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    Process method for producing foamed ceramic green building material by utilizing manganese slag

    New search for: WANG YONGHONG

    The invention discloses a process method for producing a foamed ceramic green building material by using manganese slag, and the method comprises the following steps of: S1, selecting the following raw materials: 60-75 parts of manganese slag, 20-30 parts of recycled glass and 3-6 parts of a foaming agent; S2, grinding the manganese slag and the recycled glass in the S1 through a vertical mill to obtain manganese slag powder and glass powder, and treating dust generated by powder grinding; and S3, mixing the prepared manganese slag powder, glass powder and the foaming agent according to a certain proportion. The foamed ceramic green building material produced by the invention has low thermal conductivity, a thermal conductivity coefficient of 0.08-0.16W/W/(m.K) and a thermal storage coefficient of more than or equal to 1.60W/(m2.K), is equivalent to thermal insulation mortar, has good thermal insulation performance, can be used as a thermal insulation material of an internal partition wall or an external wall external thermal insulation system, and is non-combustible and fireproof. The foamed ceramic green building material is formed by calcining at a high temperature of 1100DEG C or above, the combustion performance is A1 level, the sound insulation amount is 40 decibels, and the foamed ceramic green building material is the best material for toilets, partition walls and partition walls of high-grade residences, hotels, guesthouses and villas.

    本发明公开了一种利用锰渣生产发泡陶瓷绿色建材的工艺方法,包括以下步骤:S1:原料的选取,锰渣60‑75份、回收玻璃20‑30份和发泡剂3‑6份;S2:对步骤S1中的锰渣和回收玻璃通过立磨机进行磨粉处理,制得锰渣粉和玻璃粉,并对磨粉产生的粉尘进行处理;S3:将制备的锰渣粉、玻璃粉和发泡剂按照一定比例进行混合处理。本发明生产的该发泡陶瓷绿色建材具有热传导率低,导热系数为0.08~0.16W/W/(m·K),蓄热系数≥1.60W/(m2·K),与保温砂浆相当,隔热性能好,可充当内隔墙或外墙外保温系统的隔热材料,具有不燃、防火。经1100℃以上的高温煅烧而成,燃烧性能为A1级,隔音量40分贝,是高档住宅、酒店、宾馆、别墅的卫生间、隔墙、分户墙的最佳材料。

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    Process method for producing foamed ceramic green building material by utilizing manganese slag

    New search for: WANG YONGHONG

    The invention discloses a process method for producing a foamed ceramic green building material by using manganese slag, and the method comprises the following steps of: S1, selecting the following raw materials: 60-75 parts of manganese slag, 20-30 parts of recycled glass and 3-6 parts of a foaming agent; S2, grinding the manganese slag and the recycled glass in the S1 through a vertical mill to obtain manganese slag powder and glass powder, and treating dust generated by powder grinding; and S3, mixing the prepared manganese slag powder, glass powder and the foaming agent according to a certain proportion. The foamed ceramic green building material produced by the invention has low thermal conductivity, a thermal conductivity coefficient of 0.08-0.16W/W/(m.K) and a thermal storage coefficient of more than or equal to 1.60W/(m2.K), is equivalent to thermal insulation mortar, has good thermal insulation performance, can be used as a thermal insulation material of an internal partition wall or an external wall external thermal insulation system, and is non-combustible and fireproof. The foamed ceramic green building material is formed by calcining at a high temperature of 1100DEG C or above, the combustion performance is A1 level, the sound insulation amount is 40 decibels, and the foamed ceramic green building material is the best material for toilets, partition walls and partition walls of high-grade residences, hotels, guesthouses and villas.

    本发明公开了一种利用锰渣生产发泡陶瓷绿色建材的工艺方法,包括以下步骤:S1:原料的选取,锰渣60‑75份、回收玻璃20‑30份和发泡剂3‑6份;S2:对步骤S1中的锰渣和回收玻璃通过立磨机进行磨粉处理,制得锰渣粉和玻璃粉,并对磨粉产生的粉尘进行处理;S3:将制备的锰渣粉、玻璃粉和发泡剂按照一定比例进行混合处理。本发明生产的该发泡陶瓷绿色建材具有热传导率低,导热系数为0.08~0.16W/W/(m·K),蓄热系数≥1.60W/(m2·K),与保温砂浆相当,隔热性能好,可充当内隔墙或外墙外保温系统的隔热材料,具有不燃、防火。经1100℃以上的高温煅烧而成,燃烧性能为A1级,隔音量40分贝,是高档住宅、酒店、宾馆、别墅的卫生间、隔墙、分户墙的最佳材料。

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    Process method for producing foamed ceramic green building material by utilizing manganese slag

    New search for: WANG YONGHONG

    The invention discloses a process method for producing a foamed ceramic green building material by using manganese slag, and the method comprises the following steps of: S1, selecting the following raw materials: 60-75 parts of manganese slag, 20-30 parts of recycled glass and 3-6 parts of a foaming agent; S2, grinding the manganese slag and the recycled glass in the S1 through a vertical mill to obtain manganese slag powder and glass powder, and treating dust generated by powder grinding; and S3, mixing the prepared manganese slag powder, glass powder and the foaming agent according to a certain proportion. The foamed ceramic green building material produced by the invention has low thermal conductivity, a thermal conductivity coefficient of 0.08-0.16W/W/(m.K) and a thermal storage coefficient of more than or equal to 1.60W/(m2.K), is equivalent to thermal insulation mortar, has good thermal insulation performance, can be used as a thermal insulation material of an internal partition wall or an external wall external thermal insulation system, and is non-combustible and fireproof. The foamed ceramic green building material is formed by calcining at a high temperature of 1100DEG C or above, the combustion performance is A1 level, the sound insulation amount is 40 decibels, and the foamed ceramic green building material is the best material for toilets, partition walls and partition walls of high-grade residences, hotels, guesthouses and villas.

    本发明公开了一种利用锰渣生产发泡陶瓷绿色建材的工艺方法,包括以下步骤:S1:原料的选取,锰渣60‑75份、回收玻璃20‑30份和发泡剂3‑6份;S2:对步骤S1中的锰渣和回收玻璃通过立磨机进行磨粉处理,制得锰渣粉和玻璃粉,并对磨粉产生的粉尘进行处理;S3:将制备的锰渣粉、玻璃粉和发泡剂按照一定比例进行混合处理。本发明生产的该发泡陶瓷绿色建材具有热传导率低,导热系数为0.08~0.16W/W/(m·K),蓄热系数≥1.60W/(m2·K),与保温砂浆相当,隔热性能好,可充当内隔墙或外墙外保温系统的隔热材料,具有不燃、防火。经1100℃以上的高温煅烧而成,燃烧性能为A1级,隔音量40分贝,是高档住宅、酒店、宾馆、别墅的卫生间、隔墙、分户墙的最佳材料。

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    Title:

    Process method for producing foamed ceramic green building material by utilizing manganese slag

    Additional title:

    一种利用锰渣生产发泡陶瓷绿色建材的工艺方法

    Contributors:

    WANG YONGHONG (author)

    Publication date:

    2021-04-23

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Chinese

    Classification:

    IPC:  C04B Kalk , LIME

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