Different Types of Foaming Agents (1)

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The price of nickel and stainless steel rose together. Nickel afternoon hand in hand with stainless steel together turn red up. Due to the temporary easing of geopolitical risks, risk assets are now picking up, nonferrous metals, stock markets, and so on have risen, the overall mood has temporarily improved. Ore prices are strong, the overlay of the epidemic on spot logistics or the formation of a certain impact. Phase, nickel and stainless steel materials to maintain high wide concussion pattern.

Nickel prices based on low inventory, tight supply and demand will still show high wide fluctuations. In addition, the current LME has low liquidity, so its sensitivity to capital will remain relatively high. Shanghai nickel-wide fluctuations are expected to continue in the 200,000-250,000 yuan wide repeated fluctuation trend. While stainless steel is affected by the stronger nickel pig iron, the cost support continues, but note that under the current demand is not effectively released, the upward space may also be affected, the stage is expected to fluctuate between 20000 and 22,000 yuan. The price of nickel produced such fluctuations, indicating that the price of the foaming agent may also be affected to a certain extent.

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 this article, the physical foaming agents of carbon dioxide foaming agents and hydrochlorofluorocarbon foaming agents will be talked about.

Physical foaming agents

There are many kinds of physical foaming agents, such as aliphatic hydrocarbons, chlorofluorocarbons, hydrochlorofluorocarbons, carbon dioxide gas, etc. Since the 1950s, CFC-11 has been widely used as the preferred foaming agent of polyurethane. In order to protect the earth's ecological environment, the use of CFCS compounds must be banned because of their destructive effect on the ozone layer. People have been looking for and developing ideal alternative products for many years. In addition to considering the properties of the foaming agent itself, it is generally necessary to adjust and improve the raw materials such as polyether polyol, foaming agent, and catalyst to optimize the formulation system. At present, there are mainly four alternatives to foaming agent CFC11. 

1.    Carbon dioxide foaming agents

There are two kinds of carbon dioxide foaming agents, one is the reaction of isocyanate and water to produce carbon dioxide as foaming agents (water foaming), and the other is liquid carbon dioxide. 

Compared with CFC-11, water foaming has the advantages of zero carbon dioxide ODP (ozone loss value), is non-toxic, safe, has no recycling problems, and no need to invest in foaming equipment. The disadvantage is that the polyol component viscosity is higher in the foaming process, the foaming pressure and the foam temperature are higher, the adhesion of the foam plastic and the base material becomes worse, especially the thermal conductivity of the hard foam product is high. Due to the rapid diffusion of carbon dioxide from the bubble hole and the slow entry of air into the bubble hole, the dimensional stability of foam plastics is affected. Although it can be improved by modification, it is still inferior to the CFC-11 foam material. At present, it is mainly used for heat supply pipeline insulation, packaging foam and agricultural foam, and other fields with low requirements for insulation. Liquid carbon dioxide foaming has the same advantages and disadvantages as water foaming. It is mainly used for polyurethane soft foam at present. For hard foam, it can overcome the disadvantages of water foaming, which increases the consumption of isocyanate, foam brittle, and poor adhesion with the base material. But liquid foam to improve the foaming machine, liquid carbon dioxide storage, and transportation costs increased.

2.    Hydrochlorofluorocarbon foaming agents

Hydrogenated hydrochlorofluorocarbons (HCFC) foaming agents contain hydrogen in their molecules, have unstable chemical properties, and are easy to decompose, so their ODP is far less than CFC-11. Therefore, HCFC is regarded as the first generation of CFC foaming agent replacement products, which are used temporarily during the transition period and should be replaced by chlorine-free compounds as soon as possible. The European Union, the United States, and Japan banned the use of HCFC foaming agents at the end of 2004. Currently, the most developed product that can replace CFC-11 commercially is HCFC-14LB, which is soluble in polyols and isocyanates. When replacing CFC-11 with HCFC-14LB, the needed amount of foam in order to get the same level of density and similar physical properties is less than CFC-11. The defects of HCFC-141B lie in the high price of raw materials, the solubility of certain ABS and high-impact polystyrene, and its thermal conductivity is higher than that of CFC-11, so the foam density is higher to achieve the heat insulation effect. Another hydrochlorofluorocarbon product to replace CFC-11 is the 60:40 HCFC-22/HCFC-14LB mixture. This kind of mixture is the most commonly used solvent in industrial production. The production technology is developed and the price is moderate. The disadvantage is that the solubility of the HCFC-22/HCFC-141B system in general polyols is relatively low, and the processing of polyols containing HCFC-22 is relatively difficult. In addition, the ODP value of HCFC-124 is only 1/5 of that of HCFC-141B, allowing longer service life.

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Twitter recently announced that it had reached an agreement with Musk to take full ownership of the company for $54.20 per share, or about $44 billion in cash.  After the deal, Twitter will become a privately held company. The deal, which has been unanimously approved by Twitter's board but still requires shareholder and regulatory approvals, is expected to close in 2022.  

After Tesla CEO Elon Musk's acquisition of Twitter was finalized, Twitter founder Jack Dorsey sent out a series of six tweets expressing his expectations for Musk.  

Dorsey called Twitter his biggest regret, saying, “The idea and service is all that matters to me, and I will do whatever it takes to protect both. Twitter as a company has always been my sole issue and my biggest regret. It has been owned by Wall Street and the ad model. Taking it back from Wall Street is the correct first step.  

"In principle, I don't believe anyone should own or run Twitter," Dorsey goes on. He thinks the service is a public good.

He called Musk a "singular solution" to Twitter's problems, "Elon's goal of creating a platform that is" Maximally trusted and inclusive "is the right one." He wrote, "Thank you both for getting the company out of an impossible situation. This is the right path...  I believe it with all my heart."

Besides, because of the ever-changing international situation, the supply and prices of international bulk foaming agent are still very uncertain.

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