A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention discloses a production process of a microlite ecological floor, and belongs to the field of microlite floors. Adopted materials comprise main materials and auxiliary materials, specifically, the main materials include, by weight, 30-40 parts of calcium carbonate microlite, 30-40 parts of germanite, 20-30 parts of medical stone and 10-1 part of natural resin, and the auxiliary materials comprise, by weight, 5-10 parts of magnesium hydroxide particles, 5-10 parts of silicon dioxide, 5-10 parts of an antibacterial nanometer material, 5-10 parts of phenolic resin, 5-10 parts of a defoaming agent and 5-10 parts of modified urea resin. Materials are mixed at a high temperature to discharge moisture of the materials, then the materials are mixed at a low temperature to prevent the materials from caking and discoloring, the tempering effect is achieved through the two mixing modes of a cooling mode and a heating mode, and the stability of the materials can be improved.
本发明公开了一种微晶石生态地板的生产工艺,属于微晶石地板领域,其材料包括主材:碳酸钙微晶石、锗石、麦饭石、天然树脂,辅材:氢氧化镁颗粒、二氧化硅、抗菌纳米材料、酚醛树脂、消泡剂、改性脲醛树脂,原料配比重量份如下:碳酸钙微晶石30‑40份、锗石30‑40份、麦饭石20‑30份、天然树脂10‑1份,辅材:氢氧化镁颗粒5‑10份、二氧化硅5‑10份、抗菌纳米材料5‑10份、酚醛树脂5‑10份、消泡剂5‑10份、改性脲醛树脂5‑10份。本发明先通过高温进行混料排出物料水分,再通过低温进行混料防止物料结块和变色,通过一冷一热的两种混料方式起到了回火的作用,能够提高物料的稳定性。
The invention discloses a production process of a microlite ecological floor, and belongs to the field of microlite floors. Adopted materials comprise main materials and auxiliary materials, specifically, the main materials include, by weight, 30-40 parts of calcium carbonate microlite, 30-40 parts of germanite, 20-30 parts of medical stone and 10-1 part of natural resin, and the auxiliary materials comprise, by weight, 5-10 parts of magnesium hydroxide particles, 5-10 parts of silicon dioxide, 5-10 parts of an antibacterial nanometer material, 5-10 parts of phenolic resin, 5-10 parts of a defoaming agent and 5-10 parts of modified urea resin. Materials are mixed at a high temperature to discharge moisture of the materials, then the materials are mixed at a low temperature to prevent the materials from caking and discoloring, the tempering effect is achieved through the two mixing modes of a cooling mode and a heating mode, and the stability of the materials can be improved.
本发明公开了一种微晶石生态地板的生产工艺,属于微晶石地板领域,其材料包括主材:碳酸钙微晶石、锗石、麦饭石、天然树脂,辅材:氢氧化镁颗粒、二氧化硅、抗菌纳米材料、酚醛树脂、消泡剂、改性脲醛树脂,原料配比重量份如下:碳酸钙微晶石30‑40份、锗石30‑40份、麦饭石20‑30份、天然树脂10‑1份,辅材:氢氧化镁颗粒5‑10份、二氧化硅5‑10份、抗菌纳米材料5‑10份、酚醛树脂5‑10份、消泡剂5‑10份、改性脲醛树脂5‑10份。本发明先通过高温进行混料排出物料水分,再通过低温进行混料防止物料结块和变色,通过一冷一热的两种混料方式起到了回火的作用,能够提高物料的稳定性。
Production process of microlite ecological floor
一种微晶石生态地板的生产工艺
2020-10-16
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
/
B29C
Formen oder Verbinden von Kunststoffen
,
SHAPING OR JOINING OF PLASTICS
/
B29L
INDEXING SCHEME ASSOCIATED WITH SUBCLASS B29C, RELATING TO PARTICULAR ARTICLES
,
Index-Schema für besondere Gegenstände in Verbindung mit Unterklasse B29C
/
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
,
Ausbau von Bauwerken, z.B. Treppen, Fußböden
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Method for manufacturing microlite from high-temperature ferronickel alloy waste slag
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