The global trimer acid market is expected to grow at a CAGR of 7.8% during 2023-2028. Trimer acid is a type of fatty acid widely used in various applications, such as coatings, adhesives, lubricants, and plastics.

Linear α-olefin (LAO), Global Market Size Forecast, Top 12 Players Rank and Market Share

Linear α-olefin (LAO) Market Summary

linear α Alkenes refer to straight chain alkenes with only a single terminal double bond in molecules, such as C4 and above. They are important organic chemical raw materials and intermediates, mainly used as comonomers of high-density polyethylene (HDPE) and linear low-density polyethylene (LLDPE), as raw materials for the synthesis of advanced lubricants, for the production of plasticizer alcohols and detergent alcohols, and for the synthesis of polyesters α Alkenes, alkenylsuccinic anhydrides, linear alkylbenzenes, oilfield chemicals, alkyldimethylamines, and higher fatty acids.

According to the new market research report “Global Linear α-olefin (LAO) Market Report 2023-2029”, published by QYResearch, the global Linear α-olefin (LAO) market size is projected to reach USD 11.64 billion by 2029, at a CAGR of 3.2% during the forecast period.

Figure.   Global Linear α-olefin (LAO) Market Size (US$ Million), 2022VS2029

Above data is based on report from QYResearch: Global Linear α-olefin (LAO) Market Report 2023-2029 (published in 2023). If you need the latest data, plaese contact QYResearch. Figure.   Global Linear α-olefin (LAO) Top 12 Players Ranking and Market Share (Ranking is based on the revenue of 2022, continually updated)

Above data is based on report from QYResearch: Global Linear α-olefin (LAO) Market Report 2023-2029 (published in 2023). If you need the latest data, plaese contact QYResearch.

According to QYResearch Top Players Research Center, the global key manufacturers of Linear α-olefin (LAO) include Shell, Chevron Phillips Chemical Company, INEOS, Sasol, Qatar Chemical Company, Sabic, PJSC Nizhnekamskneftekhim, Idemitsu Kosan, Sinopec, CNPC, etc. In 2022, the global top five players had a share approximately 65.0% in terms of revenue.

Market Drivers:

In the coming years, globally α- The production and demand of olefins will rise sharply, and it is estimated that they will exceed 8 million tons by 2027. Large scale both domestically and internationally α- The olefin plant is under construction, and ExxonMobil will produce 350000 tons in Texas, USA α- Olefin unit; Chevron Phillips added in Texas, USA α- Olefin unit; There will be Zhejiang Petrochemical in China; Maoming Petrochemical; New construction by multiple enterprises including Yankuang Group α- Olefin unit. In terms of demand, new PE devices have sprung up like mushrooms after rain.

Linear α- Polyolefin products made from olefins have better performance. 1-Hexene grade polyolefin products have better tensile strength, impact strength, and tear strength; POE has excellent physical and mechanical properties such as high elasticity, high strength, and high elongation, as well as excellent low-temperature resistance. PAO has the characteristics of wide operating temperature, good viscosity temperature performance, high viscosity index, low pour point, and low evaporation loss; High carbon alcohols have excellent plasticizing properties, which can give products advantages such as good appearance, smooth surface, less breakage, and less pollution. With the progress of society and people's pursuit of high-quality life, there is a growing demand for linear solutions α- The demand for high-end products made from olefins will continue to grow.

Restraint:

The LAO industry abroad has gone through more than half a century of development, and well-known overseas petrochemical enterprises have already acquired mature technology. The LAO industry in China started relatively late and is generally in the development stage. The insufficient supply capacity of high-quality LAO has limited the development of application fields. Although the ethylene trimerization technology developed independently by Sinopec and PetroChina to produce 1-hexene has achieved industrialization, due to the late start of ethylene oligomerization technology and downstream polyolefin product technology, industrialization has not yet been achieved, and the application market still needs to be cultivated.

