Details

Title

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

Journal title

Archives of Foundry Engineering

Yearbook

2017

Volume

vol. 17

Issue

No 4

Authors

Keywords

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

Divisions of PAS

Nauki Techniczne

Publisher

The Katowice Branch of the Polish Academy of Sciences

Date

2017

Type

Artykuły / Articles

Identifier

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

Source

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

References

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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