#polymer industry in india
Explore tagged Tumblr posts
Visit Tumblr Blog
Explore Tumblr blogs with no restrictions, modern design and the best experience.
Last Seen Tumblr Blogs
Fun Fact
The most popular pages on Tumblr are about Minecraft, GIFs, and David J. Peterson.
Text
The polymer industry in India is expanding rapidly, driven by innovation and demand across various sectors. Akmy Polyplast offers cutting-edge solutions, catering to industries like packaging, automotive, and construction. Stay ahead with our high-quality products and contribute to the industry's growth and sustainability.
0 notes
Text
4-Butylaniline (CAS 104-13-2) – Key Uses and Applications by Vinati Organics
4-Butylaniline (CAS 104-13-2) is an important aromatic amine used in the production of dyes, agrochemicals, and polymers. Vinati Organics manufactures high-quality 4-Butylaniline that meets rigorous industry standards, making it ideal for various industrial applications. This compound is crucial in the synthesis of specialty chemicals and intermediates used in diverse sectors, including textile and agriculture. Explore more about 4-Butylaniline and its uses on our product page. Visit Vinati Organics
#“4-Butylaniline”#“CAS 104-13-2”#“Aromatic Amines”#“Vinati Organics”#“Dye Intermediates”#“Agrochemicals”#“Polymer Production”#“Industrial Chemicals”#“Specialty Chemicals”#“Chemical Manufacturers India”#“4-Butylaniline Applications”
0 notes
Text
Polymer Material Testing
Polymer Material Testing and plastic testing lab are among the most versatile materials on the planet, and they are employed in virtually every area of our life. They've changed the way consumer goods and industrial applications like aerospace, automotive, electronics, and packaging are made. Our scientists have the industry expertise to provide you with the information you need to advance product development, assure compliance, and launch a successful market launch for the application you're working on.
#Polymer Material Testing Laboratory#Polymer Material Testing in Chennai#Polymer Material Testing in India#plastic testing laboratory#chennai#india#industry
0 notes
Text
Scientists from IIT Madras, Columbia University, and Colorado State University have joined forces to develop a revolutionary technique for recycling plastic. Their innovative method allows for the merging of different types of plastics, resulting in strong and recyclable composite materials.
Published in the esteemed journal Nature, this groundbreaking research has the potential to transform the plastic recycling industry. Traditional recycling methods face challenges due to the incompatibility of various polymers. However, the multi-institutional team overcame this obstacle by utilizing a specially designed universal dynamic crosslinker (UDC) to successfully blend otherwise incompatible plastics.
Tarak Patra, Assistant Professor in the Department of Chemical Engineering at IIT Madras, explained that although India's plastic recycling rate exceeds the global average, technical hurdles hinder further progress. The challenge lies in the fact that plastic waste consists of different types of polymers that do not easily mix.
Patra further elaborated that for effective plastic recycling, it is crucial to ensure that different plastics can blend together without compromising their individual properties. Through a process called "compatibilisation," the researchers were able to achieve this, enabling the treatment of all plastics as one unit without the need for segregation.
Despite the initial obstacles, the scientists are excited about the potential of this new strategy, which aims to reuse mixed plastic waste over multiple use cycles. The research offers hope for a future where plastic recycling becomes more efficient and sustainable, contributing to a cleaner and greener planet.
7 notes
·
View notes
Text
Industry Insights: Where We Supply Tool Steel - Virat Special Steels
Virat Special Steels stands tall as India’s largest stockiest, importer, and supplier of HSS Steel, Hot Work Steel, Cold Work Steel & Plastic Mould Steel. Representing top manufacturers of special steels worldwide, we enjoy global recognition for our unwavering commitment to quality.
Serving Industries: 🔧 Forging Industry: Shaping metal using compressive forces with a hammer or press, classified into cold forging, warm forging, or hot forging.
🏗️ Pressure Die Casting: Forcing molten metal under high pressure into a mold cavity, made using two hardened tool steel dies.
🚗 Aluminum Extrusions: Material pushed through a die to the desired cross-section, creating complex parts with excellent surface finishes.
🚙 Automotive Industry: Involved in manufacturing, design, and development of motor vehicles.
⛽ Oil & Gas Industry: Supplying more than 60% of our nation’s energy, including natural gas for electricity.
🧩 Plastic Industry: Manufacturing polymer materials for aerospace, construction, electronics, packaging, and transportation.
🍶 Glass Industry: Involves float glass process and glassblowing, producing sheet glass and containers.
