The sourdough market involves the production of breads and other baked goods through natural fermentation using sourdough starter or levain. Sourdough bread has several health benefits over regular bread as it contains natural probiotics and is easier to digest. It has a distinctive sour yet complex flavour not found in breads made from commercial yeast. The market is experiencing steady growth due to rising health consciousness and growing preference for artisanal and preservative-free baked goods among consumers.
The global sourdough market is estimated to be valued at US$ 4.04 Bn in 2024 and is expected to exhibit a CAGR of 15% over the forecast period 2024 to 2030. Key Takeaways Key players operating in the sourdough market are Harris Corporation, Airbus Defense and Space, Boeing, Geooptics Inc., Lockheed Martin Corporation, Millennium Space Systems Inc., Northrop Grumman Corporation, OHB AG, OneWeb Ltd, Planet Labs Inc., Sierra Nevada Corporation, Singapore Technologies Engineering Limited, Space Exploration Technologies Corp. (Space X), Surrey Satellite Technology Ltd., and Thales Alenia Space. Key players operating in the sourdough market are focusing on offering artisanal and healthy variants to cater to consumer demand for preservative-free bakery products. For instance, Harris Corporation offers a range of sourdough loaves and gluten-free rolls produced through natural fermentation. The global sourdough market is driven by increasing awareness about the various health benefits of sourdough bread such as easy digestion, probiotic content and whole-grain nutrition. Sourdough contains natural bioactive components and sourdough fermentation helps enhance the nutritional profile of cereal-based products. Technological advancements in sourdough production techniques allow manufacturers to achieve consistent quality and texture in their baked goods. Automated sourdough starters and monitoring solutions help optimize the fermentation process for large-scale production of artisanal breads and rolls. Market Trends - Rise of specialty sourdough bakeries - An increasing number of small artisanal bakeries are focusing solely on sourdough breads and catering to consumer demand for fresh, preservative-free baked goods. - Innovation in flavours and formats - Sourdough bread manufacturers are innovating with novel ingredients, flavors and formats like buns, baguettes and pizzas to attract more consumers. Market Opportunities - Growing popularity of clean-label and organic sourdough products provides opportunities for private label brands and organic players in the market. - Emerging markets of Asia Pacific and Latin America offer high growth potential for sourdough products due to rising health awareness and westernisation of diets in these regions. Impact of COVID-19 on Sourdough Market Growth The COVID-19 pandemic hugely impacted the global sourdough market. During the initial lockdown phases, bakeries and restaurants had to shut down which disrupted the supply chain. This led to a sharp decline in demand as consumption was limited to household only. Various restrictions on travel and movement of goods affected international trade. Shortage of raw materials like flour and yeast posed challenges for manufacturers. However, as people were confined to their homes, the demand for homemade baked goods increased. Many tried their skills in baking bread and opted for sourdough starters requiring minimal ingredients. Online tutorials and blogs on sourdough preparation gained huge popularity on social media platforms. Artisan bakeries started home deliveries and curbside pickup options to continue operations. Some companies increased their production capacities of sourdough starters kits and mixes to cater to the rising demand from households. As lockdowns eased, foodservice sector is recovering slowly. While demand from commercial segment is still recovering, retail volume is expected to remain strong. Companies are focusing on innovative product offerings, customized packaging and efficient supply chain management. Adapting to changing consumption patterns will be crucial for business recovery and growth in the long run. Diversification across distribution channels and geographies can help mitigate risks. Geographical Regions with High Sourdough Market Value Currently, the European region dominates the global sourdough market with the highest market value share. Countries like Germany, France, and Italy have been consuming sourdough bread traditionally as part of their dietary culture. Availability of locally produced organic grains and flour, along with health consciousness have continuously supported the demand. North America is the fastest growing region stimulated by growing awareness about nutrition-rich sourdough and increasing popularity of artisanal bakery products. Rising interest in lactose-free and gluten-free variants is expanding the consumer base in the U.S and Canada. Clean label trend and inclination toward traditional fermentation methods are fueling the growth further. Fastest Growing Region for Sourdough Market Asia Pacific is considered the fastest growing region for the global sourdough market backed by changing lifestyle, westernization of diet and rapid urbanization. Countries like China, Japan, Australia are witnessing rising experimentation with bread flavors and baking at home during pandemic. Furthermore, increasing disposable income, growing health awareness and global exposure are expected to drive higher consumption of sourdough products in Asia over the forecast period. Manufacturers view Asia as an attractive market for expansion given its huge population and growth prospects. Get more insights on: https://www.pressreleasebulletin.com/sourdough-market-to-gain-traction-owing-to-increased-health-consciousness/
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Polyamide 12, commonly known as nylon 12, is a semi-crystalline thermoplastic that offers a unique balance of properties making it well-suited for numerous industrial applications. With its combination of strength, toughness, chemical resistance and ease of processing, polyamide 12 has gained widespread adoption across many sectors including automotive, electronics, and oil and gas. This article explores the characteristics, production process and uses of this versatile engineering plastic.
