Tezislər / Theses
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THE 3
rd INTERNATIONAL SCIENTIFIC CONFERENCES OF STUDENTS AND YOUNG RESEARCHERS dedicated to the 99 th anniversary of the National Leader of Azerbaijan Heydar Aliyev 387 have negative effect on the other properties of the foam, such as comfort and durability. Density, indentation force deflection (IFD), flex fatigue, durability test, and other physical parameters of flexible polyurethane foam can be employed when selecting foam cushioning for diverse purposes [4]. In one of the researches, it was found out that reinforcement of the polyurethane foams using artichoke fibers without increasing the thickness of the product positively affected the sound absorption properties of the foam, also more closed-packed smaller size pores has been achieved [5]. In another research, samples of polyurethane foams got more flexible and unbreakable as the amount of urea added rose, as did the density of the foam. However, as the percentage climbed, the samples became looser and more likely to burst. Additionally, when more urea powder is added, properties of polyurethane foam is affected in many aspects. The optimal ratio of urea to polyurethane was 5g of urea per 12 cm 3 of polyurethane, which increased the characteristics of polyurethane in terms of providing it superior flexibility (increases density), as well as a drop in the quantity of thermal conductivity, in addition to flame and fire resistance. Without the addition of urea, the polyurethane compounds were fragile and breakable; as greater proportions of urea were injected, the samples become flexible and unbreakable; nevertheless, as the percentage raised above 5.5%, the samples became loose and readily ruptured [6]. On the other hand, the sound absorption coefficient may be increased by 1.5 times by attaching tea-lead fibers to soft PU foam which means that the addition of tea-leaf fibers to PU increases sound absorption considerably [7]. References [1] Indrajeet Singh,Sushanta K. Samal,Smita Mohanty,Sanjay K. Nayak, "Recent Advancement in Plant Oil Derived Polyol-Based Polyurethane Foam for Future Perspective: A Review," European Journal of Lipid Science and Technology, p. 122, 30 November 2019. [2] "Polyurethane Foam Market by Type (Rigid Foam, Flexible Foam, Spray Foam), End-use Industry (Building & Construction, Bedding & Furniture, Automotive, Electronics, Footwear, Packaging) and Region - Global Forecast to 2026," Top Market Reports, December 2021. [3] Ritesh S. Malani , Vinod C. Malshe, Bhaskar Narayan Thorat, "Polyols and polyurethanes from renewable sources: past, present and future—part 1: vegetable oils and lignocellulosic biomass," 22 February 2021. [4] "In Touch," London, 2016. [5] Hilal Olcay, Emine Dilara Kocak, "The mechanical, thermal and sound absorption properties of flexible polyurethane foam composites reinforced with artichoke stem waste fibers," Journal of Industrial Textiles, 2020. [6] G. K. Saeed, "Improving the Properties of Polyurethane Foam by Adding Urea Powder," IOP Conference Series: Earth and Environmental Science, 2022. [7] Seçkin Çelebi and Haluk Küçük, "Acoustic Properties of TeaLeaf Fiber Mixed Polyurethane Composites," Cellular Polymers, vol. 31, pp. 241-251, 2012. |