1 |
Hokkirigawa, K., T., T. Okabe, and K. Saito. 1996b. Friction properties of new porous carbon materials: woodceramics. J. Porous Materials. 2: 237-243.
DOI
|
2 |
Kano, M., M. Momota, T. Okabe, K. Saito, and R. Yamamoto. 1996. Thermo-gravimetric and differential thermal analysis of woodceramics. Transactions of the Materials Res. Soc. Jap. 20: 40-43.
|
3 |
Kasai, K., K. Shibata, K. Saito, and T. Okabe. 1996. Humidity sensor characteristics of woodceramics. Transactions of the Mater. Res. Soc. Japan 20: 92-95.
|
4 |
Okabe, T. and K. Saito. 1995a. Development of woodceramics. Transactions of the Material Research Society of Japan 18: 681-684.
|
5 |
Okabe, T. and K. Saito. 1995b. The examination of the manufacturing method of woodceramics(I) -Structural changes affected by burning temperature- International Ecomaterial Conference. Xian. China. P.1-4.
|
6 |
Okabe, T., K. Saito, H. Togawa, and Y. Kumagai. 1995a. Electromagnetic shielding characteristic of porous carbon material "woodceramics". International Ecomaterial Conference. Xian. China. p. 9-12.
|
7 |
Okabe, T., K. Saito, H. Togawa, and Y. Kumagai. 1995b. Development of porous carbon material "woodceramics"-Electromagnetic shielding characteristics-. J. Soc. Materials Sci. Jap. 44: 288-291.
DOI
|
8 |
Oh, S. W. 2002. Change of surface temperature in woodceramics made from MDF(I) - Effect of density and burning temperature. J. Kor. For. En. 21: 1-6.
|
9 |
Oh, S. W. and H. J. Park. 2010. A change in surface temperature of ceramics made from board mixed with sawdust and rice husk - Effect of resin impregnation and carbonization temperature. J. Korea Wood Sci. and Techn. 38: 43-48.
DOI
|
10 |
Oh, S. W., J. J. Piao, and H. S. Byeon. 2003. Change in surface temperature woodceramics manufactured by sawdust board - Effect of the rate of resin impregnation and burning temperature- J. Kor. For. En. 22: 24-29.
|
11 |
한국목재신문. 2002. 국내 마루시장의 과거와 미래. 한국목재신문사.
|
12 |
한국목재신문. 2004. 한국 온돌마루시장 현재와 미래. 한국목재신문사.
|
13 |
Cha, J. H., J. K. Seo, and S. M. Kim. 2011. Correlation analysis of the thermal conductivity heat flowmeter and MTPS(Modified Transient Plane Source) method using wood flooring and wall materials. J. Korea Furniture Soc. 22: 118- 125.
|
14 |
Hokkirigawa, K., T. Okabe, and K. Saito. 1995. Development of porous carbon material "woodceramics" -Fundamental wear properties under unlubricated condition on air, under base-oil impregnated condition and in water-. J. Soc. Materials Sci. Japan. 44: 800-804.
DOI
|
15 |
Hokkirigawa, K., T., T. Okabe, and K. Saito. 1996a. Wear properties of new porous carbon materials: woodceramics. J. Porous Materials. 2: 229-235.
DOI
|