Isostearic Acid Market Will Touch USD 463.2 Million in 2030

The isostearic acid market was USD 296.7 million in 2023, which will rise to USD 463.2 million, powering at a CAGR of 6.7%, by 2030.

This acid is significantly employed in pharmaceuticals, coatings, cosmetics, food & beverages, and various other sectors. Therefore, the increasing requirement for cosmetic and personal care products, mainly in APAC and Europe, is likely to have a positive impact on this industry.

An expanding supply of effective raw materials, mainly oilseeds, will boost the supply of this chemical. It is generally made from oleic acid, an unsaturated acid type. The main raw materials for oleic acid comprise rapeseed oil, soybean oil, sunflower oil, beef tallow, palm oil, and safflower oil.

As ingredients for personal care items, many chemical esters, involving monostearate, glycerol, isopropyl isostearate, and isostearate, are made from C18H36O2. Therefore, it is an essential element of personal care products like moisturizers, lipsticks, sun protection creams, and hair dyes.

The chemical esters category, on the basis of application, was the largest contributor to the isostearic acid market. Moreover, this category will remain the largest in the years to come. Chemical esters are employed in plasticizers as well as pigment adhesion promoters because of their improved dispersion, low residue formation, and quick absorption.

These factors aid in producing chemical esters a major intermediate material in personal care as well as industrial applications.

As a result, isostearic acid is extensively used in cosmetics, sun protection creams, haircare & baby care products, and liquid soaps. Its oxidation, as well as odor strength, assist in its application in personal care goods needing a greater shelf lifespan.

Europe was the largest contributor to the industry, mainly because of the surging cosmetics demand, coupled with the increasing use of biobased lubricants. In this regard, stringent environmental guidelines to decrease greenhouse gas levels in the environment will positively affect this industry.

APAC is also advancing at a significant pace, because of the increasing need for personal care items, primarily in emerging economies like India, Indonesia, and China. This can be because of the rising per capita disposable salary of the middle class, along with the mounting populace in India and China.

With the surging need for cosmetic and personal care products, the isostearic acid industry will continuously advance in the coming years.

 

Liquid Crystal Polymer Market Will Reach USD 2,360 Million By 2030

In 2022, the global liquid crystal polymer market had a total size of USD 1,313 million, and it is projected to hit USD 2,360 million by 2030, advancing at a rate of 7.60%, during the projection period. This development of the industry can be credited to the rising demand for consumer electronic items, like tablets, smartphones, smartwatches, and personal computers, and the growing sales of lightweight vehicles.

In 2022, thermotropic type had the largest market share, of approximately 80%. This is mainly because it has brilliant thermal properties, displays superior elastic behavior, and has a low thickness. It also has working in diverse electronic items like tablets, laptops, and televisions.

During the projection period, the semiconductor & electronics category is projected to experience the fastest development, growing at a CAGR of 8.2%. This can be credited to the reduction of electronic items, and numerous features of LCPs like essential flame retardance, excellent chemical resistance, and robust strength at dangerous temp. such superior quality properties allow the use of LCPs in diverse electronic item components and parts, such as antenna substrates, chip carriers and housings, and flexible printed circuits.

In 2022, the APAC region dominated the industry, with a share of 62%, and the region is projected to lead the industry in the future as well. This growth can be ascribed to the fast growth of the electronics sector, inexpensive manufacturing abilities, a vast populace base, and technical improvements in the region.

This industry is also projected to be propelled by the rising need for semiconductor and electronic components in consumer devices and appliances, like calculators, watches, appliances, flat panel TVs, laptops, personal desktops, and tablets.

The development in the requirement for liquid crystal polymers is propelled by the acceptance of such polymers in the rising automotive sector. There has been incredible development in the making of automobiles and also the sales in industries such as China, Japan, India, and the U.S.

The worldwide trend in the market is to make vehicles to fulfill the progressively strict fuel economy orders. One of the major solutions to this puzzle is to make lightweight cars. For example, typically, a 10% decrease in vehicle weight can summon an 8.0% enhancement in fuel economy.

In the medicinal industry, MRI has been utilized in medicinal analysis and treatment of soft tissue visualization. However, procedures that need catheterization in MRI utilize X-ray to direct the catheter because of metal catheter components, which are unsuited with MRI. Such X-ray procedures expose patients and clinicians to ionizing radiation. To decrease the radiation impact, properties of LCPs such as autoclaving and high tensile forte are effective and will be capable of substituting catheter metal components.

