Investigation Barrier Properties of Linear Low Density Polyethylene (LLDPE) Spunbond Fabrics
Year 2019,
Volume: 31 - Özel Sayı II:, 92 - 96, 20.12.2019
Esin Sarıoğlu
,
Deniz Vuruşkan
Abstract
Nonwovens are a growing worldwide market that has a vital proposition in many sectors such as geotextile, medical textile, automotive industry etc. which are supported by technological developments according to the desired characteristics. Among the production methods of the nonwovens, spunbond nonwovens made of polyprophylene (PP) have disposable and durable functions and are preferred especially in the field of disposable hygiene textiles. Although the fabric volume market of PP spunbond nonwovens is expected to grow rapidly owing to personal hygiene awareness with an increase in the aging population and regulations for hygiene, polyethylene spunbond nonwovens can probably share the application area due to having a lower melting point and easy processable. This study evaluates the effect of the weight of linear low density polyethylene (LLDPE) spunbond nonwovens on barrier properties such as resistance to air flow and water. Results showed that weight has significant effect on air permeability and hydrostatic head pressure.
References
- Referans 1 Cheema, S.M., Shah, T.H., Anand, S.C. and Soin, N. (2018). Development and characterisation of nonwoven fabrics for apparel applications. J. Textile Sci. Eng., 8(3), 1-7.
- Referans 2 Polypropylene (PP) Nonwoven Fabric Market Size, Share & Trends Analysis Report By Application (Hygiene, Medical, Furnishings, Geotextiles), By Product (Meltblown, Staple, Spunbonded), And Segment Forecasts, 2019 – 2025, https://www.grandviewresearch.com/industry-analysis/polypropylene-nonwoven -fabric-market, (March 2019).
- Referans 3 PP (Polypropylene) Nonwoven, A versatile fabric, https://www.grandviewresearch.com/blog/pp- polypropylene-nonwoven-fabric-market-size-share, (February 2019).
- Referans 4 Mukhopadhyay, S. (2014). Natural and synthetic fibres for composite nonwovens. In: Composite nonwoven materials-structure, properties and applications, D. Das and B. Pourdeyhimi (ed.), 1. Edition, Woodhead Publishing, United Kingdom, p.22-23.
- Referans 5 Spunbonded Polyethylene, http://www.techtex.co.uk/industrial/products/non-woven/spunbonded- polyethylene, (March 2019).
- Referans 6 Yeşil, Y. and Bhat, G.S. (2016). Structure and mechanical properties of polyethylene melt blown nonwovens. International Journal of Clothing Science and Technology, 28 (6), 780-793.
- Referans 7 Bhat, G.S. and Malkan, S.R. (2007). Polymer-laid web formation. In: Handbook of nonwovens, S.J. Russell (ed.), 1. Edition, Woodhead Publishing, Cambridge, England, p.168-169.
Investigation Barrier Properties of Linear Low Density Polyethylene (LLDPE) Spunbond Fabrics
Year 2019,
Volume: 31 - Özel Sayı II:, 92 - 96, 20.12.2019
Esin Sarıoğlu
,
Deniz Vuruşkan
Abstract
Nonwovens are a growing worldwide market that has a
vital proposition in many sectors such as geotextile, medical textile,
automotive industry etc. which are supported by technological developments
according to the desired characteristics. Among the production methods of the
nonwovens, spunbond nonwovens made of polyprophylene (PP) have disposable and
durable functions and are preferred especially in the field of disposable
hygiene textiles. Although the fabric volume market of PP spunbond nonwovens is
expected to grow rapidly owing to personal hygiene awareness with an increase
in the aging population and regulations for hygiene, polyethylene spunbond
nonwovens can probably share the application area due to having a lower melting
point and easy processable. This study evaluates the effect of the weight of
linear low density polyethylene (LLDPE) spunbond nonwovens on barrier
properties such as resistance to air flow and water. Results showed that weight
has significant effect on air permeability and hydrostatic head pressure.
References
- Referans 1 Cheema, S.M., Shah, T.H., Anand, S.C. and Soin, N. (2018). Development and characterisation of nonwoven fabrics for apparel applications. J. Textile Sci. Eng., 8(3), 1-7.
- Referans 2 Polypropylene (PP) Nonwoven Fabric Market Size, Share & Trends Analysis Report By Application (Hygiene, Medical, Furnishings, Geotextiles), By Product (Meltblown, Staple, Spunbonded), And Segment Forecasts, 2019 – 2025, https://www.grandviewresearch.com/industry-analysis/polypropylene-nonwoven -fabric-market, (March 2019).
- Referans 3 PP (Polypropylene) Nonwoven, A versatile fabric, https://www.grandviewresearch.com/blog/pp- polypropylene-nonwoven-fabric-market-size-share, (February 2019).
- Referans 4 Mukhopadhyay, S. (2014). Natural and synthetic fibres for composite nonwovens. In: Composite nonwoven materials-structure, properties and applications, D. Das and B. Pourdeyhimi (ed.), 1. Edition, Woodhead Publishing, United Kingdom, p.22-23.
- Referans 5 Spunbonded Polyethylene, http://www.techtex.co.uk/industrial/products/non-woven/spunbonded- polyethylene, (March 2019).
- Referans 6 Yeşil, Y. and Bhat, G.S. (2016). Structure and mechanical properties of polyethylene melt blown nonwovens. International Journal of Clothing Science and Technology, 28 (6), 780-793.
- Referans 7 Bhat, G.S. and Malkan, S.R. (2007). Polymer-laid web formation. In: Handbook of nonwovens, S.J. Russell (ed.), 1. Edition, Woodhead Publishing, Cambridge, England, p.168-169.