Applicatio: Lining aluminii fornacem liquefactionem
Integra fusura technologia fornax metallurgica est fornax metallurgica modus structurae in qua castella refractoria adhibentur ad refractorias materias pro corpore fornace uno tempore ejicere.Notae huius technologiae in sua integritate structurae bonae, nullis latericiis articulis, altiore robore altiore iacent, sic corpus fornacum diu usui vitae est.Experiri hanc technologiam in nonnullis fornacibus corporum metallurgicorum in industria domestica non-ferro.Temperatura fornacis circularis laborantis tam alta est quam 1200℃, et temperatura operantes fornacis stati alta est quam 1000℃.Fornax circularis fornacem summo detegendo et pascendo adoptat, parva fornax est remotionis scoria manualis cum tribus foris fornacibus, et fornax magna est operationis remotionis scoria mechanica cum duabus foris fornacibus.Materiae rudis sunt aluminium ingots, faece vectibus, profiles faece et aluminium orbiculata convoluta.Quaelibet fornax static etiam habet duas fores fornacis ad operationes pigri et expolitionis.In praeterito, corpus fornacis ex laterculis refractariis factum est, et aliquae partes facile corrumpebantur, ita ad vitam et productionem corporis fornacis efficientiam afficientes.In constructione Zhengzhou website, aluminium fornacem liquefactionem partim refractariis fundebat castables ut meliorem vitam corporis servitio altiore fornacis.
(1) Metal non-udus Castable
Model | BZL-90 | BZL-85 | BZL-80 | |
Chemical Analysis (%) | AL203 | ≥90 | ≥85 | ≥80 |
Max working Temperature (C) |
| 1700 | 1700 | 1600 |
Densitas (Kg/m3) | 110℃X24h | ≥3.0 | ≥2.9 | ≥2.85 |
Robur flexilis (Mpa) | 110℃X24h | ≥12 | ≥10 | ≥10 |
1100℃X3h | ≥15 | ≥14 | ≥12 | |
Compressive vires (Mpa) | 110℃X24h | ≥75 | ≥70 | ≥65 |
1100℃X3h | ≥90 | ≥85 | ≥80 | |
Permanens% linearis mutatio) | 1100℃X3h | ±0.35 | ±0.35 | ±0.35 |
aluminium agentis resistentiae %) |
| 3~5 | 3~5 | 3~5 |
Usus locis | Fornax deorsum, murus inferior fornax, scoria radendo, aggerem, recumbens, aluminium, lachryma et pyxidem corrumpens, etc. |
(2) Steel fibris Castable
Model | FHA-80 | FHA-75 | FHA-70 | |
Chemical Analysis (%) | AL203 | ≥80 | ≥75 | ≥70 |
Max working Temperature (C) |
| 1550 | 1500 | 1500 |
Densitas (Kg/m3) | 110℃X24h | ≥2.8 | ≥2.7 | ≥2.65 |
Robur flexilis (Mpa) | 110℃X24h | ≥12 | ≥10 | ≥9 |
1100℃X3h | ≥14 | ≥12 | ≥10 | |
Compressive vires (Mpa) | 110℃X24h | ≥75 | ≥70 | ≥70 |
1100° X3h | ≥85 | ≥75 | ≥70 | |
Permanens% linearis mutatio) | 1100℃X3h | 士0.4 | 士0.4 | 士0.4 |
Usus locis | Fornacis ostiumetostium,etalias partes |
(3) Maximum caementum Castable
Model | LC-70 | LC-65 | LC-60 | |
Chemical Analysis (%) | AL203 | ≥70 | ≥65 | ≥60 |
Max working Temperature (C) |
| 1500 | 1400 | 1350 |
Densitas (Kg/m3) | 110℃X24h | ≥2.65 | ≥2.6 | ≥2.6 |
Robur flexilis (Mpa) | 110℃X24h | ≥8 | ≥7 | ≥7 |
1100℃X3h | ≥10 | ≥9 | ≥7 | |
Compressive vires (Mpa) | 110℃X24h | ≥65 | ≥65 | ≥60 |
1100℃X3h | ≥75 | ≥75 | ≥70 | |
Permanens% linearis mutatio) | 1100℃X3h | 士0.45 | 士0.45 | 士0.45 |
Usus locis | Propter fornacemtop-murum et fornacem tecto et cetera |
(4) Lux Castable
Model | QZ-0.7 | QZ-1.0 | QZ-1.5 | |
Densitas (Kg/m3) | 110℃X24h | ≥0.7 | ≥1.0 | ≥1.5 |
Compressive vires (Mpa) | 110℃X24h | ≥2 | ≥5 | .16 |
Scelerisque conductivity | (700℃.W/mk) | 0.2 | 0.31 | 0.58 |
Usus locis | Nam in aliis partibus insulae, ut murus fornax et fornax tectum |