Chemical Structure and Properties Polyamide 12 belongs to the nylon family of polymers which are synthesized through step-growth polymerization of ω-amino acids and ω-aminocarboxylic acids. Its monomer is lauryl lactam which consists of a twelve-carbon alkyl group connected to a lactam ring. This linear alkyl structure gives polyamide 12 its distinct semi-crystalline morphology and mechanical behavior. Some key properties of polyamide 12 include: - Tensile strength of around 55 MPa and elastic modulus of 1.2 GPa, providing good load-bearing capabilities. - Impact resistance superior to other nylons like nylon 6 or nylon 6,6 owing to its flexible alkyl chains. - Melting point between 173-178°C allowing for ease of processing through techniques like injection molding. - Chemical resistance to oils, greases, dilute acids and alkalis up to 90°C. This resistance can be further enhanced with additives. - Low moisture absorption of only 1-2% compared to other nylons, imparting dimensional stability. Production Process Polyamide 12 is commercially synthesized through a continuous process called polycondensation. In this process, lauryl lactam monomer undergoes ring-opening polymerization in the presence of a catalyst like 12-aminododecanoic acid at temperatures between 180-230°C and pressures of 1-5 bar. The polymer melt produced is then extruded and quenched to obtain polyamide 12 pellets or granules. These pellets can be directly used for subsequent molding or fabrication applications. Additives may also be incorporated during production to impart color, enhance mechanical properties or provide UV resistance. Subheading Uses of Polyamide 12 Automotive Applications Due to its heat resistance, toughness and strength-to-weight ratio, polyamide 12 sees extensive use in the automotive industry. It is used to produce structural components in the engine bay along with clips, inserts, gears and pulleys. Polyamide 12 composites reinforced with glass fibers are utilized for under-hood components like intake manifolds. The plastic also finds application in exterior trim pieces, fasteners and electrical components owing to its electrical insulation abilities. Electronics Applications Properties like low moisture absorption and dimensional stability make polyamide 12 suitable for use in electronic devices and connectors. It is employed as an insulator in electronic circuit boards and components. Polyamide 12 tapes offer protective and insulating functions in electronics packaging applications. The plastic's flame retardant grades meet stringent standards for components in appliances, telecom hardware, computers and power tools. Oil and Gas Applications Good chemical resistance and mechanical properties allow polyamide 12 to be deployed extensively in the oil and gas industry. It is used to create high-pressure hoses, pipes, valves and seals that withstand exposure to hydrocarbon fluids at high temperatures. Filter cartridges, gaskets and pipe fittings fabricated from polyamide 12 effectively serve extraction, refining and transportation operations. Other Uses Some other applications of polyamide 12 include seals and gaskets in industrial machinery due to its fatigue and wear resistance. Its toughness and processability make it suitable for sports equipment manufacturing. Polyamide 12 found increasing adoption in 3D printing applications because of its printability on fused deposition modeling (FDM) systems. The plastic also has usage in apparel, tubing, machinery components and medical devices. Sustainability Attributes Being largely derived from sustainable castor oil, polyamide 12 has eco-friendly production and end-of-life characteristics compared to conventional plastics. Almost 100% of the material can potentially be recycled. Its recyclability has been demonstrated at manufacturing plants to produce new polyamide 12 products with minimal loss in properties. The plastic also biodegrades faster than petrochemical plastics if released into the environment. Polyamide 12 thus provides an environmentally preferable alternative to other engineering thermoplastics in suitable applications. Conclusion This article discussed the chemistry, production, properties and applications of the thermoplastic polymer polyamide 12. The unique combination of strength, toughness, heat resistance and chemical tolerance offered by the material have led to its widespread utilization in automotive, electronics, oil and gas industries and more. Coupled with sustainability advantages, polyamide 12 looks poised to see increasing adoption among engineers and product designers looking for alternative solutions. Its versatile characteristics make it a preferred choice for a variety applications requiring performance and durability. Get more insights on: https://www.ukwebwire.com/polyamide-12-growth-and-trends/ Huntington's disease is a neurodegenerative genetic disorder that causes uncontrolled movements, emotional issues, and loss of cognitive abilities. There is currently no cure for Huntington's but significant progress has been made in developing effective treatments. In this article, we will explore the latest research and therapies aimed at managing the symptoms and slowing the progression of this devastating disease.
