Free Baking Ramming Mixes for Iron Runner

Free Baking Ramming Mixes for Iron Runner Introduction

1. Strong plasticity.

2. Strong resistance to slag erosion, erosion resistance.

3. High compressive strength in high temperature environments.

Free baking ramming mixes is a refractory ramming material that can be put into use without baking. Ramming mixes is mainly used for lining and repairing blast furnace tapping ditch.The iron-free ditch-free baking slag is suitable for small and medium-sized blast furnaces with single tapping iron. Baking free ramming mixes construction is convenient and quick, and it does not need to be baked when used, which can greatly save maintenance time.

Free Baking Ramming Mixes for Iron Runner Features

1. The ditch lining is easy to repair and the construction time is short, when the battering is completed, it can be used directly without baking, and no cracking occurs after rapid drying. And it is used for roasting.

2. Baking-free ramming mixes refractory material has high thermal shock stability, and there is no cracking crack after use to avoid leakage of molten iron.

3. Refractory material has good oxidation resistance after being exposed to air and used in slag ditch.

1. Refractory ramming mixes product has good slag resistance and corrosion resistance, low adhesion to molten iron and slag, easy to be removed, high corrosion resistance and high corrosion resistance.

Free Baking Ramming Mixes for Iron Runner Specification

Brand		LR-ASC-1	LR-ASC-2	LR-ASC-3	LR-ASC-4
%,≥ Chemical composition	Al2O3	60	65	70	75
	SiC+C	18	16	15	14
g﹒cm-3,≥ Bulk density	200℃	2.42	2.50	2.60	2.70
MPa,≥ Crushing strength	200℃	15	15	20	20
	1450℃	30	30	35	35
% Firing linear change	1450℃	±0.6	±0.5	±0.4	±0.4
Application		Slag runner and small blast furnace trough		Main runner, slag separator and runner of middle and small blast furnace

Free Baking Ramming Mixes for Iron Runner Application

  

1. Free baking refractory ramming mixes is suitable for slag runner and small blast furnace trough

2. Refractory free baking refractory ramming mixes application in main runner, slag separator and runner of middle and small blast furnace

Free Baking Ramming Mixes for Iron Runner Construction Process

1. First clean the iron sump, so that it can be poured into the ditch without baking.

2. Refractory ramming material and the binder are mixed, and the mixed ramming material is finished within 2 hours.

3. Baking-free baking refractory material is poured into the iron ditch and beaten with a beating tool. According to the requirements of the technical department, the thickness of the construction is required to be layered and beaten to the thickness of the beating.

Free Baking Ramming Mixes for Iron Runner Manufacturer in RS Refractory Factory

Rongsheng refractory is constantly committed to quality management, process management and cost management, strives for internal strength, adheres to the development of science and technology, wins by quality and reputation, provides technical guidance services to provide customers with quality products and services. If you have any needs in this regard, you can always contact us at Rongsheng refractory and hope to establish long-term cooperation with your company.

Fused Silica Brick

Fused Silica Brick Introduction

1.Have acid corrosion resistance.

2.Have anti-quick heat and high temperature

3.Have high strength, low expansion coefficient 

Fused Silica Brick as a kind of hot sales refractory bricks for furnace application in Rongsheng factory manufacturing with upper wall of a furnace for masonry of low alkali borosilicate glass. Fused silica refractory brick have good properties of acid corrosion resistance & anti-quick heat and high temperature and high strength, low expansion coefficient. There are high quality refractory fused silica brick for sale cheap in RS firebricks company can provide standard size refractory brick specification and category as well as competitive price & high-grade quality fused silica firebricks other specification and size of fused silica block,according to customer requirements,welcome to contact us or email us for free quote or price list.

Fused Silica Brick Advantage

1.Fused silica brick have high purity, corrosion resistant

2.Fused silica block have small thermal expansion coefficient

3.Fused silica refractory brick have small thermal shock resistance

Refractory fused silica brick have high viscosity at high temperature, high strength, strong slag resistance and strong impact resistance, low thermal conductivity, small drying and firing shrinkage.

