Potential of Woolen Materials in Health Care

ingridha on 28. June 2011

Kirsi Laitala, Ingun Grimstad Klepp, Marit Kjeldsberg & Kjersti Eilertsen

Paper

Abstract

Woolen textiles may have more potential use areas within the health care than what they are used for today. They have many benefits such as being self-extinguishing, flexible, and having high isolation as well as moisture absorption properties. While absorbing moisture it releases heat, and as the evaporation rate is slow, woolen materials do not give a rapid chill that some other faster drying materials have. Therefore wool can hold lot of moisture before feeling wet. Due to wool’s potential to shrink in wash, the challenge has been how to wash wool to get it clean enough for health care use. Laboratory experiments were designed in order to see woolens’ tolerance to different washing treatments, as well as their properties related to soil repellence and stain removal.

The results showed that wool tolerates to be cooked without causing additional felting shrinkage, as well as spin dried at high velocity (at least 1400 rpm), as long as there is no mechanical action that could cause the fibers to get entangled. Therefore, the acceleration and slowing-down phases of spin-drying program have to be rapid, so that the centrifugal forces will keep the garments trapped in place against the walls of the drum. Especially untreated woolen fabrics showed good soil repellence against water based soils, as the outer layer of woolen materials is hydrophobic. However, if the staining occurred it was more difficult to get wool clean than synthetic fabrics. Cotton got even more soiling, but it tolerates more efficient washing and detergents than wool does. Wool has potential to replace some of the materials that are more commonly used in health care today, such as cotton, polyester and polyamide, and improve the use properties without compromising the hygiene. The frequent washing of textiles cause wear and tear, creates extra work as well as environmental consequences. Woolen products are washed less frequently than products mare of other fibers. Therefore, an increase in the use of wool can be a way to reduce washing frequency.

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Potential for environmental improvements in laundering

ingridha on 14. February 2011

Kirsi Laitala, Casper Boks & Ingun Grimstad Klepp

Sammendrag

Life cycle assessment studies on clothes, detergents and washing machines show that the use period is usually the most energy-demanding period during these products’ life cycle, even higher than production or transportation phases. Laundering practices are constantly changing and influenced by social, cultural and moral norms. Even though the technologies in clothes cleaning have improved greatly, the length of time that consumers use for washing clothes has not been reduced. We own more clothing and wash it more frequently. This increased amount of washing counteracts the technological improvements in laundry.

This paper discussed the options of changing consumer habits in clothing maintenance to a more environmentally friendly direction and attempts to evaluate which changes would be the most feasible and efficient. Laboratory trial results on washing were compared with earlier research on consumers’ washing habits. Laboratory-based tests measuring cleaning effect, energy and water consumption were performed in order to evaluate the consequences of changing the washing temperature, filling grade, detergent dosage or drying method. The cleaning effect tests showed that today’s detergents are suitable for low temperature washing, and by selecting an efficient detergent, the cleaning result can be better at 30°C than with a less efficient detergent at 40°C. When washing only slightly soiled textiles or small loads of laundry, the detergent amount can be reduced. Many textiles changed more in colour or strength if they were washed at higher temperature(60°C) than at lower temperature (40°C or below). Tumble-dried textiles shrank more than line dried. These facts can be used to motivate consumers to change behaviour in order to reduce the environmental impacts of textile maintenance.

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