Opportunity:

The upgrading of China's coal to oil industry has made refined development inevitable. Coal to oil intermediate products is rich in LAO. By the end of 2023, China will have a total coal to oil production capacity of approximately 15 million tons per year. Based on a coal to oil project of 1 million tons per year, which can produce approximately 230000 tons of LAO for C4-C18, by the end of 2023, coal to oil will be able to provide approximately 1.7 million tons of LAO for C4-C18. The high-end and refined development of the coal to oil industry will be unstoppable.

About The Authors

Yunmei Sun---Lead Author

Email: [email protected]

Sun Yunmei has 2 years of industry research experience, focusing on research in the chemical industry chain related fields, including medical grade reagents, high-purity reagents for semiconductors, and chemical laboratory equipment.

About QYResearch

QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.

QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.

Trimer Acid Market Demand, Overview, Size, Trend | Kraton Corporation, Liancheng baixin science and technology Co., Ltd, Alfa Chemical Corporation

Global Trimer Acid Market report from Global Insight Services is the single authoritative source of intelligence on Trimer Acid Market. The report will provide you with analysis of impact of latest market disruptions such as Russia-Ukraine war and Covid-19 on the market. Report provides qualitative analysis of the market using various frameworks such as Porters’ and PESTLE analysis. Report includes in-depth segmentation and market size data by categories, product types, applications, and geographies. Report also includes comprehensive analysis of key issues, trends and drivers, restraints and challenges, competitive landscape, as well as recent events such as M&A activities in the market.

Trimer acid is a type of organic acid that contains three carbonyl groups. These carbonyl groups can be arranged in different ways, resulting in a variety of trimer acid structures. The most common trimer acid is acetic acid, which is found in vinegar. Other trimer acids include propionic acid and butyric acid.

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Key Trends

The key trends in Trimer Acid technology are miniaturization, improved performance, and increased functionality.

Miniaturization refers to the trend of making devices smaller and more compact. This is achieved by using smaller components and by using more efficient manufacturing processes.

Improved performance refers to the trend of making devices more powerful and efficient. This is achieved by using more powerful components and by using more efficient manufacturing processes.

Key Drivers

The key drivers of Trimer Acid market are its applications in detergents and cleaning products, as well as its low cost and easy availability.

Trimer Acid is a powerful cleaning agent, and is often used as a replacement for more expensive and dangerous chemicals.

It is also used in a wide variety of other industries, such as cosmetics and pharmaceuticals.

Market Segmentation

By Type

Standard Trimer Acid

Distilled Trimer Acid

By Application

Non-Reactive Polyamide Resin

Reactive Polyamides Resin

By End Use

Adhesives & Sealants

Drilling Fluid

By Region

North AmericaThe U.S.

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Key Players

Kraton Corporation

Liancheng baixin science and technology Co., Ltd

Alfa Chemical Corporation

Soofi Enterprises

Spectrum Chemical Mfg. Corp

Riteks

Croda lubricants

Fujian Zhongde Energy Co., Ltd.

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Furin cleavage site in the SARS-CoV-2 coronavirus glycoprotein

13 February 2020 by Vincent Racaniello

“The spike glycoprotein of the newly emerged SARS-CoV-2 contains a potential cleavage site for furin proteases. This observation has implications for the zoonotic origin of the virus and its epidemic spread in China.

The membrane of coronaviruses harbors a trimeric transmembrane spike (S) glycoprotein (pictured) which is essential for entry of virus particles into the cell. The S protein contains two functional domains: a receptor binding domain, and a second domain which contains sequences that mediate fusion of the viral and cell membranes. The S glycoprotein must be cleaved by cell proteases to enable exposure of the fusion sequences and hence is needed for cell entry.

The nature of the cell protease that cleaves the S glycoprotein varies according to the coronavirus. The MERS-CoV S glycoprotein contains a furin cleavage site and is probably processed by these intracellular proteases during exit from the cell. The virus particles are therefore ready for entry into the next cell. In contrast, the SARS-CoV S glycoprotein is uncleaved upon virus release from cells; it is likely cleaved during virus entry into a cell.

Proteolytic cleavage of the S glycoprotein can determine whether the virus can cross species, e.g. from bats to humans. For example, the S glycoprotein from a MERS-like CoV from Ugandan bats can bind to human cells but cannot mediate virus entry. However, if the protease trypsin is included during infection, the S glycoprotein is cleaved and virus entry takes place. This observation demonstrates that cleavage of the S glycoprotein is a barrier to zoonotic coronavirus transmission.

