1 |
Bae SW. Flowing and Strength Properties According to the Change of Replacement Ratio of Inorganic Composite Mortar by Using Waste Pottery. Korea concrete institute. 2012. Nov;24(02):815-6
|
2 |
Kang SP. Effect by Unit water Content and Mixing proportion of Phosphate with Magnesium used in Magnesia Phosphate Composite. korea concrete institute. 2012. May;24(01):717-8
|
3 |
Kim. BK. Properties According to the Components of the Ultra Rapid Hardening Magnesia Phosphate Cement. Architecture institute of korea. 2011. Nov;11(01):533-8.
|
4 |
Park CS. Engineering Properties of the Finishing Concrete Panel According to the Grading of the Coarse Aggregate. Architecture institute of korea. 2011. Dec;12(04):241-8.
|
5 |
Son JS. Manufacture of Artificial stone using Wasts Stone and Powder Sludge. The Korean Institute of Resources Recycling. 1995. Nov;04(01):4-11
과학기술학회마을
|
6 |
Kim CH. Hydrothermal Preparation of Artificial Stone Plate from Stone Powder Sludge. Korean Crystallographic Association. 2001. Dec;12(04):216-21
과학기술학회마을
|
7 |
Sin HW. Manufacturing Technique of Inorganic Foam Material Using Fly-ash and Cullet. Korean Recycled construction resource institute. 2012. Nov;12(02):56-7
|
8 |
Hwang SS. The Effect of Waste Glass Sludge on Concrete Scaling Resistance. Korea concrete institute. 2013. May;25 (01):115-6
DOI
|
9 |
Park SB. Experimental Study on Physical and Mechanical Properties of Concrete with fine Waste Glass. Korea concrete institute. 2001. Apr;13(02):184-91
과학기술학회마을
|
10 |
Ryu HK. A Study on the Physical Properties of Recycled Aggregates Using Concrete of Changing Waste Pottery Blain Fineness. Korean Recycled construction resource institute. 2011. Jun;06(02):119-27
과학기술학회마을
|