemkowych oraz do połączeń klejonych znanych z opisów patentowych. Wyniki badań obciążeń krytycznych połączeń klejonych uzupełniono obserwacjami SEM po próbach rozciągania. Na podstawie przeprowadzonych badań ustalono, że wytrzymałość takich połączeń przewyższa wytrzymałość masy formierskiej, a destrukcja sklejonych kształtek ósemkowych odbywa się w strefach przy powierzchniach, na które naniesiono sporządzone nieorganiczne kleje.

EN

In this paper an attempt was made to explain the phenomena accompanying the formation and destruction of bonded elements of moulds and cores in which a mixture of unmodified hydrated sodium silicate with a molar module of 2.9 (SiO2/Na2O) and a carrier – very fine quartz sand – was used as adhesives. Mixtures of prepared adhesives were made according to own compositional proposals and patent descriptions. On the basis of available literature data, the methodology of production and tensile strength testing of bonded joints with the use of divided octagonal dog-bone shapes was worked out. Dog-bone shaped pieces intended for binding were made of microwave-cured quartz sand with hydrated sodium silicate of molar module 2.5 (SiO2/Na2O). For the curing of bonded joints the electromagnetic wave heating method of 2.45 GHz was also applied. The results of tearing off the bonded halves of dog-bone shaped pieces in their smallest cross-section were related to the tensile strength tests of standard octagonal shaped pieces and to bonded joints known from patent descriptions. The results of critical loads of bonded joints were supplemented with SEM observations after tensile tests. On the basis of the conducted tests it was found that the tensile strength of such joints exceeds the tensile strength of the moulding sand, and the destruction of the bonded octagonal shapes takes place in areas near the surfaces on which inorganic adhesives were applied.

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Core Blowing Process - Assessment of Core Sands Properties and Preliminary Model Testing

Dańko R., Dańko J., Burbelko A., Skrzyński M.

Archives of Foundry Engineering

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2014

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Vol. 14, iss. 1

25--28

EN

The effects of filling the core box cavity and sand compaction in processes of core production by blowing methods (blowing, shooting) depend on several main factors. The most important are: geometrical parameters of cavity and complexity of its shape, number, distribution and shape of blowing holes feeding sands as well as the venting of a technological cavity. Values of individual parameters are selected according to various criteria, but mostly they should be adjusted to properties of the applied core sand. Various methods developed by several researchers, including the authors own attempts, allow to assess core sands properties on the basis of special technological tests projecting the process into a laboratory scale. The developed criteria defining a degree or a filling ability factor provide a better possibility of assessing the core sand behaviour during flowing and core box filling, which indicate the value and structure of the obtained compacting decisive – after hardening – for strength and permeability. The mentioned above aspects are analysed – on the basis of authors’ own examinations - in the hereby paper.