Causes and Symptoms Huntington's disease is caused by an expanded repetitive section of DNA on chromosome 4 called the CAG repeat. This mutation leads to the production of an abnormal form of the huntingtin protein in brain cells. As the number of CAG repeats increases, so does the likelihood and earlier onset of the disease. The most common symptoms include involuntary twitching and jerking movements called chorea, cognitive decline affecting memory and reasoning, and psychiatric problems such as depression, anxiety, and compulsive behaviors. Medication for Motor Symptoms Tetrabenazine is currently the only FDA-approved medication specifically for treating Huntington's movement problems. By depleting dopamine in the brain, it can improve jerky motions and tics associated with chorea. However, common side effects include fatigue, insomnia, and depression. Other dopamine-blocking drugs like neuroleptics are also sometimes used "off-label" to help motor symptoms. For patients experiencing aggression or irritability, medications like serotonin reuptake inhibitors may provide relief from certain behavioral issues. Additionally, deep brain stimulation surgery is being explored as an option for severe, drug-resistant chorea. Electrode implants deliver electrical pulses to targeted areas of the brain to dampen unwanted motor functions. Therapies for Cognitive and Psychiatric Symptoms Although no drugs directly treat the cognitive decline of Huntington's, certain medications approved for dementia may help manage related issues like memory problems and confusion. Cholinesterase inhibitors such as donepezil were shown to improve cognition scores in early clinical trials. Anti-depressants, mood stabilizers, and anti-psychotics can provide relief from psychiatric symptoms like depression, irritability, and psychosis. Lifestyle management is also important, like stress reduction, physical therapy, and cognitive behavioral therapy to cope with challenges. Experimental gene silencing techniques are an exciting area of research aiming to reduce production of the faulty huntingtin protein to delay neurological deterioration. Gene Silencing Therapies One promising approach is using antisense oligonucleotides (ASOs), which are synthetic DNA-like molecules that can bind to huntingtin messenger RNA (mRNA) and prevent its translation into damaging protein. Delivered directly into the brain or cerebrospinal fluid, ASOs were found to reduce huntingtin levels by over 50% in animal and early human studies. Oligonucleotides developed by companies like Ionis Pharmaceuticals and Roche are in advanced clinical testing. Preliminary results suggest they may be safe and reduce chorea severity. Another therapy under investigation is using viral vectors to deliver RNA interference machinery into cells. This teaches cells to recognize and degrade huntingtin mRNA, lowering protein levels. While risks like immune reactions need evaluating, gene silencing could profoundly impact Huntington's progression if proved effective in large-scale trials now in progress. Stem Cell Therapies Animal research also suggests stem cell transplantation may help replace damaged or dying brain cells in Huntington's patients. Mesenchymal stem cells derived from bone marrow or adipose tissue were shown to improve motor function after transplantation in HD mouse models, possibly through neuroprotective or immunomodulatory effects. Other studies found inducing pluripotent stem cells to become new brain or striatal neurons may restore lost function when engrafted in animals. Safety and efficacy testing is still preliminary, but stem cell approaches could be combined with gene silencing to better manage symptoms and slow neurodegeneration. Larger preclinical and early-phase clinical trials are exploring their therapeutic potential. Improving Quality of Life While disease-modifying treatments are actively pursued, caring for Huntington's patients also aims to maximize quality of life through symptom management and supportive care. Physical, occupational, speech and swallowing therapies help maintain mobility and functioning for as long as possible. Access to genetic testing and counseling enables at-risk individuals and newly diagnosed patients to make informed life choices. Support groups provide invaluable emotional and practical support from others facing similar challenges. As our understanding of the disease progresses, a multidisciplinary treatment approach combining both pharmacological and non-drug therapies gives hope to those living with or at risk of this currently incurable disorder. Continued research efforts hold promise for developing more effective treatments that may one day slow or even stop the progression of Huntington's disease. In summary, this article reviewed the latest research in Huntington's disease treatment including the use of medications to manage motor and psychiatric symptoms, gene silencing techniques aiming to reduce production of the faulty huntingtin protein, stem cell transplantation and neuroprotective approaches. It also highlighted the importance of supportive therapies to maximize quality of life for Huntington's patients. While a cure remains elusive, combination strategies addressing multiple facets of the disease process could significantly improve prognosis and help to slow neurological decline for those impacted by this genetic disorder. Significant research progress continues to be made providing hope for more effective therapies in the future. Get more insights on: https://www.ukwebwire.com/huntingtons-disease-treatment-an-overview/ The soil active herbicides market comprises herbicides that are applied directly to soil to control emerged weeds and prevent germination of weed seeds. Soil applied herbicides have longer persistence in soil and provide pre-emergent and post-emergent weed control for extended periods. They are widely used in conventional as well as organic farming practices.
The global soil active herbicides market is estimated to be valued at US$ 9841.66 Bn in 2024 and is expected to exhibit a CAGR of 22% over the forecast period 2024 to 2030. Key Takeaways Key players operating in the soil active herbicides market are GE Additive, Stratasys Ltd., Materialise N.V., EoS GmbH, Allevi, Inc., RegenHU, EnvisionTEC GmbH, 3D Systems, Inc., Nanoscribe GmbH, and GPI Prototype and Manufacturing Services, LLC. Soil herbicides are widely preferred by farmers due to their ability to provide cost-effective weed management for longer periods with minimal labor requirements. Various technologies being adopted by key players including advanced polymer formulation and 3D printing are further enhancing efficiency and ensuring minimal environmental impact of soil herbicides. With the growing global population and limited availability of agricultural land, demand for high crop yield through efficient weed management is increasing significantly. Leading manufacturers are engaging in new product launches and investment in R&D to develop advanced soil herbicides with novel modes of action, minimum residual effect, and compatibility with various crops. Rapid adoption of precision farming and digitization of agricultural processes is also supporting growth of the market. Market Trends Increased Emphasis on Sustainable Agriculture Growing consumer demand for chemical-free and organic food has increased emphasis on sustainable agriculture practices. Soil active herbicides allow organic farmers to control weeds without using synthetic ingredients. Leading players are developing bio-based and natural soil herbicides formulated using plant extracts to cater to the organic market. Adoption of Precision Application