Elmarco is a company that specializes in nanotechnology, specifically in the development of equipment for the industrial production of nanofibrous materials. The company's main offerings include equipment that enables the production of nanofibers, which are used in a variety of applications such as air and liquid filtration, healthcare, energy, and performance apparel. Elmarco primarily serves sectors such as healthcare, energy, and the apparel industry. It was founded in 2000 and is based in Czech Republic.
ELMARCO has filed 5 patents.
Electrostatics, Polymers, Electromagnetism, Casting (manufacturing), Nanotechnology
Electrostatics, Polymers, Electromagnetism, Casting (manufacturing), Nanotechnology
Latest ELMARCO News
Aug 21, 2020
New York, United State, 21 August 2020 Latest research study with title Global Nanofiber Equipment Market report provides a detailed analysis of global market size, regional and country-level market size, segmentation market growth, market share, competitive Landscape, sales analysis, impact of domestic and global market players, value chain optimization, trade regulations, recent developments, opportunities analysis, strategic market growth analysis, product launches, area marketplace expanding, and technological innovations. The research report has incorporated the analysis of different factors that augment the market’s growth. The comprehensive report provides a significant microscopic look at the market. The market research report identifies Elmarco, Tong Li, Asahi Kase, Nanoflux PTE LTD, Inovenso, Kato Tech Co., Ltd., NAFIGATE, M-TEchX Inc., Asahi Kasei are the market leaders operating in the global Nanofiber Equipment market. It helps the reader understand the strategies and collaborations that players are focusing on combat competition in the market. The Global Nanofiber Equipment Market Research report presents a complete assessment of the market and contains Future trend, Current Growth Factors, attentive opinions, facts, historical data, and statistically supported and industry validated market data. The market dynamics, involves the drivers, restraints, opportunities, and challenges through which the impact of these factors in the market is outlined. The drivers and restraints are intrinsic factors whereas opportunities and challenges are extrinsic factors of the market. The Global Nanofiber Equipment Market study provides an outlook on the development of the market in terms of revenue throughout the prognosis period. Then, the report focuses on world major leading industry players with information like company profiles, product picture and specifications, Sales Revenue, Price, gross margin, market share, and contact info. In addition, the Nanofiber Equipment industry development trends and marketing channels are analyzed. Global research on Global Nanofiber Equipment Industry presents a market overview, product details, classification, market concentration, and maturity study. The market value and growth rate from 2020-2026 along with industry size estimates are explained. This market report offers a comprehensive analysis of the global Nanofiber Equipment market. This report focused on Nanofiber Equipment market past and present growth globally. This market report is a valuable source of insightful data for business strategists. It offers the industry overview with growth analysis and historical & futuristic cost, revenue, demand, and supply data (as applicable). In addition, this report discusses the key drivers influencing market growth, opportunities, the challenges and the risks faced by key manufacturers and the market as a whole. It also analyzes key emerging trends and their impact on present and future development. The report incorporates in-depth assessment of the competitive landscape, product market sizing, product benchmarking, market trends, product developments, financial analysis, strategic analysis and so on to gauge the impact forces and potential opportunities of the market. Apart from this the report also includes a study of major developments in the market such as product launches, agreements, acquisitions, collaborations, mergers and so on to comprehend the prevailing market dynamics at present and its impact during the forecast period 2020-2025. Regional Analysis: The research covers the current & Future market size of the Global Nanofiber Equipment market and its growth rates based on 5 year history data. It also covers various types of segmentation such as by geography [United States, EU, Japan, China, India & Southeast Asia]. The market competition is constantly growing higher with the rise in technological innovation and M&A activities in the industry. Moreover, many local and regional vendors are offering specific application products for varied end-users. On the basis of attributes such as company overview, recent developments, strategies adopted by the market leaders to ensure growth, sustainability, financial overview and recent developments. Global Nanofiber Equipment Market, By Product Type