🚲 Cycle Parts: Manufacturing components like bearings, chains, chain sets & cranks, handlebars, forks.
🚉 Railways: Manufacturing railway components such as gear holders, bogie cast parts, axles, pins, ground lever frames, adjustable cranks, compressor pistons, and bearings.
VIRAT SPECIAL STEELS PVT. LIMITED , INDIA is your trusted partner, supplying premium tool steels to diverse industries in India and globally.
Virat Special Steels, INDIA! https://www.viratsteels.com/
📞 Contact us today to learn more about how we can support your business! https://www.viratsteel.in/special-steel-supply-networks/
Any further queries feel free to contact us : 🌐https://www.viratsteels.com/ 📬 [email protected] ☎+91 98140-21775
#ludhiana#viratsteels#india#gurgaon#viratspecialsteels#toolsteelsupplier#gurugram#pune#iso9001#steel#db6 steel#h13diesteel#h13steel#h13steelbarexporter#h11steel#din 2714#din 2344#din2343#din2738#d2steel#m2steels#m35#p20ni
2 notes
·
View notes
Text
Stalemate at Busan global plastics treaty meet
Not surprisingly, the negotiations at the fifth – and what was supposed to be the final – session of the Intergovernmental Negotiating Committee to arrive at a legally binding global plastics treaty (INC-5) ended in a stalemate with stakeholders deciding to meet again for INC 5.2 in 2025 for further talks.
More than 3,300 delegates – including members representing more than 170 nations and observers from more than 440 organizations – met in Busan in South Korea from 25 November to 1 December in mainly closed-door negotiations. INC-5 follows INC-1 in Punta del Este in November 2022, INC-2 in Paris in June 2023, INC-3 in Nairobi in November 2023, and INC-4 in Ottawa in April 2024.
According to reports and updates Packaging South Asia has been receiving from various sources in Busan, a sticking point has been the demand from anti-pollution campaigners to cut virgin plastic polymer production, plastic production and to regulate hazardous chemicals – which oil-and gas-producing countries such as Saudi Arabia and Kuwait have been vehemently opposing.
India clearly stated its inability to support any measures to regulate the production of primary plastic polymers, saying, “It has larger implications in respect of the right to development of member states.”
However, India admitted the hazards of plastic pollution and listed the measures it has taken to address the problem – a single-use plastic ban, an EPR regime on plastic packaging, a push for sustainable packaging, and reducing the use of virgin material. “Our approach to finalize the draft instrument should be based on mutual trust, cooperation, and the spirit of consensus,” India stated.
Campaigners say there was a lack of transparency in the negotiations, which they allege were held hostage by petro-states and like-minded lobbies. Sources closely observing the negotiations in Busan said the INC chair and member states were locked in closed-door talks while important stakeholders such as frontline communities, waste-pickers, and the Indigenous Peoples nations and groups were left out in the cold.
According to one report, more than 220 fossil fuel and chemical industry lobbyists registered for INC-5, the largest single group at the talks, which dwarfed every other delegation.
“The lack of transparency in these discussions sparked outrage, with many stakeholders questioning the legitimacy of decisions being made in closed-door settings. These decisions, after all, directly impact the lives of billions, particularly those in vulnerable communities. Yet, their voices were excluded in a process that seemed to prioritize political expediency over accountability,” writes Siddharth Ghanshyam Singh of Delhi’s Centre for Science and Environment in Down to Earth.
The text, seen by Packaging South Asia, defines terms such as plastic, plastic pollution, and plastic waste as well as refers to increasing levels of plastic pollution, including in the marine environment, and the serious environmental and human health problems it causes.
Civil society groups, however, say the chair’s text falls short of expectations on core obligations such as plastic production and object to referring to a reduction target as “aspirational.” They also say the chair’s text has stripped away systematic controls on toxic chemicals and chemicals of concern.
Rahyang Nusantara, deputy director, Dietplastik Indonesia & Convenor of Asia Reuse Consortium, says the current text missed the opportunity to advance real solutions. The prospective agreement must have a dedicated article with ambitious reuse targets financed by a new and dedicated financial mechanism to enable the establishment, operations and scaling up of non-plastic reuse and repair systems, Nusantara says. "This is key for a safe and toxic-free just transition away from plastics to truly end plastic pollution."
