Research Article
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Workwear fabric suitability to molten metal industry

Year 2020, Volume: 30 Issue: 4, 289 - 295, 29.12.2020
https://doi.org/10.32710/tekstilvekonfeksiyon.738092

Abstract

In the scope of the foundry processes, there are vital risks when melting of metals at high temperatures, carrying this molten metal to molds and pouring it to molds. In this study, wide range of workwear materials which are used in foundries in Turkey were collected and their protection properties were investigated to observe their performances. Determining suitable material to molten metal processing was aimed. These workwear materials were produced from FR-cotton, cotton denim, modacrylic-viscose-FR cotton, meta-aramid, aluminized aramid, FR viscose-wool-polyamide and leather. Their performances were very different. Except from meta-aramid and both of the FR cotton fabrics, other fabrics failed flame spread. Contrary to flame spread, leather, aluminized aramid, FR viscose-wool-polyamide and cotton denim materials showed the highest values in molten metal protection test. Besides, leather had no air permeability but has some water vapor permeability and aluminized aramid has poor air and water permeabilities.

Supporting Institution

Dokuz Eylül Üniversitesi BAP Birimi

Project Number

2013.KB.FEN.032

Thanks

This work was supported by Dokuz Eylul University under Grant number 2013.KB.FEN.032. The authors wish to thank to Ege University Leather Engineering Department for leather experiments and to Dokuz Eylul University Metallurgical and Materials Engineering for melting processes of aluminium. This study was presented in 7th European Conference on Protective Clothing.

References

  • Referans1. Tudoksad (Turkish Foundry Association), 2020, April 20, We add value to metals, retrieved from https://www.tudoksad.org.tr/upload/files/Dokum_Sanayi_Bilgi_Foyu.pdf
  • Referans2. Mäkinen, H. 2013. Flame Resistant Textiles for Molten Metal Hazards, In F.S. Kilinc (Ed.), Handbook of Fire Resistant Textiles, Cambridge: Woodhead Publishing Limited, pp.581-602.
  • Referans3. Barker, R., Yener, M. 1981. Evaluating the Resistance of Some Protective Fabrics to Molten Iron, Textile Research Journal 1981; 51; 533
  • Referans4. Benisek, L., Edmondson, G.K., Philips, W.A. 1979. Protective Clothing—Evaluation of Wool and Other Fabrics Textile Research Journal 1979; 49; 212
  • Referans5. Benisek, L., Edmondson, G.K., 1981. Protective Clothing Fabrics: Part I. Against Molten Metal Hazards1 Textile Research Journal 1981; 51; 182
  • Referans6. Proctor, T.D. and Thompson, H. 1992. Effect of Fabric Finish On the Adhesion of Molten Metal to Wool, Performance of Protective Clothing: Fourth Volume, ASTM STP 1133, James P. McBriarty and Norman W.Henry, Eds., American Society for Testing and Materials, Philadelphia
  • Referans7. Benisek, L., Edmondson, G.K., 1984. Effect of Chrome Dyeing on Protection of Wool Against Molten Aluminium, Textile Research Journal 1984; 54; 214
  • Referans8. Coughlan, J.E. 1992. Protective Clothing Development at New Zealand Aluminum Smelters Ltd., Performance of Frotective Clothing; Fourth Volume, ASTM STP 1135, J. P. McBriarty and N. W. Henry, Eds., American Society for Testing and Materials, Philadelphaia, p.252
  • Referans9. Magnússon, V., Gunnarsson, G. & Jónsson, H. 2001. Safety Clothing for the Aluminium Industry, 1st International Conference and Workshop on Anode Rodding Plants for Primary Aluminium, Reykjavik, Iceland
  • Referans10. Mäkinen, H., Laiho, H., Pajunen, P., 1997. 'Evaluation of the Protective Performance of Fabrics and Fabric Combinations against Molten Iron,' Performance of Protective Clothing: Sixth Volume, ASTM STP 1273, Jeffrey O. Stull and Arthur D. Schwope, Eds., American Society for Testing and Materials,
  • Referans11. 11. Lee, M, 2009. Recent Developments In Australian Aluminium Casthouse Personal Protective Clothing, Materials Science Forum, Vol.630, pp.19-25.
  • Referans12. Gabara, V. 1994. High performance fibers 1: Aramid fibers, H. Brody, (Ed.), Synthetic fiber metarialism, New York: Longman publishing group. pp.239-260
  • Referans13. Hearle, J. W. S. ve Morton, W E. (2008), Physical properties of textile fibres (4th Ed.). Cambridge: Woodhead Publishing Limited.
  • Referans14. Fan, J. (2009). Durability of fabric and garment. J. Fan. ve L. Hunter, (Ed.), Engineering Apparel Fabrics and Garments. Boca Raton: Woodhead Publishing Limited. pp.161-195.
  • Referans15. Bunsell, A.R. (Ed.) 2009. Handbook of tensile properties of textile and technical fibres. United Kingdom: Woodhead Publishing Limited.
  • Referans16. Horrocks, A. R. 2014. High performance textile for heat and fire protection. C. Lawrence, (Ed.), High Performance Textile For Heat and Fire Protection. Cambridge: Woodhead Publishing Limited. pp.144-190.
Year 2020, Volume: 30 Issue: 4, 289 - 295, 29.12.2020
https://doi.org/10.32710/tekstilvekonfeksiyon.738092

