Concrete Superplasticizer | Supercizer 1 | Fritz-Pak
Supercizer 1 is a standard concrete superplasticizer that provides up to 20% water reduction and 6 inches of slump enhancement. This product does not contain chlorides or other corrosive materials and comes packaged in our signature water-soluble bags for easy addition at the job site. Learn More about Using a Concrete Superplasticizer
Delay Set Superplasticizer | Fritz-Pak | Concrete Admixtures
The delay set feature of the products helps keep the first layer of concrete plastic as you work your way around the forms. As a premium superplasticizer, this admixture offers up to 40% water reduction and a Supercizer 7 does not contain hazardous materials and comes packaged in our signature water-soluble bags.
Chemical Admixtures - Cement
Accelerating admixtures are especially useful for modifying the properties of concrete in cold weather. Superplasticizers, also known as plasticizers or high-range water reducers (HRWR), reduce water content by 12 to 30 percent and can be added to concrete with a low-to-normal slump and water-cement ratio to make high-slump flowing concrete
Polycarboxylate Superplasticizer (PCE) For Concrete
Polycarboxylate Superplasticizer. Polycarboxylate superplasticizer (PCE), also known as polycarboxylate ether superplasticizer, is a new generation of high-performance concrete admixture. It is a water reducing agent with excellent performance that integrates water reduction, slump protection, reinforcement, shrinkage and environmental protection.
Selection of Superplasticizers for High-Performance Concrete
A great variety of cement that varies in the content of tri calcium aluminate, tetra calcium alumino ferrite, limestone filler, di and tri calcium silicates and cement with different fineness works compatible with the test. The whole arrangement is called the rheopump.
- Are M40 grade concrete mixes compatible with SNF & PCE based super plasticizers?
- In the present study, compatibility assessment of commercially available cements (OPC and PPC) and SNF & PCE based super plasticizers are made by evaluating the workabilities, setting times and compressive strengths of M40 grade concrete mixes made with two different brands of cement and with two different chemical admixtures.
- Which superplasticizer is more compatible with brand 2 cement based M40?
- So based on achievement of desired setting times and compressive strengths, it can be concluded that brand 2 cement based M40 concrete (ie, PPC based) is more compatible with SNF based superplasticizer than PCE based superplasticizer. So it is suggested that for the development of PPC based M40 grade concrete SNF superplasticizers can be used.
- Which superplasticizer is used in setting times of concrete?
- Same performance in setting times of concrete. 4. M40 concrete made with SNF based superplasticizer concrete made with PCE based superplasticizer. This superplasticizer. Same observations are made in concrete. 5. So based on achievement of desired setting times and based superplasticizer. So it is suggested that for the
- What is the penetration resistance of concrete mixes with superplasticizer?
- The penetration resistances of concrete mixes with superplasticizer are shown in Tables 3 to 6. M40 concrete made with SNF based superplasticizer has shown better initial and final setting times of concrete than in concrete made with PCE based superplasticizer.
- Does superplasticizer increase setting times of concrete?
- The addition of superplasticizer to the concrete increases the setting times of the concrete. Table 2. Four M40 grade concrete samples were prepared with 2 brands of cement and 2 types of admixtures and tested for setting times of concrete. The setting time of concrete are determined as per IS: 8142(1976) using penetration resistance apparatus.
- Why are superplasticizers used in Indian cementitious mix?
- Superplasticizers are increasingly being used in Indian cementitious mix from the 1980 s onwards as they have proved their credibility in parameters like water and cement reduction apart from workability retention, strength gain, and ease to place and pump.
