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83 ปริ ญญา จิ นดาประเสริ ฐ, ยุวดี แซ่ตั้ ง วารสารราชบัณฑิตยสถาน ปีที่ ๓๙ ฉบับที่ ๒ เม.ย.-มิ.ย. ๒๕๕๗ the mechanical properties and thermal conductivity of lightweight concrete”, Energy and Buildings. Vol. 43, No. 2–3, pp. 671-676. Sumanasooriya, M.S. and N. Neithalath, 2011, “Pore structure features of pervious concretes pro- portioned for desired porosities and their performance prediction”, Cement and Concrete Composites. Vol. 33, No. 8, pp. 778-787. Tho-in, T., V. Sata, P. Chindaprasirt, and C. Jaturapitakkul, 2012, “Pervious high-calcium fly ash geopolymer concrete”, Construction and Building Materials. Vol. 30, No. 5, pp. 366-371. Ünal, O., T. Uygunoğlu, and A. Yildiz, 2007, “Investigation of properties of low-strength lightweight concrete for thermal insulation”, Building and Environment. Vol. 42, No. 2, pp. 584-590. Uysal, H., R. Demirboğa, R. Şahin, and R. Gül, 2004, “The effects of different cement dos - ages, slumps, and pumice aggregate ratios on the thermal conductivity and density of concrete”, Cement and Concrete Research. Vol. 34, No. 5, pp. 845-848. Wang, K., V.R. Schaefer, J.T. Kevern, and M.T. Suleiman, 2006, “Development of mix proportion for functional and durable pervious concrete.” in Proceedings in CD of the 2006 Concrete Technology Forum. Nashville: National Ready Mix Concrete Association. Wong, J.M., F.P. Glasser, andM.S. Imbabi, 2007, “Evaluation of thermal conductivity in air perme - able concrete for dynamic breathing wall construction”, Cement and Concrete Composites. Vol. 29, No. 9, pp. 647-655. Yang, J. and G. Jiang, 2003, “Experimental study on properties of pervious concrete pavement materials”, Cement and Concrete Research. Vol. 33, No. 3, pp. 381-386. Zaetang, Y., A. Wongsa, V. Sata, and P. Chindaprasirt, 2013, “Use of lightweight aggregates in pervious concrete”, Construction and Building Materials. Vol. 48, No.11, pp. 585-591.