According to Joan Marc Simon, founder of Zero Waste Europe, the good news is that the campaigners have succeeded in shifting the conversation to addressing the entire plastics lifecycle. "From pointing fingers at the victims of plastic pollution 10 years ago, the world is now discussing a treaty that goes to the root causes of plastic pollution," Simon said in a Linkedin post, adding the slow progress is because of the 'delay and derail' tactics by oil and plastic producing countries.
Ana Rocha, Global Plastics policy director of the Global Alliance for Incinerator Alternatives (GAIA) – a worldwide alliance of more than 1,000 grassroots groups, non-governmental organizations, and individuals in over 90 countries – sums up the mood at the talks, “...The ambitious majority needs to do whatever it takes to get these negotiations back on track and reclaim the spirit of multilateralism. Now is not the time for timidity. It is time to fight for our collective survival.”
Explaining the delay in the negotiations, Inger Andersen, executive director of the UN Environment Programme (UNEP), says there is, “Persisting divergence in critical areas, and more time is needed for these areas to be addressed.”
While there is no denying that plastic and allied products are present in almost every sector be it packaging, pharma, FMCG, electrical and electronic equipment, or household products, and play an important role in our lives – the impact of plastic pollution on the environment, human health, and the socio-economic burden it causes, is too big to ignore. As such there is an urgent need for all stakeholders to find a way out of one of the biggest crises of our times. Else INC 5.2 might just lead to INC 5.3 and so on…
2 notes
·
View notes
Text
Q&A: Researchers develop sustainable new adhesives for industry
Karan Dikshit (Ph.D.MatSci'22) is the first author on a paper in ACS Applied Materials & Interfaces that introduces new adhesive materials that not only allow for easy sticking and unsticking but could eventually contribute to sustainability efforts around the globe. Dikshit studied polymer chemistry and mechanics with Assistant Professor Carson Bruns during his time at CU Boulder in the Material Science and Engineering Program. We asked him about the paper, his current job, and more. What was your area of study in the College of Engineering and Applied Science and how did you get to Boulder? Dikshit: Prior to joining CU Boulder I had the incredible opportunity to gain research experience at the esteemed National Chemical Laboratory in India. It was during this time that my passion for scientific exploration and making a positive impact on the world through sustainable materials grew immensely.
Read more.
15 notes
·
View notes
Text
Types of Insulators in Overhead Lines: The Ultimate Guide
Within the realm of electrical power transmission, overhead wires assume a pivotal function in facilitating the effective conveyance of electricity across extensive distances. The aforementioned lines are upheld by a system of towers and poles, and a crucial element that guarantees their dependable functionality is the insulator. Insulators are specifically engineered to impede the transmission of electrical current between the conductive elements and the supporting frameworks, ensuring the safety of the lines and upholding a consistent electrical provision. Strengthen your electrical networks - Trust the expertly crafted Medium Voltage Support Insulators offered by Radiant Enterprises - one of the leading Medium Voltage Support Insulator manufacturers in India!
This comprehensive reference aims to examine the various classifications of insulators utilised in overhead lines, elucidating their distinctive characteristics and practical implementations.
Pin Insulators:
Pin insulators are widely utilised in overhead lines, making them one of the most prevalent types in use. The components are comprised of a body made of either ceramic or glass, including a spindle located at the bottom that is securely attached to the cross-arm of the supporting structure. The conductors are affixed to the upper groove of the insulator, therefore ensuring electrical isolation. Pin insulators are commonly used due to their simplicity, cost-effectiveness, and capacity to endure mechanical and electrical pressures. Distribution lines and low-voltage transmission lines frequently employ these devices.
Suspension Insulators:
Suspension insulators are utilised in high-voltage transmission lines characterised by elevated tension levels. The design of these units involves a serial connection of insulators, resulting in the formation of an elongated chain. Typically, a unit comprises a ceramic or composite disc accompanied by a metallic cover and an insulating cement joint. Suspension insulators are affixed to the cross-arm through the use of an insulating string, so facilitating the suspension of the conductor beneath the tower. These insulators exhibit exceptional mechanical durability and demonstrate remarkable efficacy in environments characterised by substantial levels of pollution, such as industrial zones.
Strain Insulators:
When a transmission line terminates or a sharp turn is made in the line's direction, strain insulators are employed to securely terminate or anchor the conductors. They are built to endure the mechanical tension of the hung conductor as well as the electrical stress. Strain insulators are often constructed of porcelain or toughened glass and have a long, cylindrical shape. Their major function is to disperse mechanical forces while preventing electrical contact.