Navigating the Cosmetic Chemicals Market Demand, Innovations, and Growth Opportunities

The cosmetic chemicals market is experiencing significant growth and it will continue this trend in the years to come.

The growth of the cosmetic chemical industry is mainly attributed to the increasing desire of people to enhance their physical appearance, constant research and development for new products, surging requirement for cosmetics products, high beauty products consumption rate by numerous working women, and rising disposable income in emerging economies, for instance, India and China.

Moreover, the surging research and development for product innovation is a key trend being observed in the industry. Businesses are digging deeper for the advancement of skin-friendly cosmetic products; researching all the possible aspects of beauty and well-being; learning the biology of the hair, skin, oral cavity, and teeth; enhancing the methods of sustainable development; and studying behavior and beauty aspirations of consumers.

In recent years, the emollients & moisturizers category, based on product type, accounted for the largest share of the industry, and it is expected to remain the largest in the years to come. This is mainly because of the high utilization of emollients & moisturizers in various cosmetic and personal care products, for instance, skin moisturizers, body lotions, lipsticks, and face creams.

The skin care category, based on application, accounted for the largest cosmetic chemicals market share in the past few years, and it is likely to advance at a substantial rate in the years to come. This is primarily because of the rise in the requirement for skincare products, as a result of the increasing concern regarding the skin health of consumers.

In addition, some of the players in the cosmetic chemical industry are providing improved and new chemicals for the manufacturing of better skin care products.

The APAC cosmetic chemical industry held the largest share in the past few years, and it is expected to remain the largest in the years to come. This is mainly because of the surging research and development efforts of the manufacturers for low-cost manufacturing of organic personal care products and technological advancement in ingredient processing.

With the surging requirement for cosmetics products, the increasing willingness of consumers to spend on premium products, growing research & development activities, and the growing desire of people to enhance their physical appearance, the cosmetic chemicals industry will continue to advance in the years to come.

Exploring the Non-Woven Adhesives Market Trends, Size, Applications, and Growth Prospects

The major drivers in the global non-woven adhesives market are the skyrocketing requirement for these products in the textile sector, growing awareness about better quality products, and surging demand for these adhesives in adult incontinence, baby care, and feminine hygiene applications. The market will grow at a significant pace in the coming years. However, the outbreak of COVID-19 had disrupted several markets and this market was not an exception. Lockdowns were imposed in several economies amid the pandemic rupturing the logistical network of the market owing to the complete or partial manufacturing unit closures.

The swift adoption of technologically advanced devices will provide lucrative opportunities for players to adapt to the existing market dynamics and paradigm shifts in the tastes and preferences of consumers. In addition, the essentialities of any market are purchasing power and demographics.

Moreover, a rising disposable income will exert a push on the purchasing power of the consumer, thus driving the global hygiene products market. Furthermore, technological advances in the hygiene market have resulted in better comfort, thinner cores, enhanced bodily fluid absorption capabilities, and reduced waste generation.

The rising geriatric population on account of a higher life expectancy will boost the non-woven adhesives market growth. This can be credited to a snowballing demand for non-woven hygienic adhesives for adult diapers, especially in the developed nations, including Western European countries, Japan, and the U.S. In fact, in these countries, there is a surging requirement for adult diapers in comparison to baby diapers. Furthermore, the global healthcare business will also drive the market because of the benefits of non-adhesives including sterile dressing, holistic wound protection, and high absorption.

The global non-woven adhesives market is driven by the highly competitive nature of market players in the process of opening lucrative opportunities and gaining a competitive edge. These market players are indulging in technological innovations to retain their position in the market. These include Palmetto Adhesives Company Inc., Cattie Adhesive Solutions LLC, Savare Specialty Adhesives LLC, ADTEK Malaysia Sdn Bhd., Lohmann-Koester GmbH & Co. KG, Beardow Adams (Adhesives) Ltd., Moresco Corporation, Arkema S.A., and H.B. Fuller Company.

 

Insights into the Oxygen-Free Copper Market Trends, Applications, and Growth Opportunities

As we continue to advance in the field of technology and connectivity, material composition is key as it contributes greatly towards set performance indices and overall durability. Remarkably, one of the heroes in this setting is oxygen-free copper (OFC), an extraordinarily pure and conductive material that leads by storm into different sectors.

