Browse > Article
http://dx.doi.org/10.6111/JKCGCT.2016.26.1.028

Optimization of sintering process of the far-infrared radiation ceramic  

Park, Jae Hwa (Division of Materials Science and Engineering, Hanyang University)
Kim, Hyun Mi (Division of Materials Science and Engineering, Hanyang University)
Kang, Hyo Sang (Division of Materials Science and Engineering, Hanyang University)
Choi, Jae Sang (Division of Materials Science and Engineering, Hanyang University)
Choi, Bong Geun (Division of Materials Science and Engineering, Hanyang University)
Nam, Ki Woong (Hanbit Nano Ltd.)
Nam, Han Woo (Hanbit Nano Ltd.)
Shim, Kwang Bo (Division of Materials Science and Engineering, Hanyang University)
Publication Information
Journal of the Korean Crystal Growth and Crystal Technology / v.26, no.1, 2016 , pp. 28-34 More about this Journal
Abstract
Far-infrared radiation ceramic is an attractive material that provides thermal therapy by permeating the infrared rays into the deep inside of the human skin. Therefore, it is currently used for thermal therapy devices, thermal mat, heating equipment and so on. This work aims to optimize the sintering process of the far-infrared radiation ceramic with the process parameters of temperature and time. A variety of characterization tools have been used to investigate the optimal sintering condition of far-infrared radiation. The phase of far-infrared radiation ceramic was characterized by using X-ray diffraction (XRD) and microstructure of fracture surface was studied by scanning electron microscopy (SEM). The FT-IR was also performed to measure the far-infrared emissivity.
Keywords
Far-infrared ray; Ceramic; Far-infrared radiation ceramic; Sintering process;
Citations & Related Records
Times Cited By KSCI : 6  (Citation Analysis)
연도 인용수 순위
1 L. Jinsheng, W. Kuhyab, X. Gangke, M. Junping and D. Yan, "Far Infrared Radiation Property of Rare Earth Mineral Composite Materials", J. Rare Earth 24 (2006) 281.
2 D. Zhang, J. Liang, Y. Ding, J. Meng and G. Zhang, "Inhibition of water activated by far infrared functional ceramics on proliferation of hepatoma cells", J. Nanosci. Nanotechno. 14 (2014) 3817.   DOI
3 Y.-C. Chen, L.-C. Lai, Y.-P. Tu, S.-D. Wu, C.-F. Chen and B. Li, "Far infrared ray irradiation attenuates apoptosis and cell death of cultured keratinocytes stressed by dehydration", J. Phtochem. Phtobiol. B: Biology 106 (2012) 61.   DOI
4 C.-Y. Huang, K.-H. Hsu, J.-H. Chen and R.-S. Yang, "Treating severe phantom limb pain by applying far infrared ray to 'phantom limb'", J. Formos. Med. Assoc. (2015) 1.
5 Y. Hamada, F. Teraoka, T. Matsumoto, A. Madachi, F. Toki, E. Uda, R. Hase, J. Takahashi and N. Matsuura, "Effect of far infrared ray on Hele cells and WI-38 cells", Int. Congr. Ser. 1255 (2003) 339.   DOI
6 H.K. Lee, S.G. Kang, C.K. Lee, Y.H. Jang, S.D. Min, S.J. Kim and M.H. Lee, "Physiological influences caused by warming effect of far-infrared radiation in body temperature", Kor. Inst. Elect. Eng. (2003) 21.
7 L. Jie, M. Junping, L. Jinsheng and H. Xiaoli, "Effect of far infrared radiation ceramics containing rare earth additives on surface tension of water", J. Rare Earth 32 (2014) 890.   DOI
8 J.Y. Ju, Y.D. Shin, T.H. Ko and J.H. Lee, "Development of far infrared ray-ceramic dryer", Kor. Inst. Elec. Eng. (2008) 171.
9 J.S. Park, "The application and producing of high-bio full fat activated soybean flour by electron wave drying soybean with far-infrared", J. Kor. Soc. Ind. Info. Syst. 7 (2002) 32.
10 J. Meng, J. Liang, J. Liu, Y. Ding and K. Gan, "Effect of heat treatment on the far-infrared emission spectra and fine structures of black tourmaline", J. Nanosci. Nanotechnol. 14 (2014) 3607.   DOI
11 W.S. Park, "Effects and radiation of far infrared ray", Proceedings of Kor. Jungshin Sci. Symposium 18 (2003) 124.
12 S.W. Jung, "Anion generation and far-infrared radiation materials", Kor. Inst. Illumination Elect. Installation Eng. 19 (2005) 16.   DOI
13 H.K. Lee and K.M. Lee, "Far infrared radiation characteristics of germanium compounds", J. Kor. Ind. Eng. Chem. 17 (2006) 597.
14 B.H. Cho, "Manufacture of the far infrared ray emission materials and analysis of the characterization of materials", J. Analytical Sci. Tech. 21 (2008) 279.
15 D. Zhu, A. Xu and J. Liang, "Effect of morphology of dispersed nano-CeO2 on far infrared emission property of natural tourmaline", J. Nanosci. Nanotechnol. 11 (2011) 9594.   DOI
16 J. Liu, J. Meng, J. Liang, X. Duan, X. Hua and Q. Tang, "Effect of rare earth Ce on the far infrared radiation property of iron ore tailings ceramics", MRS Bull. 66 (2015) 26.   DOI
17 S. Music, N. Filipovic-Vincekovic and L. Sekovanic, "Precipitation of amorphous $SiO_2$ particles and their properties", Braz. J. Chem. Eng. 28 (2011) 89.   DOI
18 U.S. Lee, and K. Kim, "The effect of the surface activation treatment on the crtstallization of amorphous silicon thin film", J. Korean Cryst. Growth Cryst. Technol. 9 (1999) 173.
19 D.S Kim, S.J. Kim, K. Rahno, S.B. Park, S.S. Park, H.J. Lee, S.W. Lee, K.S. Cho, H.S. Woo and J.H. Ahn, "Fabrication and sintering of nano TiNx and its composites", J. Korean Cryst. Growth Cryst. Technol. 16 (2006) 101.
20 F. Vatansever and M.R. Hamblin, "Far infrared radiation (FIR): its biological effects and medical application", Photon Laser Med. 4 (2012) 255.
21 J.M. Kim, "Radiation measurement of the far-infrared and efficacy evaluation", Kor. Ins. Illuminating Elect. Installation Eng. 15 (2001) 23.
22 C.M. Lee, J.O. Park and T.S. Choi, "Far infrared radiation characteristics by temperature conversion of translation element oxides", Kor. Inst. Illumination Elect. Installation Eng. (1991) 18.
23 K.S. Kim, K.Y. Song, S.Y. Park, S. Kim, S.J. Kim and S.O. Yoon, "Properties of low temperature sintered porous ceramics from alumina-zinc borosilicate glass", J. Kor. Ceram. Soc. 46 (2009) 609.   DOI
24 T.S. Choi and C.S. Han, "Far-infrared radiation characteristics using the FT-IR", Ceramist 11 (1996) 30.