Shackle Insulators:
Low-voltage distribution lines typically make use of shackle insulators, which are sometimes known as spool or link insulators. Made of porcelain or polymer, they take the form of a spool. Shackle insulators can be fastened to their support structure with a nut and bolt thanks to the centrally located threaded bolt. The shackle eye is then used to secure the conductor. For low-voltage uses, these insulators are a straightforward and inexpensive option. Experience comfort and energy efficiency - Order high-quality Indoor Insulators manufactured and supplied by Radiant Enterprises - one of the renowned Indoor Insulator manufacturers in India!
Composite Insulators:
In recent years, composite insulators have experienced a surge in popularity owing to their advantageous characteristics, including their lightweight nature, superior mechanical strength, and exceptional pollution resistance. Typically, these objects consist of a core made of fibreglass and a housing made of silicone rubber. Composite insulators possess superior resistance to adverse environmental conditions, hence decreasing the necessity for maintenance. Insulators made of alternative materials are employed in both distribution and transmission lines, serving as a practical substitute for conventional porcelain insulators.
Post Insulators:
Post insulators are commonly utilised in substations and various electrical apparatus. These units are specifically engineered to function as a cohesive entity, effectively insulating the conductors from the earth or supporting structures. Post insulators exhibit a diverse range of shapes and sizes, which are contingent upon the particular application and voltage prerequisites. Crucial elements are present in order to guarantee the safety and effectiveness of electrical power networks within substations.
Final Thoughts:
Insulators play a crucial role in overhead lines, serving as essential components that guarantee the dependable and secure transmission of electrical power. This comprehensive resource provides descriptions of numerous types of insulators that are designed to accommodate varying voltage levels, ambient circumstances, and mechanical specifications. Various types of insulators, ranging from old pin and suspension insulators to contemporary composite insulators, possess distinct advantages and find usage in diverse contexts.
When undertaking the design of overhead lines, it is imperative to take into account many elements such as voltage levels, contamination levels, and mechanical loads in order to make an informed decision regarding the appropriate insulator type. The continuous development of insulators, driven by breakthroughs in materials and manufacturing techniques, has resulted in improved efficiency and increased lifespan of power transmission networks on a global scale. With the continuous advancement of technology, it is anticipated that there will be a proliferation of inventive insulator solutions in the future, which will further enhance the efficiency of overhead lines. Ensure continuous power supply with expertly crafted Outdoor Insulators for your infrastructure supplied by Radiant Enterprises - one of the best Outdoor Insulator manufacturers in India!
#Medium Voltage Support Insulator Manufacturers in India#Indoor Insulator Manufacturers in India#Outdoor Insulator Manufacturers in India
7 notes
·
View notes
Text
Color Masterbatch
Color masterbatch is a concentrated form of pigments or dyes blended into a polymer carrier, enhancing the color of plastics during manufacturing. It ensures consistent and vibrant hues, simplifying the coloring process in various industries such as packaging, automotive, and consumer goods.
For more information, contact us : +91- 9081802800 and send e-mail : [email protected] visit - https://www.mahirapolyglobal.com/
1003, Pinnacle Business Park, Corporate Road, Prahladnagar, Ahmedabad, Gujarat - 380015 | INDIA
#commercial#ecommerce#marketing#sales#colormasterbatch#colormasterbatchmanufacturer#masterbatchsupplier#masterbatchmanufacturerindia
1 note
·
View note
Text
What is strapping material and types of strapping material?
Strapping is securing and bundling packages and loads for storage and shipment. Different types of strapping materials are used to secure these cartons and other items. Various types of strapping materials are available in the market for different strapping and packaging needs. The strapping materials are made using different polymers, steel, and composite materials according to the need and demand. One should connect with the PET or PP Strap manufacturers in India according to their needs.
You will find strapping materials of various lengths, widths, and thicknesses to cater to different applications. The flexibility and tensile strength of the strapping materials also vary. All these qualities of strapping materials help in securely bundling several types of loads. Before buying the strapping materials from PP or PET Strap manufacturers in India, ask them about these qualities. Some of the most common applications of strapping materials are securing building or construction materials, securing products during shipping and transportation, securing finished goods for storage and supply, securing items at warehouses, and a few others.
Now that you know what strapping materials are and where they can be used, let’s know their types. After knowing the types of strapping material, you can choose the right strapping material for several applications. It will help you know which strapping material is used for which purpose, so let’s discover them.