Techniques Precision application technologies such as map-based soil sampling and targeted spraying allow uniform and judicious application of soil herbicides. Sensor-based weed detection further aids in applying herbicides only to weed-infested areas, reducing environmental impact. Precision farming techniques are increasing the efficiency and cost-effectiveness of soil herbicide usage. Market Opportunities Development of Mode of Action Diverse Products With the evolution of resistant weed varieties, there is a growing need for soil herbicides having novel modes of action. Development of products containing multiple active ingredients or new targets of action can help tackle the issue of increasing herbicide resistance. Drone-Enabled Spraying Drone spraying technology enables uniform and effective herbicide application in hard-to-reach agricultural areas at low costs. Drone seeding also aids in targeted herbicide application. Integration of drone technologies is expected to open new opportunities for soil herbicide manufacturers. Impact of COVID-19 on Soil Active Herbicides Market Growth The COVID-19 pandemic negatively impacted the soil active herbicides market growth. During the lockdowns implemented worldwide to curb the spread of the virus, agricultural activities were halted. This significantly reduced the demand for soil active herbicides from the agricultural sector. Additionally, disruptions in the supply chain and restrictions on transportation made it difficult for manufacturers and vendors to deliver herbicides to farms on time. Post-lockdown, farmers faced financial difficulties due to losses incurred during the lockdown period. This adversely impacted their purchase capability and deterred them from using soil active herbicides for weed management. However, with restrictions now being eased and agricultural activities resuming steadily, the demand is projected to rise again gradually. Manufacturers will also focus on improving supply chain resilience to ensure smooth deliveries. Over the long run, implementation of preventive measures and digital technologies can help stabilize the market. Geographical Regions with High Concentration of Soil Active Herbicides Market In terms of value, North America represents one of the most concentrated regions for the soil active herbicides market currently. This is majorly due to extensive farming practices and considerable usage of these herbicides by farmers in countries like the US and Canada for crop protection. Farmers in these countries have adopted advanced agricultural technologies at a rapid pace. The region also has presence of leading manufacturers who cater to strong domestic as well as export demand. Other prominent regions include Western Europe, Eastern Europe and Asia Pacific with countries like China and India having huge agricultural output and sizable herbicide consumption. Developing nations are gradually coming up as new high potential markets. Fastest Growing Region for Soil Active Herbicides Market Among all regions, Asia Pacific is expected to witness the fastest growth in the soil active herbicides market during the forecast period. This growth can be attributed to rising population, increasing food demand, expansion of agricultural land, growing mechanization and availability of low-cost labor in the region which is boosting agricultural productivity. Countries like India and China with large agriculture dependent economies will majorly fuel the market expansion. Additionally, easing of stringent regulations and rising acceptance of modern farming practices are encouraging herbicide application in the region. The growing presence of Asian manufacturers is also facilitating higher product access and driving sales volumes. These factors are anticipated to position Asia Pacific as the most lucrative market for soil active herbicides globally. Get more insights on: Soil Active Herbicides Market Smart Machines Market Overview
Smart machines are intelligent machines that make autonomous decisions based on self-learning and optimization algorithms. They are capable of carrying out various complex tasks autonomously with minimal or no human involvement. Smart machines find applications across industrial, medical, defense, and other sectors to optimize workflows and improve productivity. They are equipped with smart sensors, Internet of Things (IoT) connectivity, machine learning technologies, and advanced algorithms to function intelligently and autonomously without human inputs. Incorporation of AI and machine learning enables smart machines to make complex decisions, carry out advanced planning and scheduling, and enhance the overall operations across various industries. The Global Smart Machines Market is estimated to be valued at US$ 165.43 Mn in 2024 and is expected to exhibit a CAGR of 3.1% over the forecast period 2024 to 2030. Key Takeaways Key players operating in the Smart Machines market size are Ossur, Steeper Group, Blatchford, Inc., Fillauer LLC, Ottobock, and WillowWood Global LLC, among others. Ossur and Ottobock command a dominant market share owing to their robust product portfolio and global presence. The market is witnessing increasing demand from various industries for automation solutions to optimize productivity and minimize operational costs. Manufacturing, healthcare, transportation, and other sectors are increasingly implementing smart machines to enhance efficiency. Technological advancements in AI, machine learning, IoT, and cloud computing are enabling the development of more intelligent machines with self-learning capabilities. Integration of advanced technologies is allowing machines to mimic human intelligence and decision making for complex tasks. Market Trends Increased Adoption of Robotic Process Automation: More companies are implementing robotic process automation (RPA) solutions using smart machines to streamline workflows and reduce manual interventions. RPA facilitates automation of repetitive and rule-based business processes. Growing Focus on Predictive Maintenance: Integration of predictive maintenance enables smart machines to self-monitor performance and anticipate maintenance needs. This helps reduce downtime and maintenance costs through condition-based servicing. Market Opportunities Scope for Collaboration with 5G Networks: Emergence of 5G networks will allow for end-to-end connectivity with massive Machine-to-Machine (M2M) communication. This creates opportunities for development of autonomous smart machines with edge & fog computing capabilities. Rising Investments in AI & Automation: Governments and private organizations are increasing investments to accelerate automation and adopt emerging technologies like AI, IoT, and robotics. This will boost innovations in developing self-learning smart machines. Get more insights on: https://www.pressreleasebulletin.com/the-global-smart-machines-market-is-empowering-industries-to-automate-operations-globally/ The Industrial IoT Market comprises connected sensors and instruments that collect data from industrial machines and enable remote monitoring of industrial assets and processes. With the advent of Industry 4.0, there is growing adoption of IoT technologies across sectors like manufacturing, oil & gas, healthcare, etc. to automate processes and gain real-time operational insights. Technologies like edge computing, predictive maintenance, machine learning are being leveraged with industrial IoT solutions to optimize productivity and reduce downtime of equipment. The Global Industrial IoT Market is estimated to be valued at US$ 140.84 Bn in 2024 and is expected to exhibit a CAGR of 16% over the forecast period 2024 to 2030.