Fused Silica Brick specification

Sio2	》	99
Fe2o3	《	0.3
Flux index	《	0.4
0.2Mpa refractoriness under load	》	1650
Apparent porosity	《	22
Cold crushing strength	》	35
Bulk density	《	30
Thermal shock water-cooled at 1100℃（times）	》	2.34

Fused Silica Brick Application

Fused silica bricks have good thermal shock resistance, small thermal expansion, low bulk density, and small thermal conductivity, which is convenient for heat preservation and reduces heat loss. Refractory brick mainly used in flow aluminum tanks, aluminum gates and is suitable for upper wall of a furnace for masonry of low alkali borosilicate glass.

Fused Silica Brick Supplier in Rongsheng Refractory Factory

Rongsheng Refractory Factory is a fire-resistant and thermal insulation material production enterprise. RS firebrick factory is a comprehensive enterprise integrating scientific research, testing, development, production, sales and customers.Rongsheng refractory brick have one production line for stereotyped and amorphous fire-resistant and wear-resistant refractory products. One production line is enough to meet the processing capacity of 80,000 tons of high quality products per year, which has a construction team with professional anti-corrosion and thermal insulation engineering level and kiln masonry second-class qualification. The scope of construction includes the completion of turnkey projects from contract signing, material supply, metal spraying, corrosion-resistant spraying, material masonry insulation, oven, and operation. It has comprehensive testing methods and can guide us to each product. Indicators and each subtle production link.

Low Creep High Alumina Brick

Low Creep High Alumina Brick Definition

Low creep high alumina brick is made of high quality high alumina bauxite clinker as the main refractory raw material, the three stone raw refractory material for improving creep resistance is added, and the mud material is configured to be formed by high pressure molding and high temperature firing.

Why Choose Low Creep High Alumina Brick Application in Hot Blast Stove

1.Because the heat storage capacity of low creep high aluminum bricks is higher than that of clay bricks and silica bricks, hot blast stoves generally use low-creep, high aluminum perforated bricks and other types of refractory bricks with high heat storage capacity. It is compact and reduces the floor space. This is particularly advantageous for retrofitting hot air stoves because it avoids the need to increase the heat storage capacity of the hot blast stove to make the structure of the hot blast stove large, while avoiding the limitations of existing sites.

2.With the development of modern smelting technology, hot blast stoves generally adopt high air temperature technology, the service life of hot blast stoves is required to be longer: therefore, higher requirements are put forward for the comprehensive performance of refractory materials for hot blast stoves. Damage to refractory materials used in hot blast stoves is usually caused by thermal stress, chemical attack, and mechanical loading. Which is generally believed that an important reason for the damage of the hot blast stove is that the high temperature creep resistance of the refractory material is poor, resulting in collapse, deformation and cracking of the lining material, thus causing widespread concern for low creep bricks for hot blast stoves.

3.M45 mullite brick is used as the main raw refractory material, and M45 is a low alumina mullite bricks composite. The main crystalline phase is mullite. Due to its low gas rate (generally 2%), the structure is very dense and Fe2O3. TiO2 has low impurity content, good high temperature volume stability and erosion resistance, in order to further improve the thermal shock stability and creep resistance of the material, M5 mullite fine powder is added to the matrix, three stone raw materials are reasonably selected. The refractory soil is used as a binder to enhance the matrix properties and promote the formation of the crystal phase to improve the microstructure.

Low Creep High Alumina Brick Performance

1. More higher purity, more better the creep resistance, more impurities, worse the creep resistance of the high alumina refractory low creep.

2. Higher the crystal phase/glass ratio, better the creep resistance, and vice versa.

3.The finer the grain of the crystal phase, the more grain boundaries, the finer the particles, and the worse the creep resistance.