Melt Blown Machine, Electrospinning Equipment, Others Global Nanofiber Equipment Market, By Application Organic Nanofibers Production, Inorganic Nanofibers Production Let you Know about our Huge Demand of Following 15 Chapters in Global Nanofiber Equipment Market Chapter 1: Relates to overview, product overview, market segmentation, a market overview of regions, market dynamics, limitations, opportunities and industry news and policies on Nanofiber Equipment market. Chapter 2: Focus on Nanofiber Equipment industry chain analysis, upstream raw material suppliers, major players, production process analysis, cost analysis, market channels, and major downstream buyers. Chapter 3: Value analysis, production, growth rate and price analysis by type of Nanofiber Equipment find prominence. Chapter 4: Relates to the global Nanofiber Equipment market’s downstream characteristics, consumption and market share by application. Chapter 5: Focus on international Nanofiber Equipment market’s production volume, price, gross margin, and revenue in terms of $ of Nanofiber Equipment by regions between 2015 and 2020. Chapter 6: This relates to production, consumption, export, and import by regions during the years 2015 to 2020 from the global Nanofiber Equipment market. Chapter 7: This pertains to status and SWOT analysis by regions. Chapter 8: Focus on Nanofiber Equipment competitive landscape, product introduction, company profiles, and market distribution status by players. Chapter 9: This relates to the global Nanofiber Equipment market analysis and outlook by type and application of Nanofiber Equipment market between 2020 and 2026. Chapter 10: Region-wise market analysis and outlook of the global Nanofiber Equipment market during the years 2020 to 2026. Chapter 11: Focus on global Nanofiber Equipment industry characteristics, key factors, new entrants SWOT analysis, and investment feasibility analysis. Chapter 12: Market conclusion of the entire report on the international Nanofiber Equipment market. Chapter 13: This appendix chapter includes methodology and data resources of this research. Reason to Buy This Report: * This report provides a quantitative analysis of the current industrial Nanofiber Equipment, estimations, and dynamics of the market from 2020 to 2026 to identify the prevailing market opportunities. * The key countries in all the major regions are mapped based on their market share. * Porter’s five forces of Nanofiber Equipment market analysis highlights the potency of buyers and suppliers to enable stakeholders to make profit-oriented business decisions and strengthen their supplier–buyer network. * An in-depth analysis of the Nanofiber Equipment market size helps to determine the prevailing market opportunities. * The market Nanofiber Equipment market forecast are provided along with the information related to key drivers, restraints, and opportunities. * A detailed analysis of the segments measures the potential of the Nanofiber Equipment market. These segments outline the favorable conditions for the market forecast. Key Highlights of the Nanofiber Equipment Market : • Conceptual analysis of the Market products, application wise segmented study. • Clear study and pin-point analysis for changing competitive dynamics. • Analysis of major regional segmentation on the basis of how the market is predicted to grow. Read Detailed Index Report @ https://www.indexmarketsresearch.com/report/nanofiber-equipment-market-2/423388/ The research report has incorporated the analysis of different factors that augment the market’s growth. This section also provides the scope of different segments and applications that can potentially influence the market in the future. The detailed information is based on current trends and historic milestones. Nanofiber Equipment Sales, Price, Revenue, Gross Margin and Market Share, cost structure and growth rate. The report considers the revenue generated from the sales of This Report and technologies by various application segments. In conclusion, Nanofiber Equipment Market report presents the descriptive analysis of the parent market based on elite players, present, past and futuristic data that will serve as a profitable guide for all the Nanofiber Equipment Market competitors. Further in the report, the Nanofiber Equipment market is examined for Sales, Revenue, Price and Gross Margin. These points are analyzed for companies, types, and regions. In continuation with this data, the sale price is for various types, applications and region is also included. The Nanofiber Equipment industry consumption for major regions is given. Additionally, type wise and application wise figures are also provided in this report. Request customize:- If you wish to find more details of the report or want a Customization Please contacts us. You can get a detailed of the entire research here.
ELMARCO Frequently Asked Questions (FAQ)
When was ELMARCO founded?
ELMARCO was founded in 2000.
Who are ELMARCO's competitors?
Competitors of ELMARCO include Supercon and 4 more.
