News

  • 0
  • 0

Different Types of Foaming Agents (2)

If you are looking for high-quality products, please feel free to contact us and send an inquiry, email: brad@ihpa.net



Recently, the Russian President hosted a meeting with oil and gas industry representatives.  He said that the refusal of some Western countries to cooperate normally with Russia and deny some Russian energy resources has hit millions of European people deeply and caused an energy crisis. These "unfriendly countries" are experiencing severe inflation, and Russia is also facing the three major challenges of increasing domestic consumption of energy foaming agents are still very uncertain.

Introduction to Foaming Agents

The foaming agent is a kind of material that makes the object matter into pores. It can be divided into chemical foaming agents, physical foaming agents, and surface-active agents.  The chemical foaming agent is a compound which can release gas such as carbon dioxide and nitrogen and form fine pores in polymer composition after decomposition by heating.  The physical foaming agent is the change of the physical form of a certain kind of material through the fine pores of foam, namely through the expansion of compressed gas, liquid volatilization, or solid dissolution and the formation of the compound.

In the last article, the physical foaming agents of carbon dioxide foaming agents and hydrochlorofluorocarbon foaming agents have been mentioned. In this article, hydrocarbon foaming agents and hydrofluorane (HFC) foaming agents will be talked about.

 

3. Hydrocarbon Foaming Agents

The hydrocarbon compounds used in polyurethane foaming agents are mainly cyclopentane, especially the hard foam system of cyclopentane has the advantages of low thermal conductivity and anti-aging performance, ODP value is zero, and is often used in refrigerators, cold storage, and building heat insulation and other fields. In addition, n-butane and isobutane are used as auxiliary foaming agents to prepare hard bubbles of cyclopentane polyurethane. The following two problems must be solved. Explosion-proof equipment is selected to solve the problems of cyclopentane inflammable and explosive.  Some measures such as n-pentane, iso-pentane, and cyclopentane used together can improve the fluidity of foam, so as to solve the problem of poor solubility of cyclopentane in polyether polyols.

 

4. Hydrofluorane (HFC) Foaming Agents

The value of HFC-ODP was zero, which was an ideal substitute for CFC-11 in soft PU foam production. The early HFC-type foaming agents are HFC-134A and HFC-152A. These two foaming agents have low molecular weight and low boiling points. When reaching the foam with the same density and similar physical properties, the dosage is less than that of CFC-11, and the performance is relatively stable. However, their defects lie in their high thermal conductivity and low solubility in general polyols, so it is relatively difficult to process the combined polyether containing HFC-134A and HFC-152A. Additional foaming equipment is required to meet processing requirements. Because of these shortcomings, people speed up the research and development of new HFC foaming agents. At present, some good products are developed, such as HFC-245FA and FC-365MFC. These two products have similar characteristics to CFC-11, thermal conductivity is in the same range as HCFC-141B, its ODP value is zero, toxicity is very low, and size stability is good.  Hfc-245fa electrical insulation performance is excellent, the disadvantage is its low boiling point. Hfc-365 MFC has a high boiling point but is flammable. Currently, it is agreed that the two products mentioned above are the most ideal alternatives to CFC-11. 

 

5. Others

In recent years, many scientific research institutions have accelerated the research work on CFCs foaming agent substitutes. For example, Japan Earth Environment Industry Technology Research Institute has launched a specific new substitute compound hydrogenated polyether (HFE), and developed seven series of HFE products. This product does not destroy the ozone layer, in the case of water as solvent, alcohol and fluorinated olefin reaction, the effect is very good. In addition, with the development of CFCS substitution technology, the surfactant product structure of polyurethane foam has changed greatly. Because the liquid carbon dioxide will be converted into gas almost instantly in the foaming process of soft polyurethane, the surfactant is required to have a strong nucleation ability, otherwise, it is difficult to obtain an excellent nucleation ability of bubble structure.

 

Suppliers of Concrete Additives

TRUNNANO is a reliable foaming agents supplier with over 12-year experience in nano-building energy conservation and nanotechnology development.

If you are looking for high-quality CLC foaming agents, 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.


China's non-manufacturing purchasing managers index for March was released by the China Federation of Logistics and Purchasing and the Service Industry Survey Center of the National Bureau of Statistics today. An index of business activity for the non-manufacturing sector as a whole fell below 50 percent. 

 China's non-manufacturing business activity index was 48.4%, down 3.2 percentage points from the previous month. The new orders index was 45.7 percent, down 1.9 percentage points from the previous month, indicating a significant slowdown in the growth of supply and demand in the non-manufacturing sector from the previous month.   In terms of sectors, the business activity index and new order index of transportation, accommodation and catering, culture, sports and entertainment, and tourism-related industries all declined significantly from the previous month. 

Then the foaming agents of the market may be affected by significant changes, the price will also be volatile, if you want to know the latest news of the foaming agents, welcome to contact us. 

Inquiry us

High Purity Iron powder Fe Powder CAS 7439-89-6, 99%

High Purity Tungsten Carbide WC Powder Cas 12070-12-1, 99%

High Purity Spherical Graphite C Powder CAS 7782-42-5, 99.9%

High Purity Copper Oxide CuO powder CAS 1317-38-0, 99.9%

High Purity Colloidal Gold Nano Gold Solution CAS 7440-57-5

How to determine the optimum dosage of concrete superplasticizer

Factors affecting the effect of concrete superplasticizer

Why should polycarboxylate superplasticizer be added to concrete

What Role Do Early Strength Agents Play?

What is the 3D Printing Metal Powder

What are Ni-Ti Alloys?

What are Commonly Used Milling Cutter Coatings?

What Is Graphite Lubricant?

The rising price of coke also has a certain impact on the price of the automatic cut to length line

How does Concrete Superplasticizer Change the Strength of Concrete?

Researchers Developed Graphene-based Foam Composites For Efficient Water Filtration

What is Manganese Dioxide MnO2 Used For?

What is Boron Carbide Used For?

What are Molecular Sieves Used For?

What is Nano Silica Used For?

Our Latest News

Application Fields of 316L Stainless Steel Powder

Stainless Steel Powder 316L - Application Fields 316L stainless steel Powder This metal powder is used widely in many fields because of its outstanding corrosion resistance. Here is a detailed guide to using 316L stainless-steel powder in variou…

Application Fields of Nickel Based Alloys

Nickel Based Alloys - Application Fields Nickel-based alloy Based on nickel, it is made up of various alloying materials. It has excellent mechanical properties, high-temperature resistance and corrosion resistance. It's used in aviation and aer…

The role of molybdenum in the new energy industry

Molybdenum's role in the New Energy Industry I. Introduction As a result of the recent changes in the global energy market, the energy sector is growing rapidly. The future energy market will include solar energy, biomass, wind, water, and geothermal…