Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Ceramic bearing plate and processing technology thereof
The invention relates to the technical field of ceramic materials, in particular to a ceramic bearing plate and a processing technology thereof. The processing technology comprises the steps: mixing and stirring sieved emery, a calcined A material and tremolite to be uniform, then adding resin adhesive is added, continuing stirring, obtaining a mixed powder material is, and then putting the mixed powder material a kiln furnace to be dried; quickly grinding into powder by a grinding machine after drying, filtering by a 60-mesh sieve to obtain first mixed powder, adding distilled water into the first mixed powder, stirring for the second time, drying and sieving to obtain second mixed powder, floating the second mixed powder, putting the second mixed powder into a mold to prepare a setter plate blank, and finally, putting the setter plate blank into a 1700 DEG C high-temperature kiln furnace to be sintered to prepare the setter plate, so that the prepared setter plate cannot deform, crack, stick to the plate, dye and react with sintered ceramic when the temperature is about 1400 DEG C, and the sintering quality of the ceramic is effectively improved.
本发明涉及陶瓷材料技术领域,尤其涉及一种陶瓷承烧板及其加工工艺,本发明采用过筛后的刚玉砂、煅烧的A料、透闪石混合搅拌均匀后加入树脂胶继续搅拌,得到混合粉体料,之后将混合粉体料放入窖炉中烘干,烘干后通过研磨机快速研磨至粉末,并通过60目筛子过滤,得到第一次混合粉体末,将第一次混合粉体末中加入蒸馏水,完成第二次搅拌、烘干、过筛,得到第二次混合粉体末,之后将第二次混合粉体末沉浮后,放入模具内制成承烧板胚件,最后将承烧板胚件放至1700℃高温窖炉中进行烧结制成承烧板,这样制得的承烧板能在保证温度为1400℃左右时,不变形、不炸裂、不粘板、不染色、不与烧结的陶瓷反应,并有效提高陶瓷烧结的质量。
Ceramic bearing plate and processing technology thereof
The invention relates to the technical field of ceramic materials, in particular to a ceramic bearing plate and a processing technology thereof. The processing technology comprises the steps: mixing and stirring sieved emery, a calcined A material and tremolite to be uniform, then adding resin adhesive is added, continuing stirring, obtaining a mixed powder material is, and then putting the mixed powder material a kiln furnace to be dried; quickly grinding into powder by a grinding machine after drying, filtering by a 60-mesh sieve to obtain first mixed powder, adding distilled water into the first mixed powder, stirring for the second time, drying and sieving to obtain second mixed powder, floating the second mixed powder, putting the second mixed powder into a mold to prepare a setter plate blank, and finally, putting the setter plate blank into a 1700 DEG C high-temperature kiln furnace to be sintered to prepare the setter plate, so that the prepared setter plate cannot deform, crack, stick to the plate, dye and react with sintered ceramic when the temperature is about 1400 DEG C, and the sintering quality of the ceramic is effectively improved.
本发明涉及陶瓷材料技术领域,尤其涉及一种陶瓷承烧板及其加工工艺,本发明采用过筛后的刚玉砂、煅烧的A料、透闪石混合搅拌均匀后加入树脂胶继续搅拌,得到混合粉体料,之后将混合粉体料放入窖炉中烘干,烘干后通过研磨机快速研磨至粉末,并通过60目筛子过滤,得到第一次混合粉体末,将第一次混合粉体末中加入蒸馏水,完成第二次搅拌、烘干、过筛,得到第二次混合粉体末,之后将第二次混合粉体末沉浮后,放入模具内制成承烧板胚件,最后将承烧板胚件放至1700℃高温窖炉中进行烧结制成承烧板,这样制得的承烧板能在保证温度为1400℃左右时,不变形、不炸裂、不粘板、不染色、不与烧结的陶瓷反应,并有效提高陶瓷烧结的质量。
Ceramic bearing plate and processing technology thereof
一种陶瓷承烧板及其加工工艺
WANG DAIBIN (Autor:in) / WU YUHONG (Autor:in)
23.07.2021
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME
/
F27D
Einzelheiten oder Zubehör für Industrieöfen, Schachtöfen, Brennöfen oder Retorten, soweit sie nicht auf eine Ofenart eingeschränkt sind
,
DETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
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