4.As shown in Fig. 4, the higher the temperature at which the glass phase is formed, the higher the viscosity, and the better the creep resistance.

5.The crystal phase is needle-like, rod-shaped, columnar network cross, the better the creep resistance of refractory brick

6. No reaction or dissolution between the crystalline phase and the glass phase, generally better creep resistance.

7. The reducing atmosphere is worse than the oxidizing atmosphere, or the creeping rate is faster, and the creep resistance is higher for low creep high alumina fire bricks.

Magnesia Alumina Series Brick Classification

Magnesia Alumina Series Brick Introduction

Magnesia aluminum brick is a spinel-type (RO· R2O3) basic refractory material containing about 85% MgO and 5%~10% Al2O3. The crystal phase composition of the magnesia aluminum brick is dominated by periclase, and the magnesia-alumina spinel is the matrix (magnesium-aluminum spinel replaces the calcium-magnesium olivine in the magnesia brick to become a binder of periclase). The spinel aggregates to form a crystal network after crystallization, thereby making refractory brick structure compact. Since the coarse aggregate particles are not used in the production, the entire fire brick structure is uniform and the pores are dispersed.

MgO has a certain mutual solubility with MgAl2O4. The eutectic point is 1995 °C, the solid solution containing periclase contains Al2O3: 18%, and the solid solution based on MgAl2O4 contains MgO: 39%. When the temperature drops, the mutual solubility decreases. At 1700 °C, the periclase is about 3% solid solution of Al2O3; to 1500 °C, both MgO and MgAl2O4 completely fall off.

Magnesia Alumina Series Brick Classification

Magnesia aluminum refractory bricks are divided into two types, one is MA as the binding phase, the MA is formed in the firing, fire brick is dispersed between the large particles of the magnesia; the other is the pre-synthesized MA particles, which are added to the ingredients.

(1) MA combined magnesium aluminum brick

Magnesia alumina brick with magnesia alumina spinel as the main binding phase has an important effect on the microstructure and properties of Al2O3. When the content of Al2O3 is 15%-20%, continuous magnesia alumina spinel is formed in the refractory brick, When the content of Al2O3 is less than 10%, MA is distributed in an island shape between the magnesia.

The content of CaO and SiO2 in the refractory raw materials should be strictly controlled. Since CaO is a strong flux, industrial alumina is generally used as a source of Al2O3 at home and abroad.

The highest firing temperature can reach 1610 °C. In order to prevent the formation of FeO-MgO solid solution, the iron oxide can form MF, which can promote the sintering of the refractory product without significantly reducing the fire resistance. Therefore, it should be fired in a weak oxidizing atmosphere.

(2) Pre-synthesized MA magnesium aluminum brick

The synthesis reaction mechanism of MA is ion diffusion, which can be carried out at a relatively low temperature (1050 to 1300 ° C). As the temperature increases, the reaction is intensified. At about 1500 ° C, the synthesis of MA is quite complete, forming a sufficiently complete MA crystal, but to obtain a highly densified MA composition, sintering at a higher temperature is required.

Magnesia aluminum fire bricks include ordinary magnesia alumina bricks, magnesia alumina spinel bricks, and modified magnesia aluminum spinel bricks. During the firing of magnesium-aluminum bricks, MgO and Al2O3 react at high temperatures to form high-temperature mineral phases of magnesium-aluminum spinel (MgO·Al2O3). Magnesia aluminum spinel has a small thermal expansion coefficient and the same thermal expansion, which can reduce the thermal stress caused by temperature changes. Magnesia aluminum bricks have good thermal shock resistance and other thermomechanical properties.

1. Ordinary magnesium aluminum brick

Ordinary magnesia-aluminum bricks are made of ordinary sintered magnesia and high-alumina bauxite clinker. The granular material of the bricks is made of sintered magnesia, and the powder is made of mixed powder of sintered magnesia and high alumina bauxite clinker. Magnesium aluminate spinel minerals are formed in the matrix of the brick during the firing process. It is used in steel furnaces and electric furnaces, glass kiln, refractory products, fired tunnel kiln, shuttle kiln and other kiln.

