Experimental study of the thermal conductivity of heat insulation materials based on expanded vermiculite

Adv. Sci. Technol. Res. J.

2015

Liquid metal when filling sand casting mould while pouring it out from ladle at the first moment comes across the sprue/gate system of the mould the purpose of which is to transfer liquid metal and feed the mould recess. The materials presently used for the elements of the sprue/gate systems are based on ceramics or the mixtures based on paper pulp. In this study the use of alternative mineral additions such as expanded perlite, expanded vermiculite, and microspheres as the fillers to paper pulp acquired from waste-paper for the use for the elements of mould sprue/gate systems or also other applications for the contact with liquid metal are presented. Experimental mould tube shapes made on the basis of the paper pulp based mixture patented by the authors were poured over with liquid metal. For the comparison, ceramic shapes and commercially available cellulose shapes were investigated in the same way. In order to compare the crystallization processes, a measurement of the cooling off liquid metal was carried out for all the analysed tube samples. From the so obtained metal samples metallographic microsections were made to compare cast iron microstructures. The results obtained from the investigations carried out have shown that the patented paper pulp based mixture may well be applied as an alternative material used for the elements of the sprue/gate systems for disposable sand moulds.

Section: Discussionmentioning

confidence: 99%

Expanded Perlite, Expanded Vermiculite and Microspheres as Fillers in New Generation Paper Pulp Mixtures Used for Contact With Liquid Metal

Zawieja¹,

Adv. Sci. Technol. Res. J.

2015

“…Owing to their thermal resistance [15][16][17][18][19]22], which is higher than that of the commercial mixture [2,9], materials for the pulp modification used in the study give the experimental mixtures a thermal resistance comparable to that of commercial products [20,21], while at the same time reducing gas evolution. This effect can be attributed to the temperatures characteristic of the additives used in the study.…”

Section: Resultsmentioning

confidence: 99%

“…The gas evolution was measured at a temperature of 900°C +/-2°C. The test samples were placed inside a preparation chamber (16) at room temperature and subsequently the whole measurement chamber (9) was blown throughout with nitrogen for 120 seconds. After a neutral nitrogen atmosphere was obtained, the vent valves and inlet valves were shut (18)(19).…”

Section: Research Materials and Methodologymentioning

confidence: 99%

“…Different ceramic materials, which may have some disadvantages, but which contaminate the moulding compounds and prove difficult in mechanical treatment, are usually used to make casting systems for large and medium-sized casts. This paper presents a gas evolution study of a cellulosebased mixture obtained from waste paper with the addition of minerals resistant to high-temperature, such as expanded perlite, expanded vermiculite and microspheres [14][15][16][17][18][19]. Being materials of high thermal resistance, the additives modify the thermal resistance parameters of the cellulose-based mixture.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Gas Evolution Quantitative Analysis at a Temperature of 900°C of a Cellulose Mixture Modified by Mineral Additives

Zawieja¹,

Archives of Metallurgy and Materials

2016

This article presents a gas evolution study of a novel, cellulose-based mixture with such mineral additives as expanded perlite, expanded vermiculite and microspheres. Inorganic alumina-silica binder was used to produce an uniform, bound mixture. The results have shown that the novel, cellulose-based mixture, obtained from waste paper, with mineral additives, emits smaller amounts of gas, while retaining the same thermal resistance.

“…This paper analyses the thermal degradation of a novel mixture patented by the authors [24]. This cellulosebased mixture was modified with natural additives, such as expanded vermiculite [4,5,8,15,16], expanded perlite [1,10,18,20] and microspheres [2,6,7]; inorganic resins were used as a binder [3,9]. Expanded perlite and vermiculite have very interesting physicochemical properties, such as: large absorption capacity for liquids, low bulk density, high thermal resistance of a neutral chemical nature and negligible chemical reactivity.…”

Section: Introductionmentioning

confidence: 99%

Gas Evolution Qualitative Analyses From Modified Cellulose Mixtures During Thermal Degradation in Air and Argon

Zawieja¹,

Adv. Sci. Technol. Res. J.

2017

This paper presents the application of mineral additives, such as expanded perlite, expanded vermiculite and microspheres in items used in founding. Mixed with paper pulp and aluminosilicate resin as a binder, these additives are the base of a mixture patented by the authors, which can be used in the production of pipe shapes and connectors with a circular cross-section in casting systems in the founding industry. These mixtures were subjected to TG thermal degradation during which a quantitative analysis of the emitted fumes was carried out. The analysis did not detect any other compounds than those formed by the combustion of cellulose materials, which indicated that no chemical reaction took place between the applied additives and cellulose at high temperatures.