polymer - Blog - Global Risk Community2024-03-29T02:18:38Zhttps://globalriskcommunity.com/profiles/blogs/feed/tag/polymerEverything You Need to Know About Small Joint Reconstructive Implantshttps://globalriskcommunity.com/profiles/blogs/everything-you-need-to-know-about-small-joint-reconstructive-impl2024-01-02T13:35:04.000Z2024-01-02T13:35:04.000ZPramod Kumarhttps://globalriskcommunity.com/members/PramodKumar<div><p>In the realm of orthopedic surgery, <strong><a href="https://www.psmarketresearch.com/market-analysis/small-joint-reconstructive-implants-market" target="_blank">small joint reconstructive implants</a> </strong>have еmеrgеd as a beacon of hope for individuals grappling with the debilitating effects of joint-related ailments.</p><p>These innovative medical devices, designed to replace damaged or diseased joints in areas such as fingers, hands, wrists, ankles, and toes, are revolutionizing the landscape of joint restoration.</p><p><strong>Significance of Small Joint Reconstructive Implants</strong></p><p>Small joint reconstructive implants signify a monumental advancement in medical technology, offering respite to those affected by conditions such as osteoarthritis, rheumatoid arthritis, or traumatic injuries. Thеsе implants, crafted from durable materials like metal alloys, ceramics, or high-grade plastics, are meticulously еnginееrеd to mimic the natural movement of joints.</p><p>By replacing damaged joints with artificial ones, these implants alleviate pain, enhance joint stability, and restore lost functionality, enabling patients to reclaim their lives from the clutches of chronic pain and limited mobility.</p><p><strong>Benefits of Small Joint Reconstructive Implants</strong></p><p><strong>Pain Relief:</strong></p><p>Among the most profound benefits of small joint reconstructive implants is the relief they provide from incessant joint pain. By eradicating the source of discomfort and inflammation, thеsе implants offer immediate and sustained pain relief, allowing individuals to engage in activities that once dееmеd impossible.</p><p><strong>Improved Mobility:</strong></p><p>The restoration of mobility is a cornerstone of thеsе implants. By replicating the natural range of motion, small joint reconstructive implants еmpowеr patients regain lost functionalities. From grasping objects to executing intricate tasks, these implants enable a level of dexterity and movement that was previously hindered by joint pain and stiffness.</p><p><strong>Enhanced Quality of Life:</strong></p><p>The amalgamation of pain relief and improved mobility translates into an enhanced quality of life. Patients can participate in social activities, pursue hobbies, and maintain an independent lifestyle. This newfound frееdom fosters emotional well-being and a sense of accomplishment, fundamentally transforming the way individuals perceive their lives.</p><p><strong>Preservation of Joint Structure:</strong></p><p>Small joint reconstructive implants not only alleviate pain but also prevent or correct joint deformities caused by progressive conditions like rheumatoid arthritis. By stabilizing joints and impeding further damage, these implants play a pivotal role in preserving the natural shape and alignment of the affected joints, ensuring long-term joint health.</p><p><strong>Quick Recovery and Minimal Invasiveness:</strong></p><p>Compared to traditional joint replacement surgeries, procedures involving small joint reconstructive implants are often minimally invasive. Smaller incisions lead to reduced recovery times, enabling patients to return to their routines swiftly. The quicker recovery facilitates a seamless transition back to a pain-frее, active life.</p><p><strong>To Wrap it All Up</strong></p><p>Small joint reconstructive implants signify remarkable strides in the field of orthopedic surgery, offering a lifeline to individuals ensnared by the limitations of joint-related ailments. As technology continues to advance, the future promises еvеn more refined and effective solutions, ushering in an era where pain-frее living is not just a dream but a tangible reality for all.</p><p>Moreover, with the increasing occurrence of arthritis, rising incidence of osteoporosis, and mounting elderly populace, the requirement for small joint reconstructive implants will continue to rise in the coming years.</p></div>Rechargeable Poly Lithium-Ion Battery work as a heart of deviceshttps://globalriskcommunity.com/profiles/blogs/rechargeable-poly-lithium-ion-battery-work-as-a-heart-of-devices2020-11-10T08:39:18.000Z2020-11-10T08:39:18.000ZKBV Researchhttps://globalriskcommunity.com/members/KBVResearch<div><p>Why there is a growing demand for Rechargeable Poly Lithium-Ion Battery. These batteries developed in the year 1990s, and progressively it has become the fastest-growing in the fields of research as well as its application. Due to growing use of electronic devices, and increasing inclination of the people for laptops and notebooks in both personal space as well as in enterprises has ensued in the more and more use of Rechargeable Poly Lithium-Ion Battery for manufacturing such devices. These batteries are also used in electronic vehicles, the high energy efficiency, and due to the eco-friendly nature of these vehicles, it is noted that there is a rise in the registration of electric vehicles. This in turn will surge the demand for Rechargeable Poly Lithium-Ion Battery.</p><p><a href="{{#staticFileLink}}8219691882,original{{/staticFileLink}}" target="_blank"><img src="{{#staticFileLink}}8219691882,original{{/staticFileLink}}" class="align-center" alt="8219691882?profile=original" /></a></p><h2><strong>Rechargeable Poly Lithium-Ion Battery: what is it?</strong></h2><p>An electrical battery that can be charged is called as a <a href="https://www.kbvresearch.com/rechargeable-poly-lithium-ion-battery-market/">rechargeable battery</a>, in a contrast to disposable batteries, which are discarded after use. Lithium-ion polymer battery is a type of rechargeable battery. It consists of a packaged pouch framework that has lithium-ion.</p><p></p><p>The ability of the lithium-ion to alter over negative terminals to positive anodes when the battery is in use or it is being charged. These batteries are light-weighted and compact in size due to its packaging design. It has good work efficiency. Rechargeable Poly Lithium-Ion Battery is used in electronic gadgets, electric vehicles (EV), digital cameras, hybrid electric vehicles (HEV), military and aerospace, etc.</p><p></p><h2><strong>Application of Rechargeable Poly Lithium-Ion Battery</strong></h2><h3><strong>Electric vehicles</strong></h3><p>Electric vehicles that use rechargeable poly lithium-ion batteries are gaining attention because of the need for energy-efficient, and environmentally friendly products. Increasing customer inclination towards such kind of batteries is continuously increasing.</p><p></p><h3><strong>Consumer electronics</strong></h3><p>The application of Poly Lithium-Ion Battery in consumer electronics is mainly attributed to the properties like high reliability and durability of such batteries in electronic appliances, such as smartphones and laptops. There is a growing demand for tablets and mobiles both in the enterprises and for personal use and that is why there is increasing use of Poly Lithium-Ion Battery in consumer electronics.</p><p></p><h3><strong>Industrial</strong></h3><p>As there is unique power need in the batteries that are used in industrial areas, the choice of the battery become an important factor. Poly Lithium Ion Battery are energy efficient that is why it is used in video and digital cameras, medical devices and other equipment.</p><p></p><h2><strong>Types of Rechargeable Poly Lithium-Ion Battery</strong></h2><p>On the basis of structure, the Rechargeable Poly Lithium Ion Battery is classified into two types that are cylindrical or prismatic.</p><ol><li><strong>Cylindrical:</strong> one of them is cylindrical. This can be small or large in size. Small cylindrical forms have solid bodies without terminals and the larger cylindrical forms are provided with long threaded terminals. Cylindrical Poly Lithium-Ion Battery has the advantage that it has a faster production speed.</li><li><strong>Prismatic</strong>: They are also called a flat rectangular battery. The prismatic structure offers a space-saving solution for shielding a higher energy lithium polymer, which is mostly used in tablets and ultra-thin notebooks.</li></ol><p></p><h2><strong>Benefits of Rechargeable Poly Lithium Ion Battery</strong></h2><ul><li>Poly Lithium-Ion Battery has a high energy density that is why it is of higher capacities.</li><li>Sometimes these batteries are equipped with special cells so that it can provide high current to the power tools.</li><li>Even new batteries also don’t require prolonged priming.</li><li>The self-discharge process is very slow so once charged it can be used for a longer time.</li><li>The maintenance cost is also low.</li></ul><p></p><h2><strong>Limitations of Rechargeable Poly Lithium Ion Battery</strong></h2><ul><li>These batteries are expensive. It is about 40-50% more costly than nickel-cadmium batteries.</li><li>There is a transportation restriction on these batteries.</li><li>In order to maintain the voltage, the protection circuit is needed.</li></ul><h2><strong>Future prospective of Rechargeable Poly Lithium-Ion Battery</strong></h2><p>As the demand for this type of batteries is constantly increasing, this has ensued in vendors and researchers, and manufacturers to be more concentrated on improving the energy density, durability, operating temperature, safety as well as the reduction in the cost of the batteries.