A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
High-temperature-resistant special material for simulation ceramic of fireplace and bathroom cabinet
The invention discloses a high-temperature-resistant special material for simulation ceramic of fireplace and bathroom cabinet, and relates to a high-temperature-resistant material. The method comprises the following steps: mixing a certain amount of magnesium oxide base material, magnesium chloride and auxiliary materials, and uniformly stirring the mixture; adding a certain amount of a dispersing agent into the mixture in the stirring process, then putting the mixture into a selected mold, and then putting a certain amount of alkaline fibers on the surface of the slurry of the mixture, so that the mixed material slurry and the basic fibers are fully permeated; subjecting the mixed material slurry to die falling after being shaped, and performing finishing after shaping is completed; and finally subjecting a finished product to forming die falling and performing standing treatment for at least 48 hours, then performing surface treatment and painting the surfaces with water-based paint. The magnesium oxide and the magnesium chloride are adopted as raw materials, the raw materials are mineral materials and completely meet the environmental protection requirement, meanwhile, the adopted water-based paint also belongs to an environment-friendly product, can be naturally degraded after being discarded, and further has the characteristics of high temperature resistance, fire resistance and water resistance.
壁炉及浴室柜仿真陶瓷用耐高温专用材料,它涉及一种耐高温材料。它取一定量的氧化镁基料、氯化镁和辅料进行混合,然后将其混合料搅拌均匀,在搅拌过程中往混合料中添加一定量的分散剂接着将混合料放入到选定的模具上,然后取一定量的碱性纤维放置在混合料浆液的表面上,让混合料浆液与碱性纤维充分渗透,待混合料浆液定型后落模,完成定型后进行修整,最后其成型落模经整修后的产品,将其放置至少48小时,再进行表面处理,并采用水性油漆进行表面涂装。本发明本发明采用氧化镁和氯化镁作为其原材料,该原材料为矿物料,完全符合环保要求,同时采用水性油漆也属于环保产品,当其被废弃后,可自然降解,还具有耐高温、防火和防水的特性。
High-temperature-resistant special material for simulation ceramic of fireplace and bathroom cabinet
The invention discloses a high-temperature-resistant special material for simulation ceramic of fireplace and bathroom cabinet, and relates to a high-temperature-resistant material. The method comprises the following steps: mixing a certain amount of magnesium oxide base material, magnesium chloride and auxiliary materials, and uniformly stirring the mixture; adding a certain amount of a dispersing agent into the mixture in the stirring process, then putting the mixture into a selected mold, and then putting a certain amount of alkaline fibers on the surface of the slurry of the mixture, so that the mixed material slurry and the basic fibers are fully permeated; subjecting the mixed material slurry to die falling after being shaped, and performing finishing after shaping is completed; and finally subjecting a finished product to forming die falling and performing standing treatment for at least 48 hours, then performing surface treatment and painting the surfaces with water-based paint. The magnesium oxide and the magnesium chloride are adopted as raw materials, the raw materials are mineral materials and completely meet the environmental protection requirement, meanwhile, the adopted water-based paint also belongs to an environment-friendly product, can be naturally degraded after being discarded, and further has the characteristics of high temperature resistance, fire resistance and water resistance.
壁炉及浴室柜仿真陶瓷用耐高温专用材料,它涉及一种耐高温材料。它取一定量的氧化镁基料、氯化镁和辅料进行混合,然后将其混合料搅拌均匀,在搅拌过程中往混合料中添加一定量的分散剂接着将混合料放入到选定的模具上,然后取一定量的碱性纤维放置在混合料浆液的表面上,让混合料浆液与碱性纤维充分渗透,待混合料浆液定型后落模,完成定型后进行修整,最后其成型落模经整修后的产品,将其放置至少48小时,再进行表面处理,并采用水性油漆进行表面涂装。本发明本发明采用氧化镁和氯化镁作为其原材料,该原材料为矿物料,完全符合环保要求,同时采用水性油漆也属于环保产品,当其被废弃后,可自然降解,还具有耐高温、防火和防水的特性。
High-temperature-resistant special material for simulation ceramic of fireplace and bathroom cabinet
壁炉及浴室柜仿真陶瓷用耐高温专用材料
ZHANG SONGBAI (author) / ZHANG HAIXIANG (author) / LI ZHIGUO (author)
2021-12-31
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
Manufacturing method of high-temperature-resistant bathroom cabinet simulation ceramic
| European Patent Office | 2023
Proportioning method of high-temperature-resistant material for fireplace
| European Patent Office | 2023