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CSA cement-CSA binder
Strength Grade(Mpa)
72.5, 82.5, 92.5
Mineral Composition
Calcium Sulfo Aluminate Cement
Hardening Feature
Extra Rapid Hardening
Heat of Hydration
Low-Heat
Fineness
More Than 460kg/M2
เครื่องหมายการค้า
CSA cement
แพคเพจการขนส่ง
25kg Bags or Jumbo Bags
ข้อมูลจำเพาะ
garde 72.5-92.5
รหัสพิกัดศุลกากร
2523300000
คำอธิบายสินค้า
Product information
CSA biner, also named Calcium Sulpho Aluminate Cement clinker with grade: 62.5, 72.5, 82.5, 92.5, is a hydraulic binder based on calcium sulpho aluminate, rather than calcium aluminates which are the basis of Calcium Aluminates Cement or calcium silicates which are the basis of Portland Cement. It can be used on its own (with a Lithium accelerator), or with an Anhydrite, Portland cement mix, Metakaolin or a combination of all.
CSA binder has the benefit of being readily adaptable to suit many different applications where both rapid set and / or high early strength gain are required. It yields controlled set, enhanced early strengths, shrinkage compensation or expansion and sulphate resistance. Uses include any cement-based product in need of these properties. CSA Cement products exhibit a range of properties to suit a wide spectrum of cement-based applications, like fast setting cements, self-leveling or self-smoothing compounds, self compactingconcrete,rapid hardening mortars, tile adhesives, non-shrink grouts, water stopping mortars, repair mortars, high early strength concrete, GRC, etc.
Within CSA (Calcium Sulpho Aluminate) Cement Ettringite formation is typical. Ettringite is an expansive crystalline substance formed when sulphate reacts with tri-calcium aluminate (C3A) and calcium hydroxide (Ca(OH)2). It occupies twice the volume of the original compounds so an expansion occurs. In the CSA Cement, 85% of ettringite is developed at a very early stage in the process, before the aluminates and silicates start to hydrate. The risk of late ettringite formation is very limited and the ettringite which is formed is very stable over time. This is the fundamental difference between CSA and CAC (Calcium Aluminate Cement) Cement.
Be it a mortar or a concrete, making a composite cement which exhibits rapid setting, high early strength development, with little or no loss of late strength, no risk of conversion or late formation of ettringite. Depending on the level of addition of calcium sulphate, either shrinkage compensation or positive expansion can also be controlled.
Potential advantages of the CSA Cements are low CO2 emissions, improved sulphate resistance, low permeability, enhance durability and a good workability at low temperatures.
| Component | Type I | Type II | Type III | Type IV | Type V |
| SiO2 | ≤7.0 | ≤8.5 | ≤10.5 | | |
| Al2O3 | ≥36 | ≥35 | ≥34 | ≥32 | ≥28 |
| Fe2O3 | 1.5-2.5 | 1.5-3.5 | 1.5-3.5 | | |
| CaO | 40.0-41.5 | 40.5-42.5 | 41.5-43.5 | | |
| MgO | ≤ 3.5 | ≤ 3.5 | ≤ 3.5 | | |
| SO3 | 8.5-11.0 | 8.0-10.5 | 7.5-9.5 | | |
| TiO2 | 1.0-2.0 | 1.0-2.0 | 1.0-2.0 | | |
Fineness
Specific Surface Area: according to standard GB/T 8074-2008:
Usual range: 400(+/-20) m2/kg, Specification limit: >360 m2/kg;
Usual range: ≥ 480 m2/kg, Specification limit: >450 m2/kg.
Mineral composition
C=CaO, A=Al2O3, S=SiO2 , F=Fe2O3, S =SO3
−Principal mineral phase: calcium sulphoaluminate C4A3S-
−Secondary phases: C2S, C4AF
| Item | Type I | Type II | Type III | Type IV | Type V |
Bending Strength
(Mpa) | 1d | ≥8.0 | ≥7.0 | ≥6.0 | | |
| 3d | ≥10.0 | ≥9.0 | ≥8.0 | | |
| 7d | ≥11.0 | ≥10.0 | ≥9.0 | | |
Compressive strength
(Mpa) | 1d | ≥60.0 | ≥50.0 | ≥50.0 | | |
| 3d | ≥85.0 | ≥75.0 | ≥65.0 | | |
| 7d | ≥95.0 | ≥85.0 | ≥75.0 | | |
| Setting time | Initial | ≥25min | ≥25min | ≥25min | | |
| Final | ≤300min | ≤300min | ≤300min | | |
Incorporation of Calcium SulphoAluminated Cement into a variety of mix designs, CSA Cement products
exhibit a range of properties :
• Rapid Set
• Adjustable Setting Time
• High Early Strength
• Increased strength in time
• Minimal Shrinkage
• Shrinkage compensation
• Expansion
• Sulphate Resistance
• Reduced Alkalinity
• Low CO2Emissions
• Rheology Adapted to the Application
• etc.
These properties are applied to obtain a wide range of products:
- Rapid repair mortars
- Fast setting tile adhesives
- Fast setting tile grouts
- Shot-crete / Gun-nite
- External renders
- Self smoothing mortars
- Self leveling mortars
- Anchor bolt grouts
- Non shrinking grouts
- etc.
Use of Additives
CSA binder may be used in combination with chemical additives such as:
- polymers, either in latex form or redispersible powder form
- defoamers
- retarders
- accelerators
- plasticizers/superplasticizers
- rheology modifiers
- fibers
Reactivity with Portland cement
CSA binder may be used in combination with other mineral products, for example Portland cement, calcium sulphates and fillers, or with organics such as polymers in latex foam or in redispersible foam.
Depending on the type of mixes and technology employed, CSA binder can be used to obtain and control various properties.
The behavior of Portland cement is very variable. In general, acceleration of set increases progressively with the addition of CSA Binder. The amount of CSA Binder needed to obtain a specific setting time varies considerably depending on the origin of the Portland cement and performance can be modified with the use of additives.
The strength development of CSA Cement/Portland cement and/or Calcium Sulphates depends on the nature of the Portland cement and/or Calcium Sulphates used. In general these mixes will develop mechanical strength at a very early stage (several hours). With some type of Portland cements and in formulated products containing additives which control the setting and hydration, the long term properties is similar to those of the original Portland cement, however it is necessary to check the behavior of each Portland cement used.
The characteristics of Portland cement to be considered are:
C3A content
Mineral admixture type and content
Type of Calcium Sulphate used
Additives will also influence the properties of these mixes:
Setting time
Rheology
Mechanical performance
CSA binder can be applied on applications like mining industry, GRC/GFRC products, dry mix mortars like fast setting mortar, Concrete repair mortar, Non shrinkage grouts, Self levelling compounds, flooring material, Fast set tile adhesives, etc.