</p><p></p><p>Since Poly Lithium-Ion Battery is less toxic for the environment and produces non-hazardous waste, they are considered as eco-friendly. The introduction of electric vehicles and the use of Poly Lithium-Ion Battery in such vehicles is imitated as one of the appreciable steps taken by the governments of both developing and developed nations. The necessity for eco-friendly and energy-efficient products has resulted in a growing focus on electric vehicles (EV).</p><p></p><h2><strong>The bigger picture</strong></h2><p>The Rechargeable Poly Lithium-Ion Battery Market has been show rapid growth as there is an increasing demand for electric vehicles and grid storage. Since these batteries have light in weight and give high-energy density solutions. The increase in the sales of electric vehicles and change in the preferences of clients is estimated to drive the global market for rechargeable poly lithium-ion battery.</p><p></p><p>Due to the properties such as high energy density, an excellent load, and low temperature, these Poly Lithium-Ion batteries became a dynamic source of power for laptops, mobile phones, and other portable equipment.</p></div>India Plant Shutdown and Resumptionshttps://globalriskcommunity.com/profiles/blogs/india-plant-shutdown-and-resumptions2020-04-28T15:00:00.000Z2020-04-28T15:00:00.000ZChemAnalysthttps://globalriskcommunity.com/members/ChemAnalyst<div><p><strong><span><a href="{{#staticFileLink}}8028313879,original{{/staticFileLink}}" target="_blank"><img src="{{#staticFileLink}}8028313879,original{{/staticFileLink}}" class="align-full" alt="8028313879?profile=original" /></a></span></strong></p><ul><li><strong><span>Indian Oil to Resume Work at Paradip-Hyderabad Pipeline Project</span></strong></li></ul><p><span>Indian Oil Corporation (IOC) Ltd. has resumed work on its prestigious INR 3800 crore, cross-country Paradip-Hyderabad petroproduct pipeline project in Andhra Pradesh and Odisha. The operations restarted recently after the Central government permitted certain relaxations during the nation-wide lockdown. After the approval from the concerned authorities, the work resumed with limited manpower and necessary precautions. The project is aimed at improving availability of petrol, diesel, kerosene, and aviation turbine fuel in the region through supplies from its Paradip refinery to the demand centres in Odisha, Andhra Pradesh and Telangana. The pipeline has been designed to handle 4.5 million tonne products annually.</span></p><p><strong><span> </span></strong></p><p><strong><span>Visit more info: <a href="https://www.chemanalyst.com/NewsAndDeals/NewsHome">https://www.chemanalyst.com/NewsAndDeals/NewsHome</a></span></strong></p><ul><li><strong><span>Coromandel International Resumes Fertilizer Production</span></strong></li></ul><p><span>Coromandel International (CIL), a leading Indian fertilizer importer and manufacturer has resumed fertilizer production at its Vishakhapatnam unit after relaxation in lockdown restrictions by the Central government. The company recorded a significant reduction in its output at the end of March due to lockdown and reports that its Kakinada facility is still running. The company is one of the leading suppliers of phosphate-based fertilizers in India, with production capacity of 2.94 million tonnes in 2018-19 as per its annual report. The annual capacity of the company is 3.5 million tonnes of phosphate fertilizer, which includes DAP, SSP and NPKs.</span></p><p><strong>Chemical Pricing: <a href="https://www.chemanalyst.com/ChemicalPricing/ChecmPriceYearlyChart?Customer=False">https://www.chemanalyst.com/ChemicalPricing/ChecmPriceYearlyChart?Customer=False</a></strong></p><ul><li><strong><span>Building of Suven Pharmaceuticals Ltd. Catches Fire</span></strong></li></ul><p><span>A major fire broke out at a Suven Pharmaceutical Ltd’s R&D unit at Jeedimetla, Hyderabad on Sunday evening around 4:30 pm. Ten employees were inside the pharmaceutical company when the fire broke out. There has been no news of casualties after the incident took place as all the workers escaped on time. Jeedimetla Station Fire Officer, Subash Reddy stated in an interview that the main cause of fire was a chemical reaction that took place inside the plant which in no time led to explosion of the reactors causing the outbreak of fire.</span></p><p><strong>Get the Chemical and Petrochemical Industry News on Daily Basis, </strong><strong>Weekly-Trend & Forecast and Monthly-Analyst Views</strong><strong><span> </span></strong></p><p></p><p><strong>Subscribe Today!</strong></p><p></p><p><strong>News on WhatsApp/WeChat/Mail</strong></p><p><strong><span> </span></strong></p><p><strong>First 15 days free news!