Types of Strapping Materials
This blog shares the most common types of strapping materials used for multiple applications. They are:
Polypropylene Strap or PP Strap
Polyester Strap or PET Strap
Steel Strap
These three strapping materials are available with most PP strap manufacturers in India.
Polypropylene Strapping (PP Strap)
PP Strap is one of the most widely used straps for various applications. For applications that require light or medium strapping strength, polypropylene strapping is best for them. It is available in varied thicknesses, tensile strengths, widths, and colours. PP Straps are light in weight, making them suitable for bundling and sealing loads that are light in weight. They have several properties, like corrosion resistance, no deformation, and breaking strength. These qualities of PP Straps make them the perfect strapping material for holding products and items for a long time. Polypropylene Strapping material is mainly used in several applications like postal service, bailing hay, flooring, millwork, merchandise foods, and packing of frozen foods & meats.
Polyester Strapping (PET Strap)
PET Strap is the most common and highly durable strapping material among the multiple strapping materials. It is considered the best alternative to steel strapping because it is one of the strongest strapping materials with high tension. It is used to handle medium or heavy loads due to its several properties. It comes with several properties, like being resistant to UV rays, resistant to shocks, resistant to high temperatures, lightweight, and excellent stretch recovery.
Most PET straps are available in green colour as they are made using plastic bottles. But they are available in other colours too. You can ask the PET Strap manufacturers in India if they offer customized straps or not to get the desired colour. Most often, the PET straps are made using recycled materials only. Industries also use Polyester strapping because of their impact absorbing quality during the shipment. Some uses of polyester strapping material are in stabilizing heavy loads, palletizing heavy loads, and handling metals, bricks, tiles, pallets of bottles, and cans.
Steel Strap
It is one of those strapping materials used for a long time. We currently have several alternatives to steel strapping available in the market. Steel straps are mainly used for heavy loads or loads that require less stretching but high strength. Due to the zero stretchability, steel straps offer high tension, which is suitable for heavy materials. Like the above two strapping materials, steel straps are also available in different sizes, thicknesses, and widths. They come with different finishes like zinc-coated, glued, galvanized, and painted. Steel strapping is mainly used for several heavy-duty applications, like bundling metals, construction materials, securing metal containers, steel coins, railroad shipping, and packaging other heavy industrial equipment.
All these three strapping materials are widely used for packaging or bundling loads and items. If you need any of these strapping materials, go for OM Pack Strap. Being one of the best PET strap manufacturers in India, they offer heavy-duty, reliable pack straps at reasonable prices for several applications.
#PP Transparent Box Strapping#White Strap Roll#PP Strap Manufacturers in India#PET Strap Manufacturers in India#PP Box Strap Virgin
2 notes
·
View notes
Text
Polymer Industry in India - Growth & Future Trends
The polymer industry in India is growing rapidly with innovations in manufacturing and sustainability. Explore the latest trends, market opportunities, and advancements in the sector at Akmy Polyplast. Stay ahead with insights into India's thriving polymer market and its global impact.
Read More:
0 notes
Text
Vacuum Pouches Manufacturers & Suppliers in India | Solos Polymers
Solos Polymers Pvt. Ltd (SPPL) is in this industry for many years and is capable to offer you various packaging solution including vacuum pouches.
0 notes
Link
0 notes
Text
Industry Insights: Where We Supply Tool Steel - Virat Special Steels
Virat Special Steels stands tall as India’s largest stockiest, importer, and supplier of HSS Steel, Hot Work Steel, Cold Work Steel & Plastic Mould Steel. Representing top manufacturers of special steels worldwide, we enjoy global recognition for our unwavering commitment to quality.
Serving Industries:
🔧 Forging Industry: Shaping metal using compressive forces with a hammer or press, classified into cold forging, warm forging, or hot forging.
🏗️ Pressure Die Casting: Forcing molten metal under high pressure into a mold cavity, made using two hardened tool steel dies.
🚗 Aluminum Extrusions: Material pushed through a die to the desired cross-section, creating complex parts with excellent surface finishes.
🚙 Automotive Industry: Involved in manufacturing, design, and development of motor vehicles.
⛽ Oil & Gas Industry: Supplying more than 60% of our nation’s energy, including natural gas for electricity.
🧩 Plastic Industry: Manufacturing polymer materials for aerospace, construction, electronics, packaging, and transportation.
🍶 Glass Industry: Involves float glass process and glassblowing, producing sheet glass and containers.
🚲 Cycle Parts: Manufacturing components like bearings, chains, chain sets & cranks, handlebars, forks.