Key Takeaways Key players operating in the Industrial IoT are Aviation Industry Corporation of China, Clearpath Robotics, General Atomics Aeronautical Systems, Hi-Tech Robotic Systemz, Softbank Robotics, SMP Robotics, Aethon. With increasing digitization across industries, the demand for industrial IoT solutions is growing exponentially to manage critical infrastructure remotely and optimize processes. Major technology players are focusing on developing enhanced predictive maintenance, computer vision, and AI integrated solutions to gain more insights from industrial assets. Industrial IoT with Edge and fog computing allows real-time analytics at supplier location without latency and enables remote monitoring of critical machinery reducing downtime. Market Trends The increased adoption of industrial IoT across sectors like oil & gas, manufacturing is a key trend where technologies like remote monitoring, AI, predictive maintenance is helping optimize processes. Integration of industrial IoT with other technologies like 5G, edge computing, blockchain is opening new opportunities for real-time data analytics at remote locations. Advancements in sensor technologies with increased parameters for monitoring vibration, heat, pollution is enhancing predictive skills of industrial IoT solutions. Increased focus on deploying industrial IoT for sustainability with applications in renewable energy, smart grid, emission monitoring as well. Market Opportunities Growing investments from automotive, transportation sector for developing connected vehicles with industrial IoT and advanced driver assistance capabilities present a bright opportunity. Integration of robotics, drones with industrial IoT can make autonomous inspection of critical infrastructure more efficient. Adoption in smart cities for applications like traffic management, waste management through sensors, presents a multibillion-dollar market opportunity by 2030. Impact of COVID-19 on Industrial IoT Market Growth The COVID-19 pandemic has significantly impacted the growth of the industrial IoT market. During the pre-COVID period, the market was experiencing robust growth driven by increasing automation across manufacturing industries and rising adoption of IoT technologies. However, the outbreak disrupted global supply chains and halted manufacturing operations worldwide in 2020. This adversely affected the demand for industrial IoT solutions from key end-use industries such as manufacturing, oil & gas, utilities, and automotive. With restrictions and lockdowns imposed, traditional on-premises deployment models could not be utilized fully. This resulted in delays in several IIoT projects. However, as businesses adjusted to the new normal, remote asset monitoring and maintenance gained prominence. This boosted the deployment of cloud-based IIoT platforms which facilitated remote operations. Going forward, the market is expected to rebound strongly in the post-COVID period. IIoT solutions addressing issues such as asset optimization, remote operations, predictive maintenance and supply chain management will witness increasing uptake. Adoption of advanced technologies such as AI, analytics will further accelerate. While short-term disruptions were unavoidable, the long-term demand outlook for IIoT remains positive with digital transformation gaining centerstage. Geographical Regions with High Concentration of Industrial IoT Market Value North America represents the largest and most valuable region for the industrial IoT market size currently. This is majorly attributed to strong technological adoption across sectors such as oil & gas, manufacturing, utilities in countries like the U.S. and Canada. Significant investments by regional companies in developing cutting-edge IIoT-based solutions have augmented market value. Asia Pacific follows North America and is anticipated to emerge as the fastest growing regional market in the coming years. Presence of major manufacturing hubs and rising focus on Industry 4.0 drive the demand from China, India, Japan and South Korea. Other high potential regions include Western Europe and Middle East & Africa. Fastest Growing Regional Market for Industrial IoT Asia Pacific is poised to be the fastest growing regional market for industrial IoT globally during the forecast period. This is credited to initiatives by governments across developing countries to foster industrialization through industrial automation and digitization. China, with its ‘Made in China 2025’ policy has been among the frontrunners in deploying IIoT across manufacturing facilities. The ‘Industry 4.0’ strategy adopted by India also prioritizes digital technologies to modernize domestic industries. Other South Asian nations are also emphasizing industry automation to enhance production capabilities. Such enabling initiatives coupled with increasing technology adoption will help Asia Pacific industrial IoT market scale new heights of growth. Get more insights on: https://www.pressreleasebulletin.com/industrial-iot-market-is-estimated-to-witness-high-growth-owing-to-increasing-adoption-of-cloud-computing-and-big-data-analytics/ The industrial adhesives market has been witnessing steady growth over the past few years with the increasing application of adhesives in various end-use industries like automotive, building & construction, packaging, woodworking, footwear and others. Adhesives offer advantages like reduced assembly time and weight, high bond strength, corrosion resistance over conventional fastening methods like welding and mechanical fasteners. The Global industrial adhesives market size is estimated to be valued at US$ 48.44 Bn in 2024 and is expected to exhibit a CAGR of 19% over the forecast period 2024 to 2030.
