Gases Emission From Surface Layers of Sand Moulds and Cores Stored Under the Humid Air Conditions

Journal title

Archives of Foundry Engineering




vol. 17


No 4



Surface layer ; Sand mould ; Emission of gasesHigh air humidity ; High air humidity ; Moulding sands with chemical binders

Divisions of PAS

Nauki Techniczne


The Katowice Branch of the Polish Academy of Sciences




Artykuły / Articles


DOI: 10.1515/afe-2017-0134 ; ISSN 2299-2944


Archives of Foundry Engineering; 2017; vol. 17; No 4


Winardi (2008), Comparison of Gas Evolution Results from Chemically Bonded Cores in Contact with Magnesium and Aluminum Melts Transactions, null, 20, 116. ; Fruehan (1988), The thermodynamics and kinetics of gas dissolution and evolution from iron alloys In Foundry Processes Their Chemistry and Physics New York Plenum, null, 411. ; Zhang (2002), Gas evolution from resin - bonded sand cores prepared by various processes Metallurgical Technology, Science, 13, 27. ; Winardi (2007), Variables Affecting Gas - Evolution Rates from Cores in Contact with Aluminum Foundry Management Technology, null, 19. ; Davis (1996), Casting Defects Inspection Quality Control Measures In Specialty Handbook Cast Iron Ohio International, null, 287. ; Scarber (2006), Effects of Mold and Binder Formulations on Gas Evolution When Pouring Aluminum Castings Transactions, null, 22, 114. ; Kaźnica (2017), Role of sand grains in sorption processes by surface layers of components of sand moulds of Foundry, Archives Engineering, 17, 87. ; Winardi (2008), Variables Affecting Gas Evolution Rates and Volumes from Cores in Contact with Molten Metal Transactions, null, 21, 116. ; Hiremath (null), Advanced techniques in casting defects and rejection analysis : a study in a industry of Innovations in Engineering Research and Technology, International Journal, 2015. ; Zych (2016), Gas generation the top layer of sand mould In i technika w inżynierii procesów odlewniczych in Polish, null, 23, 65. ; Falęcki (1997), of casting defects in Polish, Analysis, 1. ; Godding (1962), of gas evolution from core sand Cast Iron Research Association, Measurement British Journal, 14, 687. ; Holtzer (2012), Station for research of the volume and harmfulness of gases compounds from the materials used in foundry and metallurgical processes Patent, null, 17, 398709. ; Rowley (1974), International atlas of foundry defects International Committee of Foundry Technical Associations Committee of Metallurgy and Foundry Properties Edition, English. ; Bobrowski (2013), Analisys of gases emitted during a thermal decomposition of the selected phenolic binders spec, Metalurgia International, 16, 259. ; Zych (2014), Gas generation properties of materials used in the sand mould technology - modified research method of Foundry, Archives Engineering, 12, 105. ; Holtzer (2013), The assesment of harmfulness of binding materials used for a new generation of core and molding sands in Polish, null, 18. ; Zych (2017), Kinetics of Gases Emission from Surface Layers of Sand Moulds of Foundry in print, Archives Engineering, 24. ; Holtzer (2012), Investigations of a harmful components emission from moulding sands with bentonite and lustrous carbon carriers when in contact with liquid metals in Polish, null, 15, 124. ; Kaźnica (null), Investigations of the sorption process kinetics of sand moulds surface layers under conditions of a high air humidity Archives of Foundry Engineering spec, null, 15, 2015. ; Lewandowski (1993), Classification of moulding and core sands in terms of gas emission in Polish, null, 11, 143.

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