🚉 Railways: Manufacturing railway components such as gear holders, bogie cast parts, axles, pins, ground lever frames, adjustable cranks, compressor pistons, and bearings.
VIRAT SPECIAL STEELS PVT. LIMITED , INDIA is your trusted partner, supplying premium tool steels to diverse industries in India and globally.
Learn more: Virat Steels Serving Industries: https://www.viratsteels.com/serving-industries.php
Any further queries feel free to contact us : 🌐https://www.viratsteels.com 📩[email protected] 📲+91-98140-21775
#ludhiana#viratsteels#india#gurgaon#viratspecialsteels#toolsteelsupplier#gurugram#iso9001#toolsteels#steelindustries#forging#diecasting#aluminumextrusions#automotive#oilandgas#plasticindustry#glassindustry#cycleparts#railways#DB6Steel#H13Steel#H11Steel
2 notes
·
View notes
Text
Asia Pacific Acrylic Associative Thickener Market Research Report 2025-2032
Acrylic Associative Thickeners are synthetic rheology modifiers primarily used in water-based formulations to enhance viscosity, stability, and application properties. These thickeners are widely utilized in paints, coatings, personal care products, and adhesives, providing improved performance in terms of flow behavior, leveling, and resistance to settling. The key advantage of acrylic associative thickeners lies in their ability to maintain a balance between thickening efficiency and ease of application.
Download a free Sample Report PDF - https://www.24chemicalresearch.com/download-sample/280014/asia-pacific-acrylic-associative-thickener-market-2024-2030-40
Market Size
The Asia Pacific Acrylic Associative Thickener Market was valued at US$ 276.8 million in 2024 and is projected to reach US$ 358.4 million by 2030, registering a CAGR of 4.4% during the forecast period of 2024-2030. The increasing demand for water-based coatings and eco-friendly formulations has been a primary driver for market growth.
In 2023, China accounted for 45% of the market share, followed by Japan at 20% and India at 15%. The architectural coatings sector consumed 60% of the total production, while personal care applications accounted for 25%. Furthermore, the textile industry witnessed a 7% growth in demand for acrylic associative thickeners, particularly in fabric printing applications.
Market Dynamics (Drivers, Restraints, Opportunities, and Challenges)
Drivers
Growing Paints and Coatings Industry: The rapid expansion of the construction and infrastructure sectors in Asia Pacific is boosting the demand for water-based coatings, thereby fueling market growth.
Eco-Friendly Formulations: Stricter environmental regulations and consumer preference for low-VOC (volatile organic compounds) formulations have driven a 10% increase in demand for low-VOC acrylic associative thickeners.
Innovation in Personal Care: Rising awareness of personal care and hygiene has increased the use of thickeners in skincare and haircare products.
Restraints
Volatile Raw Material Prices: Fluctuations in petrochemical prices, particularly acrylic acid costs, have led to a 5% variation in production expenses, impacting profit margins.
High Production Costs: Manufacturing advanced acrylic thickeners requires significant investment in research and development, affecting pricing competitiveness.
Opportunities
Shift Towards Bio-Based Thickeners: The industry has seen a 12% increase in R&D spending on renewable raw materials, presenting opportunities for sustainable product innovations.
Emerging Markets: The growing industrial sectors in Southeast Asia, particularly in Thailand, Indonesia, and Vietnam, present untapped market potential.
Challenges
Regulatory Compliance: Compliance with evolving environmental and safety regulations poses challenges for manufacturers.
Market Competition: The presence of established global players and new regional entrants intensifies competition, requiring continuous product differentiation.
Regional Analysis
The Asia Pacific market is led by China (45%), followed by Japan (20%), and India (15%). Other significant contributors include South Korea, Australia, Thailand, and Indonesia.
China: The dominant player due to its robust paints, coatings, and textile industries.
Japan: Known for its technological advancements in polymer chemistry and high-performance coatings.
India: A rapidly growing market with increasing demand in construction and personal care industries.
Southeast Asia: Countries like Thailand and Indonesia are experiencing high demand due to infrastructural developments and expanding manufacturing sectors.