Key Takeaways Key players operating in the industrial adhesives are Johnson & Johnson (DePuy Synthes), Medtronic plc, Stryker Corporation, Zimmer Biomet Holdings, Inc., Smith & Nephew plc, NuVasive, Inc., Globus Medical, Inc., Wright Medical Group N.V., Arthrex, Inc., DJO Global, Inc., â¤ssur hf., CONMED Corporation, Breg, Inc., Orthofix Medical Inc., Bioventus LLC. The growing demand from the packaging industry due to increase in e-commerce activities is a major factor driving the market. Technological advancements in adhesive production like hot melt adhesives are gaining traction in the market. Market Trends Environmental concerns regarding VOCs emissions from solvent-based adhesives has boosted the demand for bio-based and water-based adhesives in the market. Manufacturers are investing in R&D to develop advanced adhesive solutions with improved bonding strength and shorter curing times. Market Opportunities The rising popularity of lightweight and sustainable materials in automotive industry creates opportunities for manufacturers to develop lightweight and high strength structural adhesives. Growing infrastructure development activities in emerging countries of Asia Pacific and Middle East is anticipated to boost the demand for adhesives in construction applications over the forecast period. Impact of COVID-19 on Industrial Adhesives Market Growth The COVID-19 pandemic has severely impacted the global industrial adhesives market growth. With lockdowns imposed worldwide, there was a steep decline in end-use industries like automotive, construction, woodworking, and packaging. This led to reduced demand for adhesives as production and operations were halted. However, with easing of restrictions and resumption of activities, the market is rebounding gradually post-COVID. The pre-COVID scenario saw steady industrial adhesives market expansion riding on strong performances of end-use sectors. However, the pandemic brought everything to a standstill. With businesses shut, supply chains disrupted and projects stalled, adhesive sales nosedived. Even as markets reopen, end-users remain cautious about demand recovery. Social distancing norms hamper productivity while raw material shortages and price hikes impact the industry. Adhesive manufacturers face challenges to sustain operations amid volatile demand-supply dynamics. While e-commerce growth supports some segments, overall markets will take time returning to pre-crisis levels. For stable long-term growth, businesses need agile strategies to increase product offerings, diversify end-uses and gain market share. Emphasis on product innovation, sustainability drives and strategic partnerships can help maximize opportunities in the evolving market landscape. The industrial adhesives market in North America region is highly concentrated in value terms currently. The region accounts for a significant market share owing to vast end-use industries and presence of leading adhesive brands. Besides, high per capita adhesive consumption and rising investments to develop advanced formulations further augment the regional market. Meanwhile, the Asia Pacific region is emerging as the fastest growing market for industrial adhesives globally. Factors such as rapid industrialization, infrastructural development activities and expansion of manufacturing sector across countries like China and India are supporting the market growth. Get more insights on: Industrial Adhesives Market The secondary battery market comprises rechargeable batteries that are used in various portable electronic devices such as smartphones, laptops, tablets, power tools, e-vehicles among others. Secondary batteries offer advantage of being recharged multiple times and have a longer lifespan as compared to primary batteries that can be used only once. Some key types of secondary batteries used widely include lead-acid batteries, lithium-ion batteries (Li-ion), nickel-metal hydride batteries and nickel-cadmium batteries. Secondary batteries are small, lightweight, have high energy density and provide long battery life, making them ideal for powering various portable electronic devices. The Global secondary battery market is estimated to be valued at US$ 120.19 Bn in 2024 and is expected to exhibit a CAGR of 4.4% over the forecast period 2024 to 2030.
Key Takeaways Key players operating in the secondary battery market size are 3M, ConvaTec Inc., Coloplast Corp., Salts Healthcare, MEDLINE, Medicareplus International, Essity Medical Solutions, Cardinal Health, Smith & Nephew Plc., Safe n Simple, B Braun Medical Inc., Hollister Inc., and DermaRite Industries, LLC. These players are focused on developing advanced battery technologies and expanding their production capacities to cater to the growing demand. The demand for secondary batteries is surging due to the widespread adoption of portable electronic devices across the world. Increasing sales of smartphones, laptops, tablets, power tools and electric vehicles are majorly driving the consumption of secondary batteries. Advancements in battery technologies are further boosting the applications of secondary batteries in various sectors. Technological advancements are encouraging battery innovations and developments of advanced battery chemistries. Companies are focused on improving battery charging capabilities, energy density, life cycle and safety. Development of lithium-ion battery technologies with high energy density is widening the scope of secondary batteries. Market Trends Rise in portable electronics demand: Growing sales of consumer electronics such as smartphones, laptops, tablets, wearable devices and power tools is propelling the demand for lightweight and long-lasting secondary batteries in these devices. Electric vehicles sales surge: Increasing adoption of electric vehicles worldwide is creating significant opportunities for secondary battery manufacturers. Major battery technologies powering EVs include lithium-ion batteries and lead-acid batteries. Market Opportunities Product miniaturization: Continuous reduction in the size of various consumer electronic devices without compromising on performance is driving opportunities for developing miniature secondary batteries with high energy density. Shift to green energy: Emergence of renewable energy storage solutions along with growing adoption of solar panels and wind turbines is augmenting opportunities for secondary batteries like lithium-ion batteries for storing excess energy. Impact of COVID-19 on Secondary Battery Market Growth The COVID-19 pandemic significantly impacted the secondary battery market growth globally. During the initial lockdown phase, factories were shut down affecting battery production. This led to disruptions in the supply chains and shortage of raw materials like cobalt, lithium and graphite used in lithium-ion battery manufacturing. The demand from major end-use industries like consumer electronics and automotive also declined sharply as manufacturing activities were halted. However, with the easing of lockdowns and resumption of operations, the market is recovering gradually. The demand for batteries is also rising from healthcare sector for devices like ventilators, portable X-ray machines and Patient monitors used for treating COVID-19 patients. To deal with future crises, companies are now focusing on establishing robust and flexible supply networks. They are diversifying sourcing and increasing inventory levels of critical raw materials. Battery manufacturers are also ramping up production capacities to meet the growing demand from various sectors including renewable energy storage. Governments across regions are supporting the development of domestic battery industries through incentives and funding to reduce import dependence. Overall, the long-term outlook for the secondary