TG/DTG/DTA, FTIR and GC/MS Studies of Oil Sand for Artistic and Precision Foundry with the Emission of Gases Assessment

Journal title

Archives of Foundry Engineering




vol. 17


No 4



Molding sand ; Thermal analysis ; Emission of gases ; FTIR ; GC/MS

Divisions of PAS

Nauki Techniczne


The Katowice Branch of the Polish Academy of Sciences




Artykuły / Articles


DOI: 10.1515/afe-2017-0125 ; ISSN 2299-2944


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


Wang (2011), Hazardous air pollutant formation pyrolysis of typical Chinese casting materials, Environ Sci Technol, 30, 15, ; Łucarz (null), Thermal reclamation of the used moulding sands, Metalurgija, 16, 2015. ; Dańko (2013), Criteria for an advanced assessment of quality of moulding sands with organic binders and reclamation process products, China Foundry, 17, 181. ; Acharya (2016), Identification and Quantification of Gases Releasing From Furan No Bake of Foundry, Archives Engineering, 16, 5. ; Abedghars (2011), Monotoring of air quality in an iron foundry ( Case of SO benzene dust, Mater Environ Sci, 12, 501. ; Winardi (2007), Gas Pressures in Sand Cores Transactions, null, 27, 115. ; Bates (1976), Decomposition of resin binders and the relationship between the gases formed and the casting surface quality - part Transactions, null, 21, 1. ; Scraber (2006), Avoiding gas defects through mold and core package design, Modern Casting, 28, 38. ; Milczarek (2009), Examination of spray paints on plasters by the use of pyrolysis - gas chromatography / mass spectrometry for forensic purposes of Analytical and, Journal Applied Pyrolysis, 37. ; McKinley (1999), Pyrolysis of core resins used in Metalcasting Transactions, null, 1. ; Grabowska (2017), DRIFT MS studies of thermal decomposition for poly ( sodium acrylate dextrin new binder of Casting, Journal Materials Engineering, 1. ; Żymankowska (2016), Comparison of the emission of aromatic hydrocarbons from moulding sands with furfural resin with the low content of furfuryl alcohol and different activators of Foundry, Archives Engineering, 14, 187. ; Grabowska (2016), Thermal analysis in foundry technology Study DSC of the new class of polymer binders BioCo of Thermal Analysis and, Journal Calorimetry, 1. ; Kaczmarska (2017), Studies on the gases emission under high temperature condition from moulding sands bonded by modified starch Na of Foundry, Archives Engineering, 13, 79. ; Naro (1999), Porosity Defects in Iron Castings from Mold - Metal Interface Reactions Transactions, null, 25, 107. ; Zhao (2017), Evolved gas analysis of PEP - SET sand by of Analytical and in press https org, Journal Applied Pyrolysis, 31, ; Zhang (2014), Diminishing hazardous air pollutant emissions from pyrolysis of furan no - bake binders using methanesulfonic acid as the binder catalyst of Thermal Analysis and, Journal Calorimetry, 116. ; Bobrowski (null), Harmfulness assessment of moulding sands with a geopolymer binder and a new hardener , in an aspect of the emission of substances from the BTEX group of and, Archives Metallurgy Materials, 2015. ; Totten (2004), Handbook of Metallurgical Process Design Marcel New York, null, 29. ; Fabbri (2006), Evaluating emission levels of polycyclic aromatic hydrocarbons from organic materials by analytical pyrolysis of and Pyrolysis https org, Journal Analysis Applied, 150, ; Grefhorst (2010), Reduction of greensand emissions by minimum - case study, China Foundry, 11, 419. ; Bates (2007), Mold Gas Porosity in Castings Foundry Technology, Evolution Management, 24, 135. ; Monroe (2005), Porosity in Castings Transactions, null, 26, 113. ; Liang (2010), Composition and yield of the pernicious and stench gases in furan sand model founding process Sustainable Environment Research, null, 20, 115. ; Bates (1977), Decomposition of resin binders and the relationship between the gases formed and the casting surface quality - part Transactions, null, 22, 1. ; Makhathinia (2017), Investigation of BTEX compounds adsorption onto polystyrenic resin South African of https org, Journal Chemical Engineering, 23, ; Łucarz (2014), The effect of mechanical and thermal reclamation on the matrix of quartz grain state, null, 19. ; Bobrowski (2013), Analysis of gases emitted during a thermal decomposition of the selected phenolic binders, Metalurgia International, 18, 259. ; Durmusoglu (2010), risk assessment of BTEX emissions in the landfill environment of, Health Journal Hazardous Materials, 176. ; Holtzer (2012), Harmfulness of moulding sands with bentonite and lustrous carbon carriers, Metalurgija, 51, 437. ; Kubecki (2016), Evaluation of the influence of the reclaimed addition on the amount of compounds from BTEX group generated during pouring molten metal into the form, null, 23, 67. ; Łucarz (null), Setting temperature for thermal reclamation of used moulding sands on the basis of thermal analysis, Metalurgija, 15, 2015. ; Cacho (2016), Gas chromatography - mass spectrometry using microvial insert thermal desorption for the determination of BTEX in edible oils RSC Advances, null, 6, 20886. ; Tiedje (2010), Emission of organic compounds from mould and core binders used for casting iron aluminium and bronze in sand moulds of Part, Journal Environmental Science Health, 1866. ; Holtzer (2017), Station for research of the volume and harmfulness of gases compounds from the materials used in foundry and metallurgical processes Polish patent, null, 1. ; Zhang (2002), Gas Evolution from Resin - Bonded Sand Cores Prepared by Various Processes Metallurgical and Technology, Science, 20, 27. ; Bates (1975), Decomposition of resin binders and the relationship between the gases formed and the casting surface quality - part Transactions, null, 20, 1. ; Grygierczyk (2016), Chromatographic analysis of organic compounds on impregnated chemically bonded stationary phases part, Acta chromatographica, 17, 39.