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A platform for research: civil engineering, architecture and urbanism
Energy-saving high-temperature light-weight composite brick
An energy-saving high-temperature light-weight multiphase brick belongs to the technical field of novel bricks and comprises a brick body, a hard layer is arranged in the middle of the interior of the brick body, sparse layers are arranged on the upper side and the lower side of the hard layer, and polishing layers are formed on the outermost layers of all parts of the brick body through polishing and grinding. The hard layer, the sparse layer and the polishing layer are all formed by mixing and stirring mullite particles, clay and other alkali-resistant materials according to a certain proportion, molding the mixture through a mold and then firing the mixture, and a large number of stable micropore structures exist in the structure formed by firing the mullite particles, the clay and the other alkali-resistant materials. An alignment groove B is formed in the middle of the top of the brick body in the length direction, an alignment groove A is formed in the top of the brick body in the width direction, a through hole penetrating through the brick body is formed in the middle in the brick body in the length direction, and heat dissipation grooves are fixedly formed in the middles of the two long side faces of the brick body in a concave mode. The mullite-alkali-resistant composite brick is made of light mullite and alkali-resistant materials in a complex phase mode, a stable micro-pore structure is formed in the brick, and the brick has the advantages of being high in strength, high in alkali corrosion resistance, low in heat conductivity, stable in high-temperature performance and the like.
一种节能型高温轻质复相砖,属于新型砖技术领域,包括砖体,砖体内中间设置为硬实层,硬实层上下两侧设置为疏质层,砖体各部位最表层通过抛光打磨形成抛光层,硬实层、疏质层、抛光层均由莫来石颗粒与黏土及其它耐碱材料通过一定比例混合搅拌后利用模具成型再进行烧制而成,莫来石颗粒与黏土及其它耐碱材料烧制成的结构中存在大量稳定的微气孔结构;砖体顶部中间沿长度方向开设一对位槽B,砖体顶部沿宽度方向开设一对位槽A,砖体内部中间沿长度方向开设一贯穿砖体的通孔,砖体两长侧面中间均内凹固定开设散热槽。采用轻质莫来石和耐碱材料复相制造,其内部形成稳定的微气孔结构,具有强度高,耐碱侵蚀性能强,导热率低,高温性能稳定等特性。
Energy-saving high-temperature light-weight composite brick
An energy-saving high-temperature light-weight multiphase brick belongs to the technical field of novel bricks and comprises a brick body, a hard layer is arranged in the middle of the interior of the brick body, sparse layers are arranged on the upper side and the lower side of the hard layer, and polishing layers are formed on the outermost layers of all parts of the brick body through polishing and grinding. The hard layer, the sparse layer and the polishing layer are all formed by mixing and stirring mullite particles, clay and other alkali-resistant materials according to a certain proportion, molding the mixture through a mold and then firing the mixture, and a large number of stable micropore structures exist in the structure formed by firing the mullite particles, the clay and the other alkali-resistant materials. An alignment groove B is formed in the middle of the top of the brick body in the length direction, an alignment groove A is formed in the top of the brick body in the width direction, a through hole penetrating through the brick body is formed in the middle in the brick body in the length direction, and heat dissipation grooves are fixedly formed in the middles of the two long side faces of the brick body in a concave mode. The mullite-alkali-resistant composite brick is made of light mullite and alkali-resistant materials in a complex phase mode, a stable micro-pore structure is formed in the brick, and the brick has the advantages of being high in strength, high in alkali corrosion resistance, low in heat conductivity, stable in high-temperature performance and the like.
一种节能型高温轻质复相砖,属于新型砖技术领域,包括砖体,砖体内中间设置为硬实层,硬实层上下两侧设置为疏质层,砖体各部位最表层通过抛光打磨形成抛光层,硬实层、疏质层、抛光层均由莫来石颗粒与黏土及其它耐碱材料通过一定比例混合搅拌后利用模具成型再进行烧制而成,莫来石颗粒与黏土及其它耐碱材料烧制成的结构中存在大量稳定的微气孔结构;砖体顶部中间沿长度方向开设一对位槽B,砖体顶部沿宽度方向开设一对位槽A,砖体内部中间沿长度方向开设一贯穿砖体的通孔,砖体两长侧面中间均内凹固定开设散热槽。采用轻质莫来石和耐碱材料复相制造,其内部形成稳定的微气孔结构,具有强度高,耐碱侵蚀性能强,导热率低,高温性能稳定等特性。
Energy-saving high-temperature light-weight composite brick
一种节能型高温轻质复相砖
WANG XIAOXIN (author) / JIANG LIQIANG (author) / YU RONGRONG (author)
2023-04-21
Patent
Electronic Resource
Chinese
IPC:
E04C
STRUCTURAL ELEMENTS
,
Bauelemente
Assembled light energy-saving composite permeable pavement brick
| European Patent Office | 2024