battery market remains positive driven by increasing adoption of EVs, renewable energy integration and demand for batteries in consumer electronics. Geographical Regions with Highest Secondary Battery Market Value Asia Pacific currently holds the largest share of the global secondary battery market in terms of value attributed to high consumption in China and other developing countries. China dominates the lithium-ion battery production globally owing to presence of leading battery makers and availability of raw materials. North America is the second largest market led by the rising sales of electric vehicles across the US and Canada. Considerable investments are being made by automakers to set up local battery manufacturing plants in the region. Europe is another major regional market for secondary batteries driven by stringent emission norms promoting electric mobility in countries like Germany, UK and France. Fastest Growing Regional Market for Secondary Batteries The secondary battery market in Middle East and Africa is expected to exhibit fastest growth during the forecast period on account of ongoing energy storage projects, infrastructure development activities and automobile sector expansion across GCC countries and Africa. Governments are undertaking initiatives to provide electricity access through off-grid solar projects powered by battery storage systems. Key battery storage applications include residential, commercial and utility-scale use. Additionally, growing electric vehicle adoption and investments by global automakers in developing charging infrastructure will further drive the secondary battery demand in the region. The saliva collection devices market comprises products such as saliva collection tubes, swabs, and cassettes that are used to collect and store unstimulated or stimulated saliva samples. Saliva collection devices offer a non-invasive alternative to sample collection methods involving blood draws or other clinical procedures. These devices make the sampling process convenient and pain-free for both patients and healthcare professionals. The increasing focus on precision medicine and disease diagnostics using omics technologies such as genomics, proteomics and metabolomics is driving the demand for collecting biological samples in a simple, cost-effective manner.
The Global saliva collection devices market is estimated to be valued at US$ 342.46 Bn in 2024 and is expected to exhibit a CAGR of 10% over the forecast period 2024 to 2030. Key Takeaways Key players operating in the saliva collection devices are IBM Corporation, Oracle Corporation, Cerner Corporation, InterSystems Corporation, Allscripts Healthcare Solutions, Red Hat, Inc. (acquired by IBM), Microsoft Corporation, GE Healthcare, Infor, Inc., Epic Systems Corporation, TIBCO Software Inc., McKesson Corporation, Dell Technologies, Informatica Corporation, Ascom Holding AG . The demand for saliva collection devices is increasing owing to the growing adoption of saliva-based testing for various clinical diagnostic purposes such as the detection of COVID-19, drugs of abuse and chronic diseases monitoring. Major technological advancements have been witnessed in the field of salivary diagnostics with the development of novel platforms for integrated fluid handling, biomarker detection and data interpretation from saliva samples Market trends The saliva collection devices market size is witnessing trend of product development focused on home collection kits. Manufacturers are developing self-collection kits that can be easily used at home and shipped to laboratories for testing. This helps in expanding access to tests and healthcare. Another emerging trend is integrated fluidic systems that allow automated extraction, purification and analysis of biomarkers from saliva samples on a single portable platform. Market Opportunities Growing demand for non-invasive methods for disease monitoring and screening in healthcare represents a major opportunity. Development of inexpensive, microfluidic-based "labs-on-chip" for integrating all steps of saliva sample collection, biomarker isolation and detection on a single compact device will boost the market potential. Emerging economies with large patient pools such as India and China offer lucrative growth opportunities owing to increasing healthcare investments. Impact of COVID-19 on Saliva Collection Devices Market Growth: The outbreak of the COVID-19 pandemic has significantly impacted the growth of the global saliva collection devices market. During the initial lockdown phases, healthcare facilities were overwhelmed and focused more on testing and treating COVID-19 patients. This led to postponing of several non-COVID procedures which utilized saliva collection devices. Moreover, disruptions in the supply chain and international trade restrictions affected the procurement of raw materials for manufacturing saliva collection devices. However, as the pandemic progressed, detecting SARS-CoV-2 infection through saliva-based RT-PCR testing became a preferred method owing to its ease of collection compared to nasopharyngeal swabs. This boosted the demand for saliva collection devices from 2020 onwards. Going forward, as vaccination drives help regain control over the virus spread, utilization of saliva testing is expected to remain popular even in the post-pandemic scenario for screening purposes in schools, workplaces and airports. Device manufacturers will need to focus on ramping up production capacities, ensuring supply chain reliability and exploring new markets to sustain the growth momentum. Regional Concentration in Saliva Collection Devices Market: In terms of value, North America accounted for the major share of the global saliva collection devices market in 2024. This can be primarily attributed to the advanced healthcare infrastructure and rising emphasis on preventive healthcare approach in the region. For instance, employers in the United States have started implementing regular saliva-based COVID-19 screening for employees returning to workplaces. Additionally, growing awareness about early disease detection and favorable reimbursement policies for diagnostic tests are fueling the adoption of saliva collection devices across different end-users in the region. Fastest Growing Region for Saliva Collection Devices Market: Asia Pacific is poised to experience the fastest growth in the saliva collection devices market during the forecast period. This can be accredited to increasing healthcare expenditure, rising disposable income, growing geriatric population susceptible to chronic diseases and rapid development of healthcare research infrastructure in emerging economies such as China and India. Moreover, large patient pools suffering from infectious diseases and various forms of cancers are driving the need for cost-effective and non-invasive screening and testing methods using saliva samples. Continuous technological advancements and rising collaborations between regional and international market players are further expected to boost market expansion across the Asia Pacific region. Get more insights on: Saliva Collection Devices Market Autonomous vegetable weeding robots are robots designed to detect and remove weeds from agricultural fields without human intervention. These robots use machine vision, artificial intelligence and mechanical design to identify crop plants and pull or spray herbicides on weed plants, allowing farms to maximize crop yields. Advantages of these robots include that they can work continuously without tiring, require no living wages, and can identify and remove weeds with high accuracy compared to manual labor. The increasing need to maximize crop yields from limited arable land is driving the need for precision weeding technologies like autonomous vegetable weeding robots.
