A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Fireproof energy-saving building material and preparation process thereof
The invention discloses a fireproof energy-saving building material. The building material comprises the following components in parts by mass: 20-30 parts of steel slag powder, 10-15 parts of modified kaolin, 4-6 parts of clay, 5-8 parts of asbestos, 10-15 parts of magnesium oxide, 15-20 parts of calcium oxide, 10-15 parts of fly ash, 2-5 parts of vermiculite, 1-3 parts of polyester fiber, 10-15parts of landscaping waste fiber, 3-5 parts of a flame retardant, 0.1-0.4 part of a foaming agent, 0.2-0.4 part of a leveling agent, 0.4-0.8 part of a thickening agent, 10-13 parts of water and 0.05-0.1 part of rare earth, wherein the rare earth comprises the following components in percentage by mass: 21-24% of cerium, 23-25% of praseodymium, 16-20% of neodymium, 11-14% of dysprosium and the balance of lanthanum, and the sum of the components of the lanthanide rare earth is 100%. The invention further relates to a preparation process of the fireproof energy-saving building material. The preparation process is simple and feasible and low in cost, and the prepared building material has good fireproof performance and good energy-saving effect.
本发明公开了一种防火节能的建筑材料,该建筑材料按质量份数计包括以下组分:钢渣粉:20‑30份,改性高岭土:10‑15份,粘土:4‑6份,石棉:5‑8份,氧化镁:10‑15份,氧化钙:15‑20份,粉煤灰:10‑15份,蛭石:2‑5份,聚酯纤维:1‑3份,园林绿化废弃物纤维:10‑15份,阻燃剂:3‑5份,发泡剂:0.1‑0.4份,流平剂:0.2‑0.4份,增稠剂:0.4‑0.8份,水:10‑13份,稀土:0.05‑0.1份,其中:稀土按质量比计为:铈:21‑24%,镨:23‑25%,钕:16‑20%,镝:11‑14%,其余镧,以上镧系稀土各组分之和为100%;本发明还涉及一种防火节能的建筑材料的制备工艺,该制备工艺简单易行,成本低廉,制备出的建筑材料具有良好的防火性能、节能效果好。
Fireproof energy-saving building material and preparation process thereof
The invention discloses a fireproof energy-saving building material. The building material comprises the following components in parts by mass: 20-30 parts of steel slag powder, 10-15 parts of modified kaolin, 4-6 parts of clay, 5-8 parts of asbestos, 10-15 parts of magnesium oxide, 15-20 parts of calcium oxide, 10-15 parts of fly ash, 2-5 parts of vermiculite, 1-3 parts of polyester fiber, 10-15parts of landscaping waste fiber, 3-5 parts of a flame retardant, 0.1-0.4 part of a foaming agent, 0.2-0.4 part of a leveling agent, 0.4-0.8 part of a thickening agent, 10-13 parts of water and 0.05-0.1 part of rare earth, wherein the rare earth comprises the following components in percentage by mass: 21-24% of cerium, 23-25% of praseodymium, 16-20% of neodymium, 11-14% of dysprosium and the balance of lanthanum, and the sum of the components of the lanthanide rare earth is 100%. The invention further relates to a preparation process of the fireproof energy-saving building material. The preparation process is simple and feasible and low in cost, and the prepared building material has good fireproof performance and good energy-saving effect.
本发明公开了一种防火节能的建筑材料,该建筑材料按质量份数计包括以下组分:钢渣粉:20‑30份,改性高岭土:10‑15份,粘土:4‑6份,石棉:5‑8份,氧化镁:10‑15份,氧化钙:15‑20份,粉煤灰:10‑15份,蛭石:2‑5份,聚酯纤维:1‑3份,园林绿化废弃物纤维:10‑15份,阻燃剂:3‑5份,发泡剂:0.1‑0.4份,流平剂:0.2‑0.4份,增稠剂:0.4‑0.8份,水:10‑13份,稀土:0.05‑0.1份,其中:稀土按质量比计为:铈:21‑24%,镨:23‑25%,钕:16‑20%,镝:11‑14%,其余镧,以上镧系稀土各组分之和为100%;本发明还涉及一种防火节能的建筑材料的制备工艺,该制备工艺简单易行,成本低廉,制备出的建筑材料具有良好的防火性能、节能效果好。
Fireproof energy-saving building material and preparation process thereof
一种防火节能的建筑材料及其制备工艺
YIN HUIJUN (author) / SUN FENG (author) / XIN JIGUANG (author) / XUE NINGYU (author)
2020-11-24
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME