The article will highlight the latest research on VII, as well as the marketing projections for the future. We will also look at how manufacturers can improve their marketing presence and their products. At the end, it highlights the ways to measure the VII.
Table of contents
- Recent Research on VII
- Marketing Projections for the Future
- Improving Marketing Presence and Products
- Rising Competition in the Viscosity Index Improvers Market: The Challenge of Unorganized Players
- BRICS Countries: Emerging Market Opportunities for the Viscosity Index Improvers Industry
- 5 Ways To Meaure The VII
Viscosity Index Improvers (VII) are chemical additives that improve the viscosity-temperature behavior of lubricants. They help to maintain the oil’s viscosity over a range of temperatures, which is essential for effective lubrication in modern engines.
Recent Research on VII
Recent research has focused on developing new VII polymers with improved performance characteristics. One study published in the Journal of Applied Polymer Science investigated the use of a new polymer based on styrene-isoprene-styrene block copolymers as a VII.
The researchers found that this new polymer had excellent thermal stability and was effective in improving the Viscosity-temperature behavior of lubricants.
Another study published in the Journal of Polymer Science Part A: Polymer Chemistry investigated the use of polyethylene-based VII polymers. The researchers found that these polymers had good solubility in lubricating oils and improved the viscosity-temperature behavior of the oils.
Marketing Projections for the Future
The global Viscosity Index Improver Polymer market is projected to grow at a CAGR of 3.6% between 2021 and 2026, according to a report by Market Insights Reports. The report attributes this growth to increasing demand for fuel-efficient vehicles and the use of synthetic lubricants.
Synthetic lubricants’ viscosity improver requires higher levels of additives to maintain their temperature behavior, which is driving demand for them.
Another report by Technavio predicts that the global VII market will reach $2.68 billion by 2025, growing at a CAGR of over 3%. The report cites the increasing demand for high-performance lubricants in the automotive and industrial sectors as the main driver of this growth.
Improving Marketing Presence and Products
To improve their marketing presence, VII viscosity index improver manufacturers in UAE should focus on differentiating their products based on their performance characteristics. They should also emphasize the benefits of their products, such as improved fuel efficiency and reduced engine wear.
viscosity index improver manufacturers especially in UAE can also improve their products by developing new polymers with better performance characteristics. This can be achieved through research and development efforts focused on improving the thermal stability, solubility, and viscosity-temperature behavior of these polymers.
In addition, viscosity index improver manufacturers should work closely with their customers to understand their needs and develop products that meet those needs. This can involve customizing products for specific applications or developing new products that address emerging trends in the market.
VII plays a critical role in maintaining the viscosity-temperature behavior of lubricants. The latest research is focused on developing new polymers with improved performance characteristics, and the market for these additives is projected to grow in the coming years.
To improve their marketing presence and products, manufacturers should focus on differentiating their products based on their performance characteristics, developing new polymers with better performance characteristics, and working closely with their customers to understand their needs.
Rising Competition in the Viscosity Index Improvers Market: The Challenge of Unorganized Players
The market for Lubricant Additives like VI Oil Improvers has become increasingly competitive due to the presence of unorganized players who offer sub-standard products at lower prices. These local and grey market players pose a significant threat to major manufacturers, as they are able to leverage their reduced costs and local supply network to outperform large players.
Local players offer products that are created in-house under their own brand names, while grey market players import and sell goods through unlicensed dealers. This increased competition limits the opportunities for multinational players to grow their market share and enter new markets. It also restricts their investment in this market as they face difficulties in penetrating local markets due to the dominance of these unorganized players.
BRICS Countries: Emerging Market Opportunities for the Viscosity Index Improvers Industry
During the forecast period, the BRICS countries (Brazil, Russia, India, China, and South Africa) are expected to become significant markets for oil viscosity index improvers. These countries account for around 41% of the global population, which is 31% higher than the G7 countries. Moreover, the population is expected to continue growing, and the BRICS countries collectively account for about a fifth of the global GDP.
Governments in these countries are prioritizing industrial development to meet the demands of their large populations, and as a result, foreign and domestic investments are expected to increase significantly in the next five years. This is likely to have a positive impact on related industries such as the viscosity index of engine oil and drive growth in these emerging markets.
5 Ways To Meaure The VII
1. Capillary Viscometer:
A capillary viscometer is a simple instrument that measures the viscosity of a fluid by measuring the time it takes for the fluid to flow through a narrow tube under gravity. The viscosity is calculated based on the flow rate and the dimensions of the tube.
2. Rotary Viscometer:
A rotary viscometer measures the viscosity of a fluid by rotating a spindle in the fluid and measuring the torque required to overcome the resistance to flow. The spindle rotates at a constant speed and the torque is measured using a calibrated spring or strain gauge.
3. Falling Ball Viscometer:
A falling ball viscometer measures the viscosity of a fluid by measuring the time it takes for a sphere to fall through the fluid under gravity. The viscosity is calculated based on the size and density of the sphere and the time it takes for it to fall through the fluid.
4. Oscillatory Viscometer:
An oscillatory viscometer measures the viscosity of a fluid by applying an oscillating shear stress to the fluid and measuring the resulting deformation. The viscosity is calculated based on the frequency and amplitude of the oscillation and the resulting phase shift between the applied stress and the deformation.
A rheometer is a sophisticated instrument that can measure the viscosity of a fluid under various flow conditions, such as shear rate, shear stress, and temperature. It can also measure other rheological properties of fluids, such as elasticity, yield stress, and thixotropy. Rheometers are commonly used in the research and development of materials and products where precise measurements of viscosity and other rheological properties are required.