Examination of the protein sequence of the S glycoprotein of SARS-CoV-2 reveals the presence of a furin cleavage sequence (PRRARS|V). The CoV with the highest nucleotide sequence homology, isolated from a bat in Yunnan in 2013 (RaTG-13), does not have the furin cleavage sequence. Because furin proteases are abundant in the respiratory tract, it is possible that SARS-CoV-2 S glycoprotein is cleaved upon exit from epithelial cells and consequently can efficiently infect other cells. In contrast, the highly related bat CoV RaTG-13 does not have the furin cleavage site.

Whether or not the furin cleavage site within the S glycoprotein of SARS-CoV-2 is actually cleaved remains to be determined. Meanwhile, it is possible that the insertion of a furin cleavage site allowed a bat CoV to gain the ability to infect humans. The furin cleavage site might have been acquired by recombination with another virus possessing that site. This event could have happened thousands of years ago, or weeks ago. Upon introduction into a human – likely in an outdoor meat market – the virus began its epidemic spread.

Furins are also known to control infection by avian influenza A viruses, in which cleavage of the HA glycoprotein is needed for entry into the cell. Low-pathogenic avian influenza viruses contain a single basic amino acid at the cleavage site in the HA protein which is cleaved by proteases that are restricted to the respiratory tract. Insertion of a furin cleavage site in the HA of highly pathogenic avian H5N1 influenza viruses leads to replication in multiple tissues and higher pathogenicity, due to the distribution of furins in multiple tissues.

Acquisition of the furin cleavage site might be viewed as a ‘gain of function’ that enabled a bat CoV to jump into humans and begin its current epidemic spread.”

The Trimer Acid market research report discusses the importance of the segments as well as the regional markets. An accurate overview of different segments and regions has been prepared on the basis of the market size as well as the growth rate (CAGR). Different industry professionals and research analysts in various regions have examined and validated the data presented in this research report.

Melamine (urea) formaldehyde (MF & MUF) resin is produced by the polymerization and condensation of melamine, a trimer of dicyandiamide and formaldehyde with or without the presence of an acid catalyst.

MF resins are more water- and heat-resistant than urea formaldehyde (UF) resins; therefore they are used in exterior applications. MF resins are stain-resistant and remain unaffected by various strong solvents. MF resins are costlier than UF resins; hence their applications are limited in low-cost particle boards and plywood. They are used as timber laminating adhesives in plywood, medium-density fiberboard (MDF), and particle boards to provide them with mechanical and chemical resistance when required for exterior applications.

Dimer Acids Market Global Opportunity Analysis, Size, Share and Forecast 2019 - 2027

Dicarboxylic acids are formed by dimerizing unsaturated fatty acids to form dimer acids, also known as dimerized fatty acids. Oils derived from fatty acids like rapeseed oil, tallow oil, and tall oil provide these unsaturated fatty acids. Heat treatment of tall oil fatty acid combined with or without use of a suitable catalyst produces crude dimer. Due to the reaction between di-carboxylic acid and carboxylic acid, they can be used in many different products. A dimer acid is comprised of stearic acids, therefore it is named C36 dimer acid. Through this chemistry, Dimer acid may further be converted into Trimer acid, which contains three fatty acid molecules. Diamer acids are transparent liquids that have a light yellow color. They are non-toxic.

Low availability of feedstock such as C18 tall oil fatty acid is limiting the growth of the global Dimer Acid Market. The kraft wood pulping process produces this tall oil. Tall oil fatty acids are used to make the majority of dimer acids. In the foreseeable future, this aspect is projected to stifle global dimer acid marker expansion. Dimer acids' environmentally favourable nature has led to their use in a wide range of applications in a variety of end-user industries. In the near future, growing potential for corrosion inhibitors in the vehicle sector, personal care and cosmetics, and the flexographic ink industry are likely to drive market demand for dimer acids in both developed and developing nations. 

