■ Feature
Dense zircon brick ZS-65 is a kind of fire brick. The zircon content of it is equal to or greater than 65 percent. It possesses many advantages as high bulk density, low apparent porosity, high cold crushing strength and high refractoriness under load. It is widely used in glass industry and metallurgical industry.
► Applications
Dense Zircon brick is widely used in the upper area of flame space and frequent thermal shock region of alkali-free or low-alkali glass, sodium-calcium glass, boron-silicate glass, lead glass and other technical glass melting furnace. It can be also used in transition region between up roof silica brick and fusion zirconia-corundum brick or fusion zirconia-mullite brick, transition region between silica brick and magnesia brick, crown, burner, thermal couple, peep hole, secondary layer of melting bottom and back lining. In addition, it is also applied as the ladle lining for metallurgical industry.
The main applications:
It is mainly applied in the neutral course in tank superstructure and sealing course in tank bottom.
► Advantages
High density;
Superior quality;
Accurate size tolerance;
Luster apperance;
High bulk density;
Low apparent porosity;
High cold crushing strength;
High refractoriness under load.
► Applications
Dense Zircon brick is widely used in the upper area of flame space and frequent thermal shock region of alkali-free or low-alkali glass, sodium-calcium glass, boron-silicate glass, lead glass and other technical glass melting furnace. It can be also used in transition region between up roof silica brick and fusion zirconia-corundum brick or fusion zirconia-mullite brick, transition region between silica brick and magnesia brick, crown, burner, thermal couple, peep hole, secondary layer of melting bottom and back lining. In addition, it is also applied as the ladle lining for metallurgical industry.
The main applications:
It is mainly applied in the neutral course in tank superstructure and sealing course in tank bottom.
► Advantages
High density;
Superior quality;
Accurate size tolerance;
Luster apperance;
High bulk density;
Low apparent porosity;
High cold crushing strength;
High refractoriness under load.
■ Technical Data
Item | ZS-65 |
ZrO2 (%) | ≥65 |
SiO2 (%) | ≤33 |
Fe2O3(%) | ≤0.5 |
Apparent Porosity (%) | ≤18 |
Bulk Density (g/cm3) | ≥3.65 |
Cold Crushing Strength (Mpa) | ≥100 |
0.2Mpa Refractoriness Under Load T0.6 ℃ | ≥1650 |
Pyrometric Cone Equivalent S.C. SK | 40 |
Reversible Thermal Expansion 1000℃ % | 0.5 |
■ About Us
development history »
As adaptive case management (ACM) systems mature, we are moving beyond simple systems that allow knowledge workers to define ad hoc processes, to creating more intelligent systems that support and guide them. Knowledge workers still need to dynami-cally add information, define activities and collaborate with others in order to get their work done, but those are now just the table stakes in a world of big data and intelligent agents. To drive innovation and maintain operational efficiencies, we need to augment case work typically seen as relying primarily on human intelligence with machine intelligence. In other words, we need intelligent ACM.
Factory strength »
As adaptive case management (ACM) systems mature, we are moving beyond simple systems that allow knowledge workers to define ad hoc processes, to creating more intelligent systems that support and guide them. Knowledge workers still need to dynami-cally add information, define activities and collaborate with others in order to get their work done, but those are now just the table stakes in a world of big data and intelligent agents. To drive innovation and maintain operational efficiencies, we need to augment case work typically seen as relying primarily on human intelligence with machine intelligence. In other words, we need intelligent ACM.
Highly predictable work is easy to support using traditional programming techniques, while unpredictable work cannot be accurately scripted in advance, and thus requires the involvement of the knowledge workers themselves. The core element of Adaptive Case Management (ACM) is the support for real-time decision-making by knowledge workers.
As adaptive case management (ACM) systems mature, we are moving beyond simple systems that allow knowledge workers to define ad hoc processes, to creating more intelligent systems that support and guide them. Knowledge workers still need to dynami-cally add information, define activities and collaborate with others in order to get their work done, but those are now just the table stakes in a world of big data and intelligent agents. To drive innovation and maintain operational efficiencies, we need to augment case work typically seen as relying primarily on human intelligence with machine intelligence. In other words, we need intelligent ACM.
Factory strength »
As adaptive case management (ACM) systems mature, we are moving beyond simple systems that allow knowledge workers to define ad hoc processes, to creating more intelligent systems that support and guide them. Knowledge workers still need to dynami-cally add information, define activities and collaborate with others in order to get their work done, but those are now just the table stakes in a world of big data and intelligent agents. To drive innovation and maintain operational efficiencies, we need to augment case work typically seen as relying primarily on human intelligence with machine intelligence. In other words, we need intelligent ACM.
Highly predictable work is easy to support using traditional programming techniques, while unpredictable work cannot be accurately scripted in advance, and thus requires the involvement of the knowledge workers themselves. The core element of Adaptive Case Management (ACM) is the support for real-time decision-making by knowledge workers.