Let us set sail and discover the inner workings of oxygen-free copper, its production process as well as the numerous fields that take advantage of its outstanding characteristics.

Explaining the Essence of OFC

Basically, oxygen-free copper is a refining process while virtually eliminating most of copper’s composed oxygen content. However, standard copper has inherent levels of trace oxygen associated with it; but the sustained sophisticated refining processes of OFC lowers this concentration to below that level.

This remarkable degree of refinement between OFC and standard copper sets it apart as being one that would provide better conductivity compared to the conventional used for purposes where such a level is necessary.

Purity as the Driving Factor

The striking purity of oxygen-free copper directly implies excellent electrical conductivity. Although copper can be associated with its high conductivity features, these impurities of oxygen are responsible for increasing resistance and poor performance.

OFC does not present these impurities allowing the electrons to advance through with very little resistance leaving signal loss and distortion minimal. This feature enables OFC to be labeled as a leader of materials, used in applications that require the highest levels of conductivity and signal integrity.

Uses in the Audiophile Field

One of the most outstanding venues where OFC’s strengths stand out is in the audio cables and connectors area. Since OFC cables facilitate the precise and unadulterated transmission of audio signals, audiophiles, professionals, or musicians working in the entertainment sector use OFC cables.

While increasing the integrity of sound, low resistance in OFC adds a complex enhancement to it. On the other end of things, in high-end speaker cables and interconnects alike – OFC’S purity factor is now a key point essential to revealing the smallest distinctions within music.

Connectivity Past Sound

Although OFC is essential in the realm of audio, its utilization does not end there; indeed, quite a few other fields are dependent on it. High-speed data transfer cables including HDMI and Ethernet are the applications of OFC that use its excellent conductivity for reliable long-distance signal transmission without deterioration.

However, in sectors where data accuracy is critical like telecommunications and for the data centers OFC becomes insinuating material for network systems making reliable connections required for superior performance.

Different Electronic Usages

Oxygen-free copper goes even further in influencing many electronic components and applications. Related to this, its reliable and consistent electrical assets are also a distinct aspect of why it is used in the manufacturing of transformers, inductors, and other parts very important for electronic equipment.

In Ending This

With the surging demand for OFC from the electronics and the electrical sector, their demand will continue to rise in the years to come.

Increasing Uses of Powder Metallurgy in Automotive Sector Boost Metallurgy Equipment Market

The  metallurgy equipment market  will touch USD 133.9 billion, propelling at a 3.3% compound annual growth rate, by 2030.

Digitalization is a key aspect of modern metallurgy. All practices are fully automated, whereby the utilization of robots is also expected in unsafe working areas, which essentially surges safety at the workplace.

The steelmaking equipment category, based on type, is likely to advance at the fastest rate, of approximately 3%, in the years to come. This can be attributed to the increasing usage of steel across sectors such as aerospace, automobile, marine, infrastructure, electronics, and equipment & machinery.

Moreover, steel is crush-and corrosion-resistant and, thus, enhances the durability and safety of automobiles. The increasing requirement for hybrid and electric vehicles is likely to further drive the demand for steel, boosting steelmaking equipment sales.

The milling machines category, based on equipment, accounted for the largest metallurgy equipment market share in recent years, and it will also propel at a significant rate during this decade. This can be because milling machines are highly versatile and can execute various functions, such as facing, turning, fillet making, chamfering, gear cutting, slot cutting, and drilling. 

Moreover, with the increasing labor charges in developed countries, businesses are utilizing software programs to control the spindle speeds, tool changes, and axis in milling machines. In addition, businesses are accepting CNC technology to enhance the efficiency of milling machines and the quality of work.

In the past few years, the aerospace & defense category, based on application, was the largest contributor to the industry. This can be because of the increasing requirement for powdered aluminum, steel, and titanium in different aerospace & defense applications because of their capability to reduce the weight of aircraft components and enhance their effectiveness.

Moreover, the rising passenger traffic & defense budget in the APAC and European regions also help the progression of this industry. For example, APAC had shown a rise of approximately 200% in airline traffic in March 2022 as compared to March 2021.

Increasing Count of Construction Projects Boosts Underfloor Heating Market

The underfloor heating market will touch USD 7,945.4 million, advancing at a 7.0% compound annual growth rate, by 2030.

