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Processing technology of magnesia carbon brick with high corrosion resistance
The invention discloses a processing technology of a high-corrosion-resistance magnesia carbon brick. The processing technology of the high-corrosion-resistance magnesia carbon brick comprises the following steps: (1) proportioning raw materials: proportioning magnesia particles, magnesia powder, magnesium alloy, graphite, coke, silicon carbide, phenolic resin and an antioxidant in proportion; (2) mixing the raw materials: mixing the magnesia particles, magnesia powder, magnesium alloy, graphite, coke, silicon carbide, phenolic resin and an antioxidant in proportion to prepare the raw materials. According to the high-corrosion-resistance magnesia carbon brick processing technology, the detection efficiency is poor, magnesia carbon bricks cannot be detected in batches, during detection, only a single sample can be simply detected, the samples cannot be detected in batches and in a centralized mode, a large number of magnesia carbon brick detection samples can be stored in the chemical pool in a centralized mode, and the detection efficiency is greatly improved. Moreover, samples can be detected in a classified manner, different types of samples can be detected in different time periods, and the strength of the corrosion resistance of the magnesia carbon brick is detected.
本发明公开了一种高耐腐蚀性的镁碳砖加工工艺,所述高耐腐蚀性的镁碳砖加工工艺的制作工艺其步骤如下:(1)配比原料:将镁砂颗粒、镁砂粉末、合金镁、石墨、焦炭、碳化硅、酚醛树脂、抗氧化剂按比例配比;(2)混合原料:将镁砂颗粒、镁砂粉末、合金镁、石墨、焦炭、碳化硅、酚醛树脂、抗氧化剂、配比混合制成原料。该高耐腐蚀性的镁碳砖加工工艺检测的效率较差,无法将镁碳砖成批量的进行检测处理,检测时,只能简单的对单个的样品进行检测,无法将样品分批次、批量,集中检测,本化工池中,可以集中存放大量镁碳砖检测的样品,并且可以对样品分类进行检测,分时间,对不同类的样品进行不同时间的检测,检测镁碳砖的耐腐蚀性能的强度。
Processing technology of magnesia carbon brick with high corrosion resistance
The invention discloses a processing technology of a high-corrosion-resistance magnesia carbon brick. The processing technology of the high-corrosion-resistance magnesia carbon brick comprises the following steps: (1) proportioning raw materials: proportioning magnesia particles, magnesia powder, magnesium alloy, graphite, coke, silicon carbide, phenolic resin and an antioxidant in proportion; (2) mixing the raw materials: mixing the magnesia particles, magnesia powder, magnesium alloy, graphite, coke, silicon carbide, phenolic resin and an antioxidant in proportion to prepare the raw materials. According to the high-corrosion-resistance magnesia carbon brick processing technology, the detection efficiency is poor, magnesia carbon bricks cannot be detected in batches, during detection, only a single sample can be simply detected, the samples cannot be detected in batches and in a centralized mode, a large number of magnesia carbon brick detection samples can be stored in the chemical pool in a centralized mode, and the detection efficiency is greatly improved. Moreover, samples can be detected in a classified manner, different types of samples can be detected in different time periods, and the strength of the corrosion resistance of the magnesia carbon brick is detected.
本发明公开了一种高耐腐蚀性的镁碳砖加工工艺,所述高耐腐蚀性的镁碳砖加工工艺的制作工艺其步骤如下:(1)配比原料:将镁砂颗粒、镁砂粉末、合金镁、石墨、焦炭、碳化硅、酚醛树脂、抗氧化剂按比例配比;(2)混合原料:将镁砂颗粒、镁砂粉末、合金镁、石墨、焦炭、碳化硅、酚醛树脂、抗氧化剂、配比混合制成原料。该高耐腐蚀性的镁碳砖加工工艺检测的效率较差,无法将镁碳砖成批量的进行检测处理,检测时,只能简单的对单个的样品进行检测,无法将样品分批次、批量,集中检测,本化工池中,可以集中存放大量镁碳砖检测的样品,并且可以对样品分类进行检测,分时间,对不同类的样品进行不同时间的检测,检测镁碳砖的耐腐蚀性能的强度。
Processing technology of magnesia carbon brick with high corrosion resistance
一种高耐腐蚀性的镁碳砖加工工艺
CAO LIYUN (author) / WANG XIAODONG (author) / TAN HONGGEN (author) / GONG YUCAI (author) / PENG REN (author) / ZHANG XUESONG (author) / YU XIAODONG (author) / LU XIANGWEI (author)
2024-12-13
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
Magnesia carbon brick with high thermal shock resistance
| European Patent Office | 2021