A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention discloses a processing method of a refractory material. The processing method comprises the following steps: preparing raw materials including 70-82% of granules, 3%-6% of a carbon material, 3%-6% of liquid phenolic resin and 12%-28% of mixed powder; putting the granules into a mixer from a feeding hole of the mixer, and starting the mixer to enable the mixer to rotate for mixing; synchronously spraying the liquid phenolic resin into a premixing pipe in an atomized form through an atomizing nozzle of a liquid spraying box; synchronously starting a fan, and continuously feeding the carbon material and the mixed powder through a mixed material inlet; and after the carbon material and the mixed powder are completely fed, continuously rotating the mixer for 5-10 minutes, carryingout mixing to prepare a mud material, and discharging the mud material. Compared with the prior art, the processing method of the refractory material has the advantages that raw material cost is reduced, processing efficiency is improved, and resin balls are prevented from being generated.
本发明公开了一种耐火材料的加工方法,包括如下步骤:备原料,该原料包括如下组份:颗粒料70%‑82%;碳素料3%‑6%;液体酚醛树脂3%‑6%;混合粉12%‑28%;将颗粒料由混料机的入料口投入混料机内,开机转动进行混练;同步、将液体酚醛树脂通过喷液盒的雾化喷嘴以雾化形态喷入至预混料管;同步,开启风扇,经混料入料口连续投入碳素料和混合粉;待碳素料和混合粉投完后,使混料机继续转动5‑10分钟混料后制成泥料并出料。与相关技术相比,本发明的耐火材料的加工方法降低了原料成本、提高加工效率且避免树脂球产生。
The invention discloses a processing method of a refractory material. The processing method comprises the following steps: preparing raw materials including 70-82% of granules, 3%-6% of a carbon material, 3%-6% of liquid phenolic resin and 12%-28% of mixed powder; putting the granules into a mixer from a feeding hole of the mixer, and starting the mixer to enable the mixer to rotate for mixing; synchronously spraying the liquid phenolic resin into a premixing pipe in an atomized form through an atomizing nozzle of a liquid spraying box; synchronously starting a fan, and continuously feeding the carbon material and the mixed powder through a mixed material inlet; and after the carbon material and the mixed powder are completely fed, continuously rotating the mixer for 5-10 minutes, carryingout mixing to prepare a mud material, and discharging the mud material. Compared with the prior art, the processing method of the refractory material has the advantages that raw material cost is reduced, processing efficiency is improved, and resin balls are prevented from being generated.
本发明公开了一种耐火材料的加工方法,包括如下步骤:备原料,该原料包括如下组份:颗粒料70%‑82%;碳素料3%‑6%;液体酚醛树脂3%‑6%;混合粉12%‑28%;将颗粒料由混料机的入料口投入混料机内,开机转动进行混练;同步、将液体酚醛树脂通过喷液盒的雾化喷嘴以雾化形态喷入至预混料管;同步,开启风扇,经混料入料口连续投入碳素料和混合粉;待碳素料和混合粉投完后,使混料机继续转动5‑10分钟混料后制成泥料并出料。与相关技术相比,本发明的耐火材料的加工方法降低了原料成本、提高加工效率且避免树脂球产生。
| European Patent Office | 2023
REFRACTORY MATERIAL, REFRACTORY WALL MATERIAL, AND METHOD FOR MANUFACTURING REFRACTORY MATERIAL
| European Patent Office | 2021
Refractory material and method for manufacturing refractory coating from refractory material
| European Patent Office | 2021
| European Patent Office | 2021