Compare ELMARCO to Competitors
3F aims to provide research and engineering services for makers and users of technical textiles, advanced composite materials and structures, and their applications. With experience in development of textile and composite materials, their processes and their applications, 3F supports new-product development, aims to reduce costs and shorstens the time to market. Design, analysis, prototyping, and testing are all part of what 3F does. They bring value to their clients at pre-negotiated, fixed-prices that are value-based and stage-gate controlled. The end result is faster commercialization and earlier returns on the R&D investment. 3f is a company that received a STTR Phase I grant for a project entitled: Light-Weight Bio-Based Nano-Enhanced SMC Formulations. Their project shall utilize a multi-organizational team with uniquely experienced and multi-disciplinary personnel to demonstrate the feasibility of a new family of innovative sheet molding compounds (SMCs) that are partially bio-based and have lower density while having similar performance and cost. Kenaf natural fiber will be blended with glass fiber and combined with commercially available soy-oil based resin and select nano-materials to produce new SMC formulations that will be manufactured and validated experimentally. Innovations include 1) chemistry approaches to address the known problems of moisture absorption and strength retention in natural fiber composites and 2) fiber processing methods that will enable the use of standard fiber processing machines and existing SMC manufacturing equipment. The new lighter weight SMCs will find initial application in off-road farm equipment, automotive trunk floors, wheel wells and other non surface-critical components that currently use metal or heavier SMCs. Multiple companies who currently make SMCs and/or SMC components will license the new material technology through the National Composite Centers (NCC) newly forming SMC consortium. The development team, innovative materials combinations and processing approach have been carefully selected to enable rapid commercialization of the new technology once demonstrated. Innovative materials and combinations of materials have potential to provide cost-effective engineered materials systems that provide significant weight savings for automotive structures, thus leading to higher vehicle fuel economy. Additionally, the full or partial use of bio-based renewable materials will reduce the consumption of and dependence on petroleum based products. The exciting ""green"" aspect to this program will assist NCC's educational mission as students have great interest in environmental issues and the use of renewable resources to make a sustainable environment. NCC's cooperative education program may be utilized in support of the proposed work. Positive R&D results may serve as the basis of setting up conferences with high schools through NCC's multi-source video and videoconferencing center. As a lead agency for the effort, NSF's funding of this program will also support President Bush's American Competitiveness Initiative whose goal is to ""increase investments in research and development, strengthen education, and encourage entrepreneurship"" and enable America to ""remain a leader in science and technology."" A focus of this research proposal is to develop technology that will enable cost-effective US manufacture of materials and components; thus supporting other ""Made in America"" type Federal initiatives. 3f is a company that received a STTR PHASE I grant for a project entitled: HIGH-STRENGTH LOW-COST FIBER VIA MULTI-COMPONENT NANOFIBER (MCN) SPINNING. Their project will employ a multi-component nanofiber spinning approach to develop a high-strength and high-modulus polymeric ""composite fiber"", using the latest available ""islands-in-sea"" spinning technology and innovative spinning process parameters and polymer combinations. The goal of this project is to achieve a ""composite fiber"" wherein nano-scale fibers (~100nanometers in diameter) reside in a reinforcing matrix. Due to their small size and molecular orientation, the nano-fibers will exhibit strengths approaching the theoretical strength of the constituent polymer. The resulting new composite fiber will be comparable to other high performance fibers on the market today, but will cost significantly less. Additionally, the matrix of the composite fiber may be a thermoplastic of lower processing temperature, enabling subsequent processing to melt the matrix and form composite materials and structures. The broader impact/commercial potential from this technology will be new composite fiber that can be commercialized in stages: first as an easy-to-sell industrial grade fiber; then as strong structural ballistic/structural fiber; and then as a composite material system with fiber and matrix already intimately interfaced (i.e. island and sea polymers, respectively). Initially composite fiber will be marketed as a replacement for industrial nylon, polyester, etc., in markets that don't require extensive testing and application development; e.g. cordage, ropes, nets, webbing, tire-cord, etc.
altafiber is a provider for internet, TV, home phone, energy, and more. It delivers integrated communications solutions to residential and business customers over its fiber-optic network including high-speed internet, video, voice and data. The company was founded in 1873 and is based in Cincinnati, Ohio.
ResCom Energy, LLC, is a licensed supplier of electricity to homes and small businesses in Connecticut.
Power Tagging is an energy technology company dedicated to improving the overall efficiency between energy providers and end users. By providing a real-time, schematic map of the electrical grid, Power Tagging technology has enabled a host of applications. The company has developed a technology for tagging or fingerprinting energy on the power grid. These tags have metadata associated with them, effectively creating a purpose-built network that operates over the global power grid.
Calabazas Creek Research is a company that focuses on the development of advanced technologies for high power RF generation and transmission, operating within the technology and research sectors. The company offers services such as designing customized RF and electron beam sources, high power RF components for advanced applications and research, software development, thermomechanical analysis, electromagnetic analysis, and CAD & design services. The company primarily sells to sectors such as the microwave tube and x-ray source industry, defense industry, and scientific research industry. It is based in San Mateo, California.
Advanced Power is a company focused on efficient and sustainable energy management within the energy sector. The company's main services include the development, financial structuring, and asset management of low-carbon and renewable energy projects, with a particular emphasis on reducing global emissions. Advanced Power primarily serves the energy industry, with a focus on renewable energy sectors such as solar, wind, and natural gas. It was founded in 2000 and is based in Zug, Switzerland.