The Global Autonomous Vegetable Weeding Robots Market is estimated to be valued at US$ 48.73 Bn in 2024 and is expected to exhibit a CAGR of 50% over the forecast period 2024 to 2030. Key Takeaways Key players operating in the autonomous vegetable weeding robots are Fabric Genomics, International Business Machines, MICROSOFT, NVIDIA, AI Therapeutics, Ares Genetics, Benevolent AI, Deep Genomics, DIPLOID and among others. The increasing global population and limited arable land is creating rising demand for technologies that can maximize crop yields from existing farmland. Autonomous vegetable weeding robots address this demand by utilizing machine vision, AI and IoT to identify and remove weeds with high accuracy, allowing farms to maximize crop yields. Technological advancements are also helping improve the weed identification accuracy and processing speeds of autonomous vegetable weeding robots. Newer models incorporate thermal imaging, advanced machine learning algorithms and edge computing capabilities for real-time weed mapping and removal. Market Trends Autonomous farming is one of the key trends in the agricultural sector with autonomous equipment seeing rising adoption. Within autonomous farming, autonomous weeding robots that utilize computer vision, AI and robotics is a major segment. The accuracy and speed of weed identification through machine vision and AI is steadily increasing with each new generation of weeding robots. Edge computing capabilities are also being added that allow real-timeweed mapping and selective spraying of herbicides. Sustainability is another key trend with weeding robots helping reduce herbicide and water usage through precision weed control. Market Opportunities Latin America and Asia Pacific offer major opportunities for autonomous vegetable weeding robot vendors due to the large cultivable areas and growing mechanization in agriculture. Developing affordable autonomous weeding robots tailored for smallholding farms can tap into a huge customer segment. Offering robot-as-a-service models through output based pricing can further increase adoption. Integrating drones and computer vision advancements for aerial weed mapping also presents an opportunity. Impact of COVID-19 on Autonomous Vegetable Weeding Robots Market The COVID-19 pandemic has significantly impacted the growth of autonomous vegetable weeding robots market. The lockdowns imposed by various governments led to disruptions in the supply chain and halt in production activities. This adversely affected the market in the initial months of 2020. However, with gradual lifting of lockdowns and restarting of manufacturing facilities, the market is expected to gain traction in later half of 2022. The pandemic hastened the need for automating agricultural processes and ensured social distancing. This increased demand for autonomous weeding robots from farmers. Additionally, focus on food security and sustainability further boosted the adoption of such robots post pandemic. Though short term growth was impacted, in long run COVID-19 is likely to prove beneficial for market by accelerating automation in agriculture. Geographical regions with high market concentration in terms of value North America region accounts for the largest share of autonomous vegetable weeding robots market size in terms of value. This is mainly attributed to high farmer incomes, large land holdings and rising focus on precision farming techniques in countries like United States and Canada. Countries in Western Europe such as Germany, France and United Kingdom also have significant market concentration owing to supportive government policies for adoption of new technologies in agriculture. Asia Pacific region is expected to witness fastest growth in coming years led by China, India and Japan. Increasing population and need to maximize yields will drive demand from Asia Pacific region. Fastest growing region for Autonomous Vegetable Weeding Robots Market Asia Pacific region is poised to experience the highest growth in autonomous vegetable weeding robots market during forecast period. Rapidly growing population, reducing farm sizes and increasing labor costs are compelling farmers to automate agricultural processes. Countries like India and China are extending financial support for incorporating smart technologies on farms. Additionally, favorable government initiatives to boost precision agriculture will significantly contribute to Asia Pacific emerging as fastest growing regional market. Affordability of such robots will further support their widespread adoption across Asia Pacific over the coming decade. Get more insights on: Autonomous Vegetable Weeding Robots Market |
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