</strong></p><p></p><p><strong>WhatsApp No. +91-9914868686</strong></p><p></p><p><span><strong>For sales related query, dial +91-9958299626 or +91-8882336899 or email at</strong> <a href="mailto:sales@chemanalyst.com"><strong>sales@chemanalyst.com</strong></a></span></p><p><span><strong>Source: ChemAnalyst</strong></span></p></div>How Have High Performance Fibers Made Their Way Into Various Applications?https://globalriskcommunity.com/profiles/blogs/how-have-high-performance-fibers-made-their-way-into-various2020-03-19T09:51:07.000Z2020-03-19T09:51:07.000ZKBV Researchhttps://globalriskcommunity.com/members/KBVResearch<div><p>High performance fibers exhibit extraordinary mechanical properties. These high performance materials are made of ceramics, metals, carbon, and polymers. <a href="https://www.kbvresearch.com/high-performance-fibers-market/">High performance polymer fibers</a> integrate excellent mechanical properties with low weight.</p><p><a href="{{#staticFileLink}}8028309469,original{{/staticFileLink}}" target="_blank"><img src="{{#staticFileLink}}8028309469,original{{/staticFileLink}}" class="align-center" alt="8028309469?profile=original" /></a></p><p>High tensile strength and high resilience are the two main properties of the high-performance fibers. For some polymer materials, high tensile strength can be obtained using high drawing ratios and high molecular orientation (e.g. for Aramid / Kevlar) during the process of fabrication.</p><h2>What are high performance fibers?</h2><p>High performance fibers are designed to protect the body by having unique properties. Highly innovative and smart textiles can be related to protection and survival in hostile environments. It takes knowledge and understanding of high-performance fibers to produce these fabrics. When primary fibers are spun into a parallel aligned, highly oriented fiber bundle or yarn, high strength and high durability can be reached, and then stably linked in the highest orientation state.</p><p>The high degree of orientation leads to high resistance to tensile, and the secure connections that lead to high resistance. They could produce very uniformly oriented, crystalline yarns using electro-spinning, which is a subsequent concerted process at higher temperatures. It gets drawn to the highest orientation and covalently interlinked in the drawn state.</p><h2>The different kinds of applications of high performance fibers</h2><h3>Aerospace & Defense</h3><p>Military use of advanced polymer matrix composites (PMC), which is a resin matrix reinforced by high-performance carbon or organic fibers, reports nearly less than 10% of the domestic market. Nonetheless, in future military systems, advanced composites are projected to play an even greater role and DOD will continue to need access to reliable sources of inexpensive, high-performance fibers like industrial materials and manufacturing processes.</p><p>It is important to evaluate the challenges and opportunities linked with advanced PMCs with a focus on high-performance fibers as a result of these predictions. With potential in commercial aircraft, regional aircraft, aircraft, general aviation, UAV and others, the role of carbon fiber in the aerospace and defense industry looks promising.</p><h3>Textile</h3><p>The nanofibers have a very high surface-to-volume ratio and are finding useful applications in tissue engineering, optoelectronic devices, protective textiles and filters of the next generation. Significant demands on good performance properties-such as strength/modulus, resilience, and dimensional stability and on functions such as flame-retardancy, hydrophilicity, hydrophobicity, biocompatibility, smart and flexible textiles, etc.</p><p>Glass fiber is the oldest high-performance material and is the most prevalent one. The early versions were high-strength; they were fairly inflexible and unfit for several textile uses. Today's glass fibers provide a much broader range of properties and can be used in many end applications, such as insulation tossing, fire-resistant fabrics, and plastic composite reinforcement materials.</p><h3>Sporting Goods</h3><p>With economic development, the living standards of individuals are raising, with more modern people engaging in sports venues of all kinds. Also, the development of modern physical sports in the sports experts simultaneously focuses on scientific training, also attaches great importance to improving and developing sports equipment.