Competitor Analysis
Arkema S.A. (France)
BASF SE (Germany)
Ashland (USA)
Elementis PLC (UK)
Lubrizol Corporation (USA)
Mitsubishi Chemical Corporation (Japan)
Dow Chemical Company (USA)
Eastman Chemical Company (USA)
DIC Corporation (Japan)
Nippon Shokubai Co., Ltd. (Japan)
Market Segmentation (by Application)
Adhesives and Sealants
Coatings and Inks
Building and Construction
Textile
Paper Processing
Others
Market Segmentation (by Type)
Non-Ionic Associative Thickeners
Anionic Associative Thickeners
Geographic Segmentation
China
India
Japan
South Korea
Australia
Thailand
Indonesia
FAQ
What is the current market size of the Asia Pacific Acrylic Associative Thickener market?
➣ The market was valued at US$ 276.8 million in 2024 and is expected to reach US$ 358.4 million by 2030 with a CAGR of 4.4%.
Which are the key companies operating in the market?
➣ Key players include Arkema S.A., BASF SE, Ashland, Elementis PLC, Lubrizol Corporation, Mitsubishi Chemical Corporation, Dow Chemical Company, Eastman Chemical Company, DIC Corporation, and Nippon Shokubai Co., Ltd.
What are the key growth drivers in the market?
➣ Major drivers include the rising demand for water-based coatings, regulatory push for low-VOC formulations, and increasing use in personal care and textile applications.
Which regions dominate the market?
➣ China (45%) leads the market, followed by Japan (20%) and India (15%).
What are the emerging trends in the market?
➣ Key trends include the shift towards bio-based thickeners, increased R&D investments in sustainable alternatives, and growing adoption of water-based coatings in industrial applications.
Competitor Analysis
The report also provides analysis of leading market participants including:
Key companies Acrylic Associative Thickener revenues in Asia Pacific market, 2019-2024 (Estimated), ($ millions)
Key companies Acrylic Associative Thickener revenues share in Asia Pacific market, 2023 (%)
Key companies Acrylic Associative Thickener sales in Asia Pacific market, 2019-2024 (Estimated),
Key companies Acrylic Associative Thickener sales share in Asia Pacific market, 2023 (%)
Key Points of this Report:
The depth industry chain includes analysis value chain analysis, porter five forces model analysis and cost structure analysis
The report covers Asia Pacific and country-wise market of Acrylic Associative Thickener
It describes present situation, historical background and future forecast
Comprehensive data showing Acrylic Associative Thickener capacities, production, consumption, trade statistics, and prices in the recent years are provided
The report indicates a wealth of information on Acrylic Associative Thickener manufacturers
Acrylic Associative Thickener forecast for next five years, including market volumes and prices is also provided
Raw Material Supply and Downstream Consumer Information is also included
Any other user's requirements which is feasible for us
Reasons to Purchase this Report:
Analyzing the outlook of the market with the recent trends and SWOT analysis
Market dynamics scenario, along with growth opportunities of the market in the years to come
Market segmentation analysis including qualitative and quantitative research incorporating the impact of economic and non-economic aspects
Regional and country level analysis integrating the demand and supply forces that are influencing the growth of the market.
Market value (USD Million) and volume (Units Million) data for each segment and sub-segment
Distribution Channel sales Analysis by Value
Competitive landscape involving the market share of major players, along with the new projects and strategies adopted by players in the past five years
Comprehensive company profiles covering the product offerings, key financial information, recent developments, SWOT analysis, and strategies employed by the major market players
1-year analyst support, along with the data support in excel format.
Download a free Sample Report PDF - https://www.24chemicalresearch.com/download-sample/280014/asia-pacific-acrylic-associative-thickener-market-2024-2030-40
0 notes
Text
How Drag Reducing Agent Chemicals Improve Pipeline Efficiency and Save Costs
Pipelines are of utmost importance in the realm of oil and gas transportation as they facilitate the movement of substantial amounts of these valuable commodities from producing sites to refineries and end-users. Nevertheless, the transportation of these fluids over extended distances presents various obstacles, such as the occurrence of frictional losses, heightened energy consumption, and escalated operational expenses. In order to address these difficulties and enhance the efficiency of pipelines, the industry has resorted to the utilisation of drag reduction agent (DRA) chemicals. Experience seamless flow with advanced solutions offered by Imperial Oilfield Chemicals – one of the leading Drag reducing agent chemical manufacturers in India.
This blog post aims to examine the mechanisms of action of DRA compounds, elucidate their advantages, and analyse their role in generating substantial financial savings.
