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Polycarboxylate-based High-performance Water Reducing Agent

The latest forecast from consulting firm AlixPartners is that the chip shortage may cost the global auto industry $110 billion; it will reduce global auto production by 3.9 million this year. For the global chip shortage, AlixPartners analyzed that the main reason is that the chip production cycle is too long; at the same time, other uncontrollable risks from the industry chain have also affected the production rhythm. As the chip supply shortage continues to intensify, some automakers' factories have been forced to stop production for several days Even weeks, which companies such as Ford, GM, Stellantis, and others have been hit particularly hard. Even BMW, which was previously less affected, is beginning to show difficulties, with its Oxford plant in the UK shutting down for three days from April 30 and its Regensburg plant in Germany starting to reduce production shifts this week.
Chip supply shortages drive water reducing agent.

Concrete Additives:

Using concrete additives is the most effective, economical, and simple technical way to reduce the cement dosage, improve the utilization rate of industrial waste residue, and realize the high durability and performance improvement of concrete. It is a necessary material for manufacturing modern concrete. It is regarded as the third breakthrough of concrete technology after reinforced concrete and prestressed reinforced concrete. 

 

Development Course of Water Reducing Agent: 

As one of the most important concrete additives, water reducing agent plays an irreplaceable role in the development of modern concrete. Since the 1960s, Japan and Federal Germany have developed β -naphthalene sulfonate formaldehyde condensates and melamine-formaldehyde condensates superplasticizer, commonly known as high efficient water reducing agent, resulting in the worldwide high efficient water reducing agent research, development, and application of the boom.

This kind of traditional polyelectrolyte water-reducing agent, including naphthalene, melamine, sulfamate, and lentisulfonate, has a good working performance for fresh concrete, has been continuously developed and applied for more than 30 years, and still occupies a certain market share. At that time, due to the limitations of their own structure and dispersive mechanism, they had a series of insurmountable problems, such as large slump, large shrinkage, and environmentally unfriendly.

Later, the development of polymer synthesis technology accelerated the development of new efficient water reducing agents. In the early 1980s, Japan took the lead in successfully developing polycarboxylate series water reducing agents. This new generation of polycarboxylate superplasticizer overcomes some disadvantages of traditional superplasticizers and has such outstanding advantages as low yield, good slump protection performance, the low shrinkage rate of concrete, and strong adjustability of molecular structure, large potential of high performance, and no use of formaldehyde in the production process. It is the developing direction of high-performance concrete admixture at present.

 

Introduction to Polycarboxylate-based High-performance Water Reducing Agent:

Polycarboxylate-based high-performance water reducing agent is defined as containing carboxylic unsaturated monomer and other monomer copolymerization. It is a type of water reducing agent with excellent performance used to help concrete with reducing water, collapse protection, strengthening, shrinkage, and environmental protection.

According to the invention patents all over the world, polycarboxylate-based high-performance water reducing agents can be divided into two categories according to the structure of the main chain: 1. Polyether with acrylic acid or methacrylic acid as the main chain grafted with different side chain lengths. 2. Polyether with maleic anhydride as the ink branch with different side-chain lengths. At present, the main differences of polycarboxylate products on the market lie in: the main chain chemical structure and length, side-chain type, length and graft density, Ionic group content, molecular weight size, and distribution. Because the molecular structure of polycarboxylate has a large degree of freedom, it possesses the potential for high performance.

 

Suppliers of Superplasticizer:

TRUNNANO is a reliable superplasticizer supplier with over 12-year experience in nano-building energy conservation and nanotechnology development. If you are looking for a high-quality concrete superplasticizer, please feel free to contact us and send an inquiry. (sales@cabr-concrete.com)

We accept payment via Credit Card, T/T, West Union, and Paypal. Trunnano will ship the goods to customers overseas through FedEx, DHL, by air, or by sea.


The current international situation is highly uncertain, and its economic impact has not been able to be assessed properly. In addition, rising energy and commodity prices and supply chain disruptions are expected to push the price of the water reducing agent higher.

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