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Global Paraldehyde Market Size, Manufacturers, Supply Chain, Sales Channel and Clients, 2021-2027

Paraldehyde is the cyclic trimer of acetaldehyde molecules. Formally, it is a derivative of 1,3,5-trioxane. The corresponding tetramer is metaldehyde. A colourless liquid, it is sparingly soluble in water and highly soluble in ethanol. Paraldehyde slowly oxidizes in air, turning brown and producing an odour of acetic acid. It quickly reacts with most plastics and rubber.

Global Paraldehyde key players include Lonza, etc. Global top one manufacturer hold a share over 90%.

Europe is the largest market, with a share over 90%, followed by China and India, both have a share over 4% percent.

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In terms of product, Pharmaceutical Grade is the largest segment, with a share over 90%. And in terms of application, the largest application is Chemical Intermediates, followed by Textile Industry.

Market Analysis and Insights: Global Paraldehyde Market

In 2020, the global Paraldehyde market size was US$ 133.2 million and it is expected to reach US$ 172.9 million by the end of 2027, with a CAGR of 3.8% during 2021-2027.

Global Paraldehyde Scope and Market Size

Paraldehyde market is segmented by region, by country, company, type, application and by sales channels. Players, stakeholders, and other participants in the global Paraldehyde market will be able to gain the upper hand as they use the report as a powerful resource. The segmental analysis focuses on sales, revenue and forecast by region, by country, company, type, application and by sales channels for the period 2016-2027.

Segment by Type, the Paraldehyde market is segmented into

Pharmaceutical Grade

Industrial Grade

Segment by Application, the Paraldehyde market is segmented into

Chemical Intermediates

Textile Industry

Rubber Industry

Others

Regional and Country-level Analysis:

North America

United States

Canada

Asia-Pacific

China

Japan

South Korea

India

Southeast Asia

Australia

Rest of Asia-Pacific

Europe

Germany

France

U.K.

Italy

Russia

Nordic Countries

Rest of Europe

Latin America

Mexico

Brazil

Rest of Latin America

Middle East & Africa

Turkey

Saudi Arabia

UAE

Rest of MEA

Competitive Landscape and Paraldehyde Market Share Analysis

Paraldehyde market competitive landscape provides details and data information by companies. The report offers comprehensive analysis and accurate statistics on revenue by the player for the period 2016-2021. It also offers detailed analysis supported by reliable statistics on sale and revenue by players for the period 2016-2021. Details included are company description, major business, Paraldehyde product introduction, recent developments, Paraldehyde sales by region, type, application and by sales channel.

The major companies include:

Lonza

Godavari

Nuote Chemical

Bojing Chemical

Zhaofeng Chemical

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Table of content

1 Study Coverage 1.1 Paraldehyde Product Introduction 1.2 Market by Type 1.2.1 Global Paraldehyde Market Size Growth Rate by Type 1.2.2 Pharmaceutical Grade 1.2.3 Industrial Grade 1.3 Market by Application 1.3.1 Global Paraldehyde Market Size Growth Rate by Application 1.3.2 Chemical Intermediates 1.3.3 Textile Industry 1.3.4 Rubber Industry 1.3.5 Others 1.4 Study Objectives 1.5 Years Considered 2 Executive Summary 2.1 Global Paraldehyde Market Size Estimates and Forecasts 2.1.1 Global Paraldehyde Revenue 2016-2027 2.1.2 Global Paraldehyde Sales 2016-2027 2.2 Paraldehyde Market Size by Region: 2021 Versus 2027 2.3 Paraldehyde Sales by Region (2016-2027) 2.3.1 Global Paraldehyde Sales by Region: 2016-2021 2.3.2 Global Paraldehyde Sales Forecast by Region (2022-2027) 2.3.3 Global Paraldehyde Sales Market Share by Region (2016-2027) 2.4 Paraldehyde Market Estimates and Projections by Region (2022-2027) 2.4.1 Global Paraldehyde Revenue by Region: 2016-2021 2.4.2 Global Paraldehyde Revenue Forecast by Region (2022-2027) 2.4.3 Global Paraldehyde Revenue Market Share by Region (2016-2027) 3 Global Paraldehyde by Manufacturers 3.1 Global Top Paraldehyde Manufacturers by Sales 3.1.1 Global Paraldehyde Sales by Manufacturer (2016-2021) 3.1.2 Global Paraldehyde Sales Marke