The growth of this industry is mainly because of the rising consciousness regarding cost-effective heating solutions as well as the growing count of construction projects.

Additionally, because of the increasing living standard of people in European and North American nations, the industry has witnessed significant advancement. Heating controls allow central heating systems to function automatically, with the user’s only effort being to temporarily override or update the program.

Moreover, a hydronic underfloor heating system comprises thermal actuators, network pipes, zone valves, manifolds, and wiring centers, which together provide more heat compared to an electric system at a lower operating price. Therefore, hydronic, under the hardware category led the industry, and it will further advance at a 7.2% compound annual growth rate in the year to come.

Furthermore, heating pipes, under the hydronic subcategory, was the largest contributor to the industry. This can be mainly because they are the key element in such a system.

The residential category, on the basis of end user, was the largest contributor to the underfloor heating market, in the past few years. This can be mainly because of the increasing count of smart home initiatives, coupled with the extensive refurbishment activities. Additionally, businesses are producing technologies for effective heating in new and renovated apartments.

The commercial category, on the other hand, is likely to advance at the second-fastest rate, in the years to come. Due to the surging need for effective floor heating in retail enterprises and workplaces, the category will continue to advance.

Europe led the industry in recent years, and it will further advance at the highest rate, of more than 7.0%, in the years to come. This is because of the active involvement of government organizations in protecting the environment, through the utilization of energy-effective systems.

Furthermore, the German New Building Energy Act concentrates on the necessities for the energy performance of buildings, the usage and issue of energy performance certificates, and the employment of renewable energy in buildings.

North America is likely to witness the second-fastest growth in the years to come. This is because of the continuous funding of new technologies by the major companies operating in this region.

With the increase in the number of construction projects, the underfloor heating industry will continuously grow in the coming years.

A Deep Dive into the World of Thin Film Encapsulation

There is no doubt that we are living in the world of science and technology as well as innovation.  The inclusion of innovation and technology has touched all the industries, and also the facets of life. When we talk of the display devices, a lot of development has gone into making the displays more advanced and vibrant in the contemporary scenario, especially the displays of wearable like smartwatches and fitness bands. The most advanced kind of display is the OLED display.

Well, this blog will not have a complete focus on the OLED display or technology, but on TFE or Thin Film Encapsulation, and why is it considered as the most advanced display technology going forward.

Some Insight into the Thin Film Encapsulation Technology

It is very common to see the people wearing smart wearable devices, and this trend will grow stronger ands stronger in the years to come.  With the increase of wearable devices, flexible active-matrix OLEDs are seen as the next-gen display tech. To guarantee protection of flexible devices, conventional encapsulation methods are not appropriate as a result of their characteristic rigidity, and TFE is considered as the most promising tech.

TFE is based on a multi-layer film, formulated of alternating inorganic and organic layers. The inorganic layers are characteristically made of metal oxides and function as the barriers of moisture. These layers are almost tremendously good barriers, but they are mechanically inflexible and brittle. Furthermore, these layers alone would obviously present pinhole defects, that in the long run would let oxygen and water in. In normal TFE structures, organic planarization interlayers are employed, for improving the mechanical properties of the multilayer and to limit the water infusion through the pinholes.

The organic layers are frequently put by ink-jet printing, while or ALD can be used for the deposition of the inorganic layers, usually made of nitrides or oxides. These layers must be put at low temperature, deprived of damaging the OLED stack, which is underneath. If seamlessly integrated, TFE could allow truly lightweight, flexible, devices, entirely on the basis of plastics.

TFE is consequently a very intricate design, where each component has to be physically, chemically, mechanically and optically enhanced, for assuring more than a few years of lifetime to the OLED device, deprived of damages. From the point of view of material design, TFE is tremendously challenging and incessant research is on-going, in order to optimize both the inorganic and organic layers materials and the consistent deposition processes.

Coming to a Close

In the contemporary time, the application areas of the thin film encapsulation have increased, and what’s more it is used in the latest smartphones and smart wearables. Smartphones and smart wearables are owned by almost everyone, and the number is only growing.

These are the main reasons why the demand for thin film encapsulation is on the rise, and it will reach a value of USD 310.4 million by the end of this decade.