Abstract

Project Number

2013.KB.FEN.032

References

  • Referans1. Tudoksad (Turkish Foundry Association), 2020, April 20, We add value to metals, retrieved from https://www.tudoksad.org.tr/upload/files/Dokum_Sanayi_Bilgi_Foyu.pdf
  • Referans2. Mäkinen, H. 2013. Flame Resistant Textiles for Molten Metal Hazards, In F.S. Kilinc (Ed.), Handbook of Fire Resistant Textiles, Cambridge: Woodhead Publishing Limited, pp.581-602.
  • Referans3. Barker, R., Yener, M. 1981. Evaluating the Resistance of Some Protective Fabrics to Molten Iron, Textile Research Journal 1981; 51; 533
  • Referans4. Benisek, L., Edmondson, G.K., Philips, W.A. 1979. Protective Clothing—Evaluation of Wool and Other Fabrics Textile Research Journal 1979; 49; 212
  • Referans5. Benisek, L., Edmondson, G.K., 1981. Protective Clothing Fabrics: Part I. Against Molten Metal Hazards1 Textile Research Journal 1981; 51; 182
  • Referans6. Proctor, T.D. and Thompson, H. 1992. Effect of Fabric Finish On the Adhesion of Molten Metal to Wool, Performance of Protective Clothing: Fourth Volume, ASTM STP 1133, James P. McBriarty and Norman W.Henry, Eds., American Society for Testing and Materials, Philadelphia
  • Referans7. Benisek, L., Edmondson, G.K., 1984. Effect of Chrome Dyeing on Protection of Wool Against Molten Aluminium, Textile Research Journal 1984; 54; 214
  • Referans8. Coughlan, J.E. 1992. Protective Clothing Development at New Zealand Aluminum Smelters Ltd., Performance of Frotective Clothing; Fourth Volume, ASTM STP 1135, J. P. McBriarty and N. W. Henry, Eds., American Society for Testing and Materials, Philadelphaia, p.252
  • Referans9. Magnússon, V., Gunnarsson, G. & Jónsson, H. 2001. Safety Clothing for the Aluminium Industry, 1st International Conference and Workshop on Anode Rodding Plants for Primary Aluminium, Reykjavik, Iceland
  • Referans10. Mäkinen, H., Laiho, H., Pajunen, P., 1997. 'Evaluation of the Protective Performance of Fabrics and Fabric Combinations against Molten Iron,' Performance of Protective Clothing: Sixth Volume, ASTM STP 1273, Jeffrey O. Stull and Arthur D. Schwope, Eds., American Society for Testing and Materials,
  • Referans11. 11. Lee, M, 2009. Recent Developments In Australian Aluminium Casthouse Personal Protective Clothing, Materials Science Forum, Vol.630, pp.19-25.
  • Referans12. Gabara, V. 1994. High performance fibers 1: Aramid fibers, H. Brody, (Ed.), Synthetic fiber metarialism, New York: Longman publishing group. pp.239-260
  • Referans13. Hearle, J. W. S. ve Morton, W E. (2008), Physical properties of textile fibres (4th Ed.). Cambridge: Woodhead Publishing Limited.
  • Referans14. Fan, J. (2009). Durability of fabric and garment. J. Fan. ve L. Hunter, (Ed.), Engineering Apparel Fabrics and Garments. Boca Raton: Woodhead Publishing Limited. pp.161-195.
  • Referans15. Bunsell, A.R. (Ed.) 2009. Handbook of tensile properties of textile and technical fibres. United Kingdom: Woodhead Publishing Limited.
  • Referans16. Horrocks, A. R. 2014. High performance textile for heat and fire protection. C. Lawrence, (Ed.), High Performance Textile For Heat and Fire Protection. Cambridge: Woodhead Publishing Limited. pp.144-190.
There are 16 citations in total.

Details

Primary Language English
Subjects Wearable Materials
Journal Section Articles
Authors

Bengi Kutlu

Tuğçem Bitgen

Project Number 2013.KB.FEN.032
Publication Date December 29, 2020
Submission Date May 18, 2020
Acceptance Date November 24, 2020
Published in Issue Year 2020 Volume: 30 Issue: 4

Cite

APA Kutlu, B., & Bitgen, T. (2020). Workwear fabric suitability to molten metal industry. Textile and Apparel, 30(4), 289-295. https://doi.org/10.32710/tekstilvekonfeksiyon.738092

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