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Dimer Acid Market - Global Industry Analysis, Forecast 2024

Dimer acids also known as dimerized fatty acids are known to be dicarboxylic acids that are produced by a process of dimerizing unsaturated fatty acids. These unsaturated fatty acids are obtained from fatty acid feedstock such as tallow oil, rapeseed oil and tall oil among others. Crude dimer is produced from tall oil fatty acid by heat treatment with or without use of a suitable catalyst. They act as building blocks for several end-products due to its di-carboxylic acid reactivity. Dimeric acids usually consist of stearic acids, therefore called as C36 dimer acid. This chemistry of Dimer acid can further produce trimer acid comprising of three fatty acid molecules. Dimer acids are transparent light yellow colored viscous liquids which are non-toxic in nature.

The major application of dimer acids is in manufacturing polyamide resins which are used in inks and coatings and adhesives among others. The other areas of application of dimer acids include reactive and non-reactive polyamides for epoxy resins, fuel additives, synthetic lubricants, polyol esters, alkyd resins, corrosion inhibitors, personal care and oil field drilling muds among others.

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Growing demand for dimer acids for manufacturing polyamides is the major factor driving the global dimer acid market. Increasing demand from the automobile industry is another factor generating scope for growth of global dimer acid market. Moreover, increasing demand from the end-user industries such as inks and coatings, adhesives and oil and petroleum industries is also expected to boost demand for dimer acids in the near future.

However, the limitation to the growth of global dimer acid market is due to low availability of feedstock such as C18 tall oil fatty acid. This tall oil is a result of kraft wood pulping operations. Major production of dimer acids is carried out from tall oil fatty acids. This factor is expected to hamper the growth of global dimer acid marker in the near future.

The environmental friendly nature of dimer acids has led to its application in wide range of applications in various end-user industries. Growing opportunities from the automobile industry for corrosion inhibitors, personal care and cosmetics and flexographic ink industry are expected to boost market demand for dimer acids in the developing as well as developing economies in the near future.

North America, Europe, Asia Pacific and Rest of the World (RoW) are the major segments for global dimer acids market. Asia Pacific is expected to consume large volume of dimer acids owing to the growing demand from the adhesives industry in the region. Other industries such as personal care and cosmetics and lubricant industry is also expected to fuel demand for dimer acids in the region. North America and Europe are also expected to boost demand for dimer acids due to the rising demand from the other end-user industries in the regions.

The key players profiled for global dimer acid market include: Anqing Juyuan Polymer Technology Co., Ltd., Anqing Hongyu Chemical Co., Ltd, Aturex Group, Arizona Chemical Company, LLC, BASF SE, Harima Chemicals Group, Inc, Jiangsu Jinma Oil Technology Development Co., Ltd., Croda International, Jiangsu Yonglin Chemical Oil Co., Ltd, Kodia Company Limited Company, ,Jiangxi Longwell Industrial Co.,Ltd, Shandong Huijin Chemical Co., Ltd , Jiangxi Yichun Yuanda Chemical Co.,Ltd, Tianmen Chengxin Chemical Co., Ltd. Company, Jiujiang Lishan Environmental Protection Technology Co.,Ltd, Cognis Corporation, Florachem, CHEMICAL ASSOCIATES, Hexion Specialty Chemicals and Liancheng baixin science and technology Co., Ltd., among others.

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How To  Choose The Right Industrial Workbench

Selecting the right industrial workbench is not easy. There are a wide variety of choices on the market. To help you choose an ideal industrial workbench, we’ve sorted out the important factors you should consider for the workbench which can best meet your requirements.

The Work environment

What kind of work is the workbench used for? This is an important factor. The work environment affects the size of the workbench, the material of workbench countertop and the storage capacity. If the workshop is to assemble a mobile phone, you just need a relatively small and adjustable workbench. Also, you need a light for the small parts assembly. As per the workflow of the digital parts assembly of cellphone, the mobile workbench with storage is essential, which can highly improve the work efficiency.

