CAJ | 학술논문

将天然麦饭石与Al_2O_3、MgO、TiO_2、ZrO_2进行混合烧结,通过XRD、IR、红外热效应、红外辐射检测等测试,结果表明,Al_2O_3 -MgO-TiO_2-ZrO_2系远红外材料在麦饭石的加入后烧结,有堇青石的生成,所显示的衍射峰分别对应于六方结构堇青石的(112)、(202)、(211)特征峰,(100)晶面衍射峰为堇青石的最强峰;所制基元材料红外热效应明显,A7、MA7 10min的温升分别能够达48.2、51.3℃;红外辐射率分别为0.83、0.86.将制备的远红外基元材料加入到涂料中,涂料红外发射率为0.85.
장천연맥반석여Al_2O_3、MgO、TiO_2、ZrO_2진행혼합소결,통과XRD、IR、홍외열효응、홍외복사검측등측시,결과표명,Al_2O_3 -MgO-TiO_2-ZrO_2계원홍외재료재맥반석적가입후소결,유근청석적생성,소현시적연사봉분별대응우륙방결구근청석적(112)、(202)、(211)특정봉,(100)정면연사봉위근청석적최강봉;소제기원재료홍외열효응명현,A7、MA7 10min적온승분별능구체48.2、51.3℃;홍외복사솔분별위0.83、0.86.장제비적원홍외기원재료가입도도료중,도료홍외발사솔위0.85.
In this thesis, natural medical stone was mix-sintered with Al_2O_3,MgO,TiO_2,ZrO_2 and through these test, such as XRD,IR,ultra-red ray effect,infrared radiation detection,the result shows:Al_2O_3-MgO-TiO_2-ZrO_2 were sintered after adding medical stone into far infrared material, and cordierite was formed,the diffraction peak which shows corresponds to the cordierite hexagonal structure,(110) diffraction peak of crystal face is the strongest peak of cordierite;the ultra-red ray effect of make element material obvious,exotherm of A7,MA7 10min can reach to 48.2,51.3℃ separately;the ratioin of infrared radiation is 0.83,0.86 separately.Adding made-up infrared element material into coating,the infrared remittance of coating is 0.85.