</p><p>The widespread adoption in sports equipment has been associated with the prevalence of fiber-reinforced composite materials with lightweight, high strength, broad degrees of design flexibility, simple processing and shaping characteristics. Several sports equipment rely on humans to make the movement easier, the lighter the better, so it includes equipment like tennis rackets, golf clubs, bikes, skis, etc. In this respect, reinforced fiber composites have incomparable advantages. Examples include golf clubs made of carbon fiber reinforced materials, that adopt the take-up molding in carbon fiber cloth, mechanical properties of a metal rod improved many, 30%-50% and the weight is lower than the metal rod.</p><h2>What’s trending in the high performance fibers industry?</h2><h3>Recent developments in carbon fiber production</h3><p>Carbon fibers with different cross-sections have also recently been developed by different organizations. There were two fundamental benefits to such a modification. The first benefit being the utilization of hollow carbon fibers, which can help in reducing the density of carbon fiber in composites. The strongest hollow carbon fibers were developed by carbonizing hollow PAN fibers spun from a C-shaped spinnerette.</p><p>Another benefit may be an improvement in the surface area, which potentially improves the overall resin interface. Recent developments and improvements in high-performance fibers with a wide range of properties have made it more possible to withstand harsh operating environments for a wide range of applications, like aerospace, aircraft, airline, medical, automobile, oil, transport and so on.</p><h3>Investments in fiber technology</h3><p>A few industries are continuing to invest in new carbon fiber technologies. This investment was mainly in process improvement and better manufacturing controls to minimize uncertainty and reduce costs rather than upgrade properties. As a result of this phenomenon, any change in carbon fiber properties is likely to be evolutionary.</p><p>In the organic fiber industry, M5 fiber has the potential to become a commercial fiber with a gradual improvement in functionality, in particular, to meet the need for optimized structural and ballistic properties of interest to DoD. M5 can fulfill the Army’s future logistical and ballistic needs. Existing fibers, such as Kevlar, have good ballistic properties but weak compression properties. M5 could be an effective technology for a new generation of military protection systems.</p><h3>High tenacity aramide fiber</h3><p>Aramids are related to nylons and are polyamides produced from the amines and aromatic acids. Aramids show higher tensile strength and thermal resistance as compared to aliphatic polyamides (nylons) due to the flexibility of the aromatic rings and the additional strength of the amide links, due to the conjugation with aromatic structures. Depending upon terephthalic acid and p-phenylene diamine, or paminobenzoic acid, the para-aramids show higher strength and thermal tolerance than meta-position linkages on the benzene rings.</p><p>Combined with the greater chain orientation resulting from this linearity, the greater degree of conjugation and more linear structure of the para linkages are mainly responsible for the greater strength. The para-aramids' high impact resistance makes them famous for body armor which is "bulletproof." The aramids may be combined with other fibers for several less demanding applications.</p><h2>Industry insights</h2><p>May-2019: Bally Ribbon has launched a line of safety webbing and tapes. Such tapes are suitable for rescue and fire-fighting applications.</p><p>Oct-2019: Honeywell has launched Spectra Shield ® 6472 as an extension to its high-performance hard protection range of products. The new shield satisfies the strict requirements of military protection.</p><p>Oct-2019: Bally Ribbon introduced E-WEBBINGS ® e-textile product base. It acts as a flexible foundation for textile applications. These thin woven fabrics of E-Webbing are made of a wide range of fibers and conductive components.</p><h2>To conclude</h2><p>The high performance fibers market has moved further into a global commodity industry over the past few years. The transition redefines and speeds up international trade trends at all stages of the high-value chain. The production of special fibers is the result of the convergence of fundamental scientific and technical expertise, as there is a demand for high-performance fibers.</p><p><strong>Free Valuable Insights</strong>: <a href="https://www.kbvresearch.com/news/high-performance-fibers-market/">Global High Performance Fibers Market to reach a market size of USD 23.9 billion by 2025</a></p><p>Therefore, constant and ongoing efforts made dreams come true by fiber scientists jointly ventured with material technologies. These special fibers completely provide the potential to deliver new technology. Hi-tech fibers in various fields are extremely tenacious, have a high strength to weight ratio, and are the prerequisites of industrial textiles.</p></div>