If you’re work in a lab of chemistry industry, how to choose the ideal lab workbench becomes more difficult. You need chemical-resistant Countertops to ensure long-lasting, durable use work tables. And an electronics lab needs the ESD workstation reliably to protect electrical and other ESD-sensitive components and parts. The perfect ESD workbench is ergonomically adaptable and ESD protected. Electrostatic charges are dissipated in a controlled manner via the working surface and grounding cable so that the workstation stays charge-neutral.

Weight Load Capacity

The weight load capacity is even more important for Industrial workbench. There’re three types of weight load capacity for your reference.

Heavy-duty workbench: This kind of workbench often can have a weight load capacity of 4000-5000 Ponds

Extra heavy-duty worktable: The extra heavy-duty one have a weight load capacity of 10000 - 20000 Ponds

Standard workstation: The load weight of the standard one ranges from 500 to 1,000 pounds.

The Right Workbench Countertops

The resistance to chemicals, abrasives, heat and moisture of a workbench countertop is one of the most important aspects you should consider for choosing a workbench with storage best fits your workshop.

There are a few types of workbench tops most commonly used.

Nylon & l Canvas

A veneer is made of strong nylon and cool canvas is used as a core with two layers and can resist general knocking without deformation and wear and oil.

It’s mainly suitable for a sub-factory bench press table, inspection table, assembly table surface.

ESD Laminate

This ESD top is widely used in thousands of places where static electricity is generated, such as textile, rubber processing, chemical, electronic semiconductor devices, electronic computers, electronic communication equipment, and micro-electronics industry production workshops and commercial-level laboratories.

Laboratory Workbench Top

This desktop is resistant to the attack of various chemical reagents, including various chemical reagents such as acids, bases and solvents.

It’s mainly used according to its characteristics of corrosion resistance, water-resistance and easy washing

There are anti-chemical corrosion requirements and occasions requiring frequent cleaning, such as chemical laboratory benches.

Stainless steel

The stainless steel workbench top has the characteristics of high strength and cleanliness. It is mainly used for the workbench used in the food and pharmaceutical industry. It can also be used on other occasions where the cleanliness requirements are high.

Fire-proof Board Countertop

After the thermosetting of the trimeric amide resin, the surface hardness is high, wear resistance, high-temperature resistance, impact resistance, surface pores are small and not easily contaminated, solvent resistance, water resistance, chemical resistance, flame resistance and other machinery strength. Insulation, arc resistance and aging.

This type of top is mainly applicable to the console for thousands of special requirements.

Storage Requirements

Storage options are important for space-saving of your workbench. Firstly, you need to determine the weights, the quantity, the shape of the items you need to be stored. The Space of the items. Then you can choose the workbench with storage options to range from The drawers, cabinets, plastic boxes and a variety of shelving. Various substructures ensure that there is plenty of storage space.

You can customize the storage of your industrial workbench to increase productivity while saving space. Whether shelves, pegboards, drawers, or a combination of them, they’re also useful storage options. These storage options are particularly important if different people are using the same workbench at different times.

Lights

If you work in a dark environment or work at night, A workbench with light is really useful for illuminating your workstation. Work table with lights often has built-in power strips. Except for light, also you can choose the hangers, shelves, square hole hanging boards, louver hanging boards, power sockets, etc.

The Adjustability

The different works may need to be done in the same workbench. When meeting the situation, you need the adjustable height workbench. With the adjustable feature, you can adjust the height to meet your work requirements.

Mobility

Mobility is one of the most important factors. If you need to move your workbench as the requirement of the workflow. The mobile workbench also called rolling workbench will be your right choice. The workbench can move on wheels. Its flexibility and adaptability make it the perfect solution for every area in the workplace. Because the basic models can be expanded to meet requirements at any time with versatile superstructures and add-ons. The rolling work table is suitable for workshop managers, separate work desks.