Understanding Drag in Pipelines:
When a fluid traverses a pipeline, it encounters friction with the inner surface of the pipe, resulting in resistance and subsequent pressure reductions. The phenomenon of resistance, sometimes referred to as "drag," is responsible for a reduction in the velocity of fluid flow, an increase in the energy required for pumping, and an elevation in overall energy consumption. The magnitude of drag is contingent upon the characteristics of the fluid, the dimensions of the pipeline, and the velocity of the flow. In the context of hydrocarbon transportation pipes, the phenomenon of drag can result in a reduction in pressure, necessitating the allocation of additional pumping energy to sustain the required flow rate.
Enter Drag Reducing Agents (DRA):
Drag Reducing Agents (DRA) refer to a specific category of chemical compounds that are intentionally introduced into the fluid stream in order to reduce the drag experienced within pipelines. Drag reduction agents (DRAs) have been found to be remarkably efficient in mitigating frictional losses, hence facilitating enhanced fluid flow within pipelines. These devices function through the manipulation of fluid dynamics, resulting in a favourable flow condition characterised by reduced turbulence and diminished presence of eddies and swirls within the fluid flow.
How Drag Reducing Agents Work?
DRA molecules operate at the molecular scale and are commonly characterised by their elongated polymer structure. Upon introduction into the pipeline fluid, these polymers undergo alignment in the direction of flow, resulting in the formation of a protective layer that minimises the interaction between the fluid and the inner surface of the pipe. This phenomenon leads to a decrease in wall shear stress and turbulence, leading to a corresponding reduction in frictional and pressure losses. Consequently, the fluid is able to traverse the pipeline with diminished resistance, thereby sustaining an elevated flow rate and necessitating a reduced amount of pumping power.
Benefits of Using Drag Reducing Agents:
Enhanced Pipeline Efficiency: Through the reduction of drag and frictional losses, the utilisation of Drag Reducing Agents (DRAs) substantially enhances the overall efficiency of the pipeline. The augmented flow rate results in enhanced throughput and decreased transit durations for the conveyed fluids. Maximize flow capacity, trust expertly formulated Drag reducing agent chemical in Vadodara offered by Imperial Oilfield Chemicals!
Energy Savings: By minimising resistance, the pumping demands are decreased, leading to significant energy conservation. The use of energy-efficient practices in operations has a beneficial effect on the environment by contributing to the mitigation of greenhouse gas emissions.
Extended Pipeline Lifespan: The extension of the pipeline lifespan can be attributed to the reduction in friction and turbulence, which subsequently results in less stress on the inner walls of the pipeline. This reduction in stress contributes to the prolonged operational life of the pipeline and then leads to a reduction in associated maintenance costs.
Cost Savings: Cost savings can be achieved through the combined advantages of enhanced efficiency and energy conservation, resulting in direct reductions in expenses. Operators have the ability to enhance the cost-effectiveness of hydrocarbon and fluid transportation by employing Drag Reducing Agents (DRAs).
Enhanced Safety: DRAs also contribute to improved safety through the mitigation of pressure variations and the reduction of the potential for pipeline instability, hence mitigating the danger of accidents or failures.
Implementing DRA Solutions:
The process of incorporating DRA solutions into pre-existing pipeline systems is a very uncomplicated endeavour. Chemical substances are introduced into the pipeline at designated locations, and their quantity can be modified according to the flow rates and specific attributes of the pipeline. The flexibility provided enables operators to customise the DRA treatment according to the specific requirements of each pipeline, hence optimising the advantages derived from it.
Final Thoughts:
The implementation of Drag Reducing Agent (DRA) chemicals proves to be a viable strategy for enhancing pipeline efficiency, mitigating operational expenses, and bolstering safety measures during the transit of hydrocarbons and various fluids. Through the process of minimising drag and frictional losses, Drag Reducing Agents (DRAs) effectively optimise flow rates, minimise energy consumption, and enhance the longevity of pipelines.
The execution of this strategy has a mutually beneficial outcome for both pipeline operators and the environment, as it effectively encourages the adoption of sustainable practices and responsible transportation of resources. With the continuous advancement of technology, it is anticipated that the oil and gas industry will witness the emergence of increasingly inventive approaches to enhance pipeline operations and further mitigate the environmental impact associated with carbon emissions. To enhance your pipeline lifespan, get innovative Drag Reducing Agents manufactured and supplied by Imperial Oilfield Chemicals - one of the best Drag reducing agent manufacturers in Vadodara for long-term performance!
#Drag Reducing Agent Chemical Manufacturers India#Drag Reducing Agent Chemical in Vadodara#drag reducing agent manufacturers Vadodara
6 notes
·
View notes