References
- Bedek, G., Salaün, F., Martinkovska, Z., Devaux, E., & Dupont, D. (2011). Evaluation of thermal and moisture management properties on knitted fabrics and comparison with a physiological model in warm conditions. Applied Ergonomics, 42(6), 792–800.
- Bhattacharjee, D., & Kothari, V. K. (2008). Prediction of thermal resistance of woven fabrics. Part II: Heat transfer in natural and forced convective environments. Journal of the Textile Institute, 99(5), 433–449.
- Bheekhun, N., Abu Talib, A. R., & Hassan, M. R. (2013). Aerogels in aerospace: An overview. Advances in Materials Science and Engineering, 2013, 1–18.
- Fricke, J., & Tillotson, T. (1997). Aerogels: production, characterization, and applications. Thin Solid Films, 297(1-2), 212–223.
- Gurav, J. L., Jung, I.-K., Park, H.-H., Kang, E. S., & Nadargi, D. Y. (2010). Silica aerogel: Synthesis and applications. Journal of Nanomaterials, 2010, 1–11.
- Ivanov, P., Pashev, P., Hristov, Y., Bogdanov, B. I., & Raykova, R. (2013). Synthesis of silica xerogel. Scientific Work of the Russian University, 52(10.1), 65–68.
- Kim, C.-Y., Lee, J.-K., & Kim, B.-I. (2008). Synthesis and pore analysis of aerogel–glass fiber composites by ambient drying method. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 313-314, 179–182.
- Li, W., Ke, G., Li, G., & Xu, W. (2015). Study on the structure and properties of viscose/wool powder blended fibre — fibres & textiles in Eastern Europe. Fibres and Textiles in Eastern Europe, 1(109), 26–29.
- Liu, M., Yang, D., & Qu, Y. (2008). Preparation of super hydrophobic silica aerogel and study on its fractal structure. Journal of Non-Crystalline Solids, 354(45-46), 4927–4931. https://doi.org/10.1016/j.jnoncrysol.2008.06.023
- Mazraeh-Shahi, Z. T., Shoushtari, A. M., Bahramian, A. R., & Abdouss, M. (2014). Synthesis, structure and thermal protective behavior of silica aerogel/PET nonwoven fiber composite. Fibers and Polymers, 15(10), 2154–2159.
- Morris, G. J. (1953). Thermal properties of textile materials. Journal of the Textile Institute Transactions, 44(10), T449–T476.
- Morris, M. A. (1955). Thermal insulation of single and multiple layers of fabrics. Textile Research Journal, 25(9), 766–773.
- Murata, K. (1995). Heat and mass transfer with condensation in a fibrous insulation slab bounded on one side by a cold surface. International Journal of Heat and Mass Transfer, 38(17), 3253–3262.
- Parvinzadeh, M., & Ebrahimi, I. (2011). Atmospheric air-plasma treatment of polyester fiber to improve the performance of nanoemulsion silicone. Applied Surface Science, 257(9), 4062–4068.
- Schuster, J., Heider, D., Sharp, K., & Glowania, M. (2008). Thermal conductivities of three-dimensionally woven fabric composites. Composites Science and Technology, 68(9), 2085–2091.
- Stanković, S. B., Popović, D., & Poparić, G. B. (2008). Thermal properties of textile fabrics made of natural and regenerated cellulose fibers. Polymer Testing, 27(1), 41–48.
- Williams, J. T. (2009). Textiles for cold weather apparel. Sawston, UK: Woodhead Publishing.
- Woo, S. S., Shalev, I., & Barker, R. L. (1994). Heat and moisture transfer through nonwoven fabrics. Textile Research Journal, 64(3), 149–162.
- Yang, X., Sun, Y., Shi, D., & Liu, J. (2011). Experimental investigation of mechanical properties of a fiber-reinforced silica aerogel composite. Materials Science and Engineering: A, 528(13-14), 4830–4836.
- Yuan, B., Ding, S., Wang, D., Wang, G., & Li, H. (2012). Heat insulation properties of silica aerogel/glass fiber composites fabricated by press forming. Materials Letters, 75, 204–206.
- Zhao, J.-J., Duan, Y.-Y., Wang, X.-D., & Wang, B.-X. (2012). Radiative properties and heat transfer characteristics of fiber-loaded silica aerogel composites for thermal insulation. International Journal of Heat and Mass Transfer, 55(19–20), 5196–5204.