Summary

The industrial workbench is important whether you work in a laboratory, assemble workshop, or heavy industry factory. The right workbench can help you solve the storage durability and safety issues. The article explains the factors to consider and can give you a favor for selecting an ideal workbench. Sanji-first is one of the leading industrial workbench manufacturers with advanced technology, modern workshops, fast delivery and the most affordable prices.

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North America Trimer Acid Market Report (2014-2024) - Market Size, Share, Price, Trend and Forecast

North America Trimer Acid Market Report (2014-2024) – Market Size, Share, Price, Trend and Forecast

North America Trimer Acid Market Report (2014-2024) – Market Size, Share, Price, Trend and Forecast Abstract: The North America Trimer Acid market size is $XX million USD in 2018 with XX CAGR from 2014 to 2018, and it is expected to reach $XX million USD by the end of 2024 with a CAGR of XX% from 2019 to 2024. This report is an essential reference for who looks for detailed…

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The timber laminating adhesives market size was USD 650 million in 2020 and is projected to reach USD 1,047 million by 2026, at a CAGR of 8.1%.  Growing demand from the re-modeling and renovation industry in Europe and North America is likely to boost the timber laminating adhesives market. Melamine (urea) formaldehyde (MF & MUF) resin is produced by the polymerization and condensation of melamine, a trimer of dicyandiamide and formaldehyde with or without the presence of an acid catalyst.

MF resins are more water- and heat-resistant than urea formaldehyde (UF) resins; therefore they are used in exterior applications. MF resins are stain-resistant and remain unaffected by various strong solvents. MF resins are costlier than UF resins; hence their applications are limited in low-cost particle boards and plywood. They are used as timber laminating adhesives in plywood, medium-density fiberboard (MDF), and particle boards to provide them with mechanical and chemical resistance when required for exterior applications. 

The key market players are Henkel AG (Germany), 3M Company(U.S), Arkema (Bostik), AkzoNobel N.V. (Netherlands), , Sika AG (Switzerland). These players have adopted various strategies, such as merger & acquisition, investment & expansion, new product launch, partnership & agreement to grow in the market. Merger & acquisition was the key strategy adopted by the major players between 2017 and 2021

Trimmer Acid Market Research Report by Type, by Production Technology, by Application, by Function - Global Forecast to 2031

The global trimmer acid market is anticipated to expand at a 3.9% CAGR over the forecast period between 2021 and 2031, finds Future Market Insights (FMI). Increasing demand of adhesives & sealants and synthetic lubricants is driving the market of trimer acid.

Growing utilization of trimer acid in polymers and other chemical products is further expected to boost the consumption of trimer acid market. Hence, demand for trimer acid in construction industry is expected to drive sales in the coming decade.

The construction chemicals market has been experiencing significant growth, which in turn, is impacting the trimer acid market positively over the forecast period. Increasing government investments for infrastructural developments and construction spending across the globe is increasing the use of trimer acid.

Application of trimer acid in the manufacturing of paints & protective coatings in building and construction sector are anticipated to be major growth drivers. Additionally, surging trend of bio-based adhesives and lubricants is expected to further boost the sales of trimer acid.

However, environmental regulations pertaining to the use of chemically treated products and the concerns regarding rising prices of raw material is expected to be key factor hampering the growth of trimer acid market worldwide.

Key Takeaways:

In terms of application, coating segment in the global trimer acid market is dominating the market.

Rising demand for high performance adhesives is expected to provide growth to the adhesives & sealants segment, registering considerable growth between 2021 and 2031.

China and the U.S. is expected to be one of the key consumer in global trimer acid market owing to high presence of industries and raw materials suppliers in the country.

Russia is expected to dominate the Europe timer acid market throughout the assessment period on the back of increasing application in construction industry

Competitive Landscape

Key market participants in the global trimer acid market profiled in the report includes Wilmar International, Florachem, Oleon NV, Croda International Plc, Kraton Corporation, TCI Chemicals, Triveni Chemicals and many others.

Key players operating in the global trimer acid market are focusing on increasing their production capacities to boost their market footprint especially in the emerging economies. Furthermore, market participants are focusing on mergers, acquisitions and collaborations strategies to expand their global presence and strengthen their distribution network.

