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Energy-saving composite material for active calcium oxide and novel construction process of lining structure
The invention relates to the technical field of active calcium oxide, and discloses an energy-saving composite material for active calcium oxide, which comprises the following raw materials by weight: 5-8 parts of limestone, 1-5 parts of active carbon, 3-7 parts of glass fiber, 2-6 parts of biochar, 1-3 parts of carboxymethyl cellulose, 2-7 parts of magnesium hydroxide, and 2-4 parts of diatomite. According to the energy-saving composite material for the active calcium oxide, the prepared active calcium oxide is added with the active carbon, the glass fiber, the biochar, the carboxymethyl cellulose, the magnesium hydroxide and the diatomite for processing, so that the energy-saving, environment-friendly and heat-insulating effects of the active calcium oxide are improved, and the biochar is added during proportioning, so that the environment-friendly and energy-saving effects are improved; the environment-friendly effect of the composite material is improved by adding the activated carbon and the glass fiber during proportioning, the glass fiber is beneficial to saving the cost of the material, and the thermal insulation effect of the composite material is improved by adding the carboxymethyl cellulose and the diatomite during proportioning.
本发明涉及活性氧化钙技术领域,且公开了活性氧化钙用节能复合材料,包括以下重量份数配比的原料:石灰石5‑8份、活性碳1‑5份、玻璃纤维3‑7份、生物碳2‑6份、羧甲基纤维素1‑3份、氢氧化镁2‑7份、硅藻土2‑4份。该活性氧化钙用节能复合材料,通过制备的活性氧化钙增加活性碳、玻璃纤维、生物碳、羧甲基纤维素和氢氧化镁以及硅藻土加工,提高了该活性氧化钙的节能环保以及保温的效果,通过配比时增加的生物碳,增加环保节能的效果,且在配比时增加的活性碳和玻璃纤维增加了该复合材料的环保的效果,且玻璃纤维有助于节约该材料的成本,通过在配比时增加的羧甲基纤维素和硅藻土,提高该复合材料的保温效果。
Energy-saving composite material for active calcium oxide and novel construction process of lining structure
The invention relates to the technical field of active calcium oxide, and discloses an energy-saving composite material for active calcium oxide, which comprises the following raw materials by weight: 5-8 parts of limestone, 1-5 parts of active carbon, 3-7 parts of glass fiber, 2-6 parts of biochar, 1-3 parts of carboxymethyl cellulose, 2-7 parts of magnesium hydroxide, and 2-4 parts of diatomite. According to the energy-saving composite material for the active calcium oxide, the prepared active calcium oxide is added with the active carbon, the glass fiber, the biochar, the carboxymethyl cellulose, the magnesium hydroxide and the diatomite for processing, so that the energy-saving, environment-friendly and heat-insulating effects of the active calcium oxide are improved, and the biochar is added during proportioning, so that the environment-friendly and energy-saving effects are improved; the environment-friendly effect of the composite material is improved by adding the activated carbon and the glass fiber during proportioning, the glass fiber is beneficial to saving the cost of the material, and the thermal insulation effect of the composite material is improved by adding the carboxymethyl cellulose and the diatomite during proportioning.
本发明涉及活性氧化钙技术领域,且公开了活性氧化钙用节能复合材料,包括以下重量份数配比的原料:石灰石5‑8份、活性碳1‑5份、玻璃纤维3‑7份、生物碳2‑6份、羧甲基纤维素1‑3份、氢氧化镁2‑7份、硅藻土2‑4份。该活性氧化钙用节能复合材料,通过制备的活性氧化钙增加活性碳、玻璃纤维、生物碳、羧甲基纤维素和氢氧化镁以及硅藻土加工,提高了该活性氧化钙的节能环保以及保温的效果,通过配比时增加的生物碳,增加环保节能的效果,且在配比时增加的活性碳和玻璃纤维增加了该复合材料的环保的效果,且玻璃纤维有助于节约该材料的成本,通过在配比时增加的羧甲基纤维素和硅藻土,提高该复合材料的保温效果。
Energy-saving composite material for active calcium oxide and novel construction process of lining structure
活性氧化钙用节能复合材料及衬里结构施工新工艺
SHEN JINLONG (author)
2022-09-09
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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