2.Magnesia alumina spinel brick

Magnesia alumina spinel bricks are also called periclite-spinel bricks. Which is based on high purity fused magnesia or high-purity two-step calcined magnesia and high-purity pre-calcined magnesia alumina spinel, using precision compounding, high-pressure forming and high-temperature firing production process. Compared with magnesia chrome bricks, this kind of magnesia alumina composite brick not only eliminates the harm of hexavalent chromium, but also has good corrosion resistance, oxidation and reduction resistance, heat-resistant peeling property and high temperature volume stability. Which is a large and medium-sized cement. The most suitable chromium-free refractory material for the rotary kiln transition zone. It has also been used in high-temperature equipment such as lime kiln, glass kiln and refining equipment outside the furnace. The physical and chemical indicators of magnesia alumina spinel brick produced by a domestic refractory material factory are: MgO 82.90%, Al2O3 13.76%, SiO2 1.60%, Fe2O3 0.80%, apparent porosity 16.68%, bulk density 2.97g/cm3, normal temperature withstand voltage The strength is 54.4 MPa, and the flexural strength at 1400 ℃ is 6.0 MPa.

3.Modified magnesium aluminum spinel brick

Magnesia aluminum spinel fire brick is very successful in the transition zone of cement rotary kiln, but which is easy to produce tissue embrittlement and structural spalling in the firing zone, which is difficult to hang the kiln skin, the alkali-resistant steam and cement clinker have poor liquid permeability. And the ability to resist mechanical stress caused by deformation of the kiln body is limited, and the application in the firing zone is limited. To this end, researchers have developed modified magnesia aluminum spinel bricks suitable for the firing zone of cement rotary kiln.

Magnesia Alumina Series Brick Manufacturing Process

The production process of magnesia alumina refractory bricks is roughly the same as that of calcined magnesia bricks, except that a certain proportion of industrial alumina or extra-grade bauxite clinker is added to the ingredients. Industrial alumina has a lower impurity content than high alumina bauxite. The addition of natural bauxite clinker to the ingredients can improve the plasticity of the mud. Under the same conditions, the bulk density of the fire bricks is higher. Industrial alumina is generally added in an amount of 5% to 10%. Usually, it is finely ground with magnesia in a certain proportion, and then added as a fine powder, which is favorable for forming a uniform distribution of a new crystalline phase of magnesium aluminate spinel in the matrix of the product. There are also production methods using pre-synthesized magnesia alumina spinel for batching bricks. The critical particle size during the batching is beneficial to improve the thermal shock resistance of the refractory product, but it is not conducive to the density and strength of the product, and generally adopts 3 mm. The particle size is generally 3-1mm and 1-0.088mm and the ratio of 3-2mm coarse particles to less than 0.088mm fine powder should be controlled to improve the thermal shock resistance of the product. The firing temperature of the magnesia alumina refractory brick is determined according to the purity of the raw refractory material, generally 30-50 ℃ higher than the firing temperature of the magnesia refractory brick, and the firing temperature of the high-purity magnesia alumina brick is 1750-1800 ℃.

Magnesia Alumina Brick Manufacturer in Rongsheng Refractory Supplier

Rongsheng refractory manufacturer has 20 years of quality assurance, bringing maximum benefits to customers.

Rongsheng refractory castables manufacturer has four advantages

1.Rongsheng refractory bricks manufacturer have strong production capacity, supply is guaranteed.

2.Rongsheng refractory bricks company has professional refractory brick production plants and amorphous refractory production plants.

3. Rongsheng refractory bricks manufacture have advanced concepts and scientific management.

4.Rongsheng refractory bricks manufacture have perfect after-sales service system