More Insights into the Trimer Acid Market Report

In its latest report, FMI offers an unbiased analysis of the Global Trimer Acid market, providing historical data for the period of 2016-2020 and forecast statistics for the period of 2021-2031. In order to understand the global market potential, its growth, and scope, the market is segmented on the basis of sources (canola based and tall oil fatty acid.), function (rheology modifier, polymer building block, viscosity modifier, corrosion inhibitor, asphalt binder) and application (coating, adhesive & sealants, elastomers, synthetic lubricants, others) across seven regions (North America, Latin America, Europe, East Asia, South Asia& Pacific and Middle East & Africa).

For More Info - https://www.futuremarketinsights.com/reports/trimmer-acid-market

Dimer Acid Market Size, Share, Trends, Analysis, Growth and Forecast 2016 – 2024

Dimer acids also known as dimerized fatty acids are known to be dicarboxylic acids that are produced by a process of dimerizing unsaturated fatty acids. These unsaturated fatty acids are obtained from fatty acid feedstock such as tallow oil, rapeseed oil and tall oil among others. Crude dimer is produced from tall oil fatty acid by heat treatment with or without use of a suitable catalyst. They act as building blocks for several end-products due to its di-carboxylic acid reactivity. Dimeric acids usually consist of stearic acids, therefore called as C36 dimer acid. This chemistry of Dimer acid can further produce trimer acid comprising of three fatty acid molecules. Dimer acids are transparent light yellow colored viscous liquids which are non-toxic in nature.

The major application of dimer acids is in manufacturing polyamide resins which are used in inks and coatings and adhesives among others. The other areas of application of dimer acids include reactive and non-reactive polyamides for epoxy resins, fuel additives, synthetic lubricants, polyol esters, alkyd resins, corrosion inhibitors, personal care and oil field drilling muds among others.

Read Report Overview @ https://www.transparencymarketresearch.com/dimer-acid-market.html

Growing demand for dimer acids for manufacturing polyamides is the major factor driving the global dimer acid market. Increasing demand from the automobile industry is another factor generating scope for growth of global dimer acid market. Moreover, increasing demand from the end-user industries such as inks and coatings, adhesives and oil and petroleum industries is also expected to boost demand for dimer acids in the near future.

However, the limitation to the growth of global dimer acid market is due to low availability of feedstock such as C18 tall oil fatty acid. This tall oil is a result of kraft wood pulping operations. Major production of dimer acids is carried out from tall oil fatty acids. This factor is expected to hamper the growth of global dimer acid marker in the near future.

The environmental friendly nature of dimer acids has led to its application in wide range of applications in various end-user industries. Growing opportunities from the automobile industry for corrosion inhibitors, personal care and cosmetics and flexographic ink industry are expected to boost market demand for dimer acids in the developing as well as developing economies in the near future.

North America, Europe, Asia Pacific and Rest of the World (RoW) are the major segments for global dimer acids market. Asia Pacific is expected to consume large volume of dimer acids owing to the growing demand from the adhesives industry in the region. Other industries such as personal care and cosmetics and lubricant industry is also expected to fuel demand for dimer acids in the region. North America and Europe are also expected to boost demand for dimer acids due to the rising demand from the other end-user industries in the regions.

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The key players profiled for global dimer acid market include: Anqing Juyuan Polymer Technology Co., Ltd., Anqing Hongyu Chemical Co., Ltd, Aturex Group, Arizona Chemical Company, LLC, BASF SE, Harima Chemicals Group, Inc, Jiangsu Jinma Oil Technology Development Co., Ltd., Croda International, Jiangsu Yonglin Chemical Oil Co., Ltd, Kodia Company Limited Company, ,Jiangxi Longwell Industrial Co.,Ltd, Shandong Huijin Chemical Co., Ltd , Jiangxi Yichun Yuanda Chemical Co.,Ltd, Tianmen Chengxin Chemical Co., Ltd. Company, Jiujiang Lishan Environmental Protection Technology Co.,Ltd, Cognis Corporation, Florachem, CHEMICAL ASSOCIATES, Hexion Specialty Chemicals and Liancheng baixin science and technology Co., Ltd., among others.