Fusing Strength and Innovation: Navigating Trends in the Thermoplastic Polyester Engineering Resins Market

The thermoplastic polyester engineering resins market was USD 3,912.2 million in 2022, and it will touch USD 5,896.6 million, advancing at a 5.4% compound annual growth rate, by 2030.

The growth of the industry is attributed to the increasing utilization of these resins for various nonstructural applications as they can be utilized without filters and are usually tougher and more ductile than thermoset resins. Furthermore, they are extensively accessible to meet domestic requirements and are easy to recycle. The rising need from the automobile and electronic sectors is also propelling the advancement of the industry.

Thermoplastic Polyester Engineering Resins (TPER) Market
Thermoplastic Polyester Engineering Resins (TPER) Market

The polybutylene terephthalate category will advance at a steady rate in the years to come. This is because of the growing requirement for PBT in the electrical and automobile sectors. PBT has unique features, including heat resistance, semi-crystalline, and lightweight, because of which conventional materials including bronze, ceramics, and cast iron in the automotive sector are getting replaced.

In 2022, the automotive category, based on application, led the thermoplastic polyester engineering resins market, with 40% share, and it will remain leading in the years to come. The automotive sector has gained momentum, over the past few years, and key manufacturers of automobiles are utilizing thermoplastic polyester to produce parts of vehicles, which benefits them to lessen the overall weight of the automobiles.

In 2022, APAC dominated the thermoplastic polyester engineering resins industry, with 55% share, and it will remain dominant in the years to come. This is primarily because of the increasing requirement for automobiles and electronics in the continent. The requirement for vehicles is speedily rising in regional nations such as China, India, Indonesia, and Australia.

Therefore, the count of commercial, passenger, and local manufacturing facilities of automobiles is quickly increasing in these nations to meet international and domestic needs.

North America is likely to observe significant growth in the years to come. This is primarily because of the mounting need for recycled plastics, the existence of major players, and the growing emphasis on fuel-efficient vehicles, because of which manufacturers are extensively utilizing TPER to make their automobiles lightweight.

With the mounting utilization of such resins for numerous industrial applications, the thermoplastic polyester engineering resins industry will continue to advance in the years to come.

How Is Food Preservative Industry Supporting Chitosan Market Growth?

Factors such as the rising consumption of chitosan in the biomedical, wastewater treatment, agrochemical, food and beverage, cosmetic, and bioplastic industries and increasing research and development (R&D) activities being carried out in this compound are expected to facilitate the chitosan market growth during the forecast years (2021–2030). According to P&S Intelligence, the market was valued at $1.8 billion in 2020. Chitosan refers to biodegradable and non-toxic sugar, which is derived from the hard outer skeleton of crab, shrimp, and lobster.

In recent years, the increasing shift of the food preservative industry from formalin to chitosan has become a major trend in the chitosan market. Food preservatives are added to perishable food products to extend their shelf life. Consumption of formalin-based preservatives leads to the occurrence of cancer, lung diseases, and skin ailments. Owing to the harmful effects of formalin, chitosan is being increasingly used as a food preservative by food and beverage companies. Moreover, the higher biocompatibility of chitosan than formalin will also fuel its use as a food preservative in the coming years.

Currently, the prominent players in the chitosan market, such as Primex ehf, KitoZyme LLC, FMC Corporation, Axio Biosolutions Private Limited, Bio21 Co., Heppe Medical Chitosan GmbH, Meron Group, AgraTech International Inc., and Marshall Marine Products Private Limited, are focusing on product launches to consolidate their position. For instance, in April 2020, Axio Biosolutions Private Limited introduced a next-generation chitosan-based wound dressing named MaxioCel. This dressing offers high comfort and rapid healing to patients suffering from skin abrasions, pressure ulcers, venous leg ulcers, diabetic foot ulcers, post-surgical wounds, cavity wounds, and donor site wounds.

Geographically, Asia-Pacific (APAC) held the largest share in the chitosan market during the historical period, and it is also expected to demonstrate the fastest growth throughout the forecast period. This can be attributed to the chelating feature of chitosan, which makes it ideal for the treatment of heavy-metal-laden industrial effluents. Moreover, the increasing R&D activities being conducted in chitosan and the surging incidence of chronic diseases will also augment the market growth in the region in the forthcoming years.

Thus, the rising consumption of chitosan in the biomedical and food and beverage industries will support the market growth in the upcoming years.