Main Categories
Material is a generic term used for classification of Chemical Substance or a mixture of substances that constitute a thing. They are defined as solid substances that are intended for certain applications. They are divided as crystalline and non-crystalline. Metals, ceramics and polymers are traditional examples of materials. Semiconductors, nanomaterials, biomaterials, etc. are good examples of advanced materials. The constituent chemicals are the major determinants of the structure and its properties.
Decision Databases is involved in providing research reports and company profiles in the global material market in terms of revenue and output/volume. Market drivers, opportunities and restraints are thoroughly studied which influences the market. This study is further utilized for the overall analysis of the market. The material market is segmented based on the global applications, geographic presence, by products and ingredients. We offer an inclusive category-specific market outlook. We provide access to a comprehensive collection of companies in the industry. The companies can strategize and execute business operations through our competitor analysis. Find the global industry analysis, market size, share, growth, and trends information in our material profiles.
The report on the Global Low Smoke Halogen-Free Cable Materials Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Low smoke halogen-free also known as low smoke zero halogen (LSZH) is a distinctive material utilized for cable sheath in the wire & cable industry. This sheath is composed of thermoplastic urethane compounds, which emit no halogens or limited smoke when exposed to high sources of heat.
Halogens are highly reactive elements, which are hazardous to human, and animals. It comprise of elements like fluorine, chlorine, bromine, and iodine. Predominantly, cables are insulated with PVC or polyethylene, which contains high amounts of halogen. When exposed to flame, this halogen enclosing plastic materials discharge hydrogen chloride, hydrogen fluoride or others, which are poisonous gases. These gases produce toxic smokes that are hazardous to health. But during combustion, LSZH cables limit the emission of toxic and corrosive gases.
Low smoke halogen-free cable materials is superlative for applications at public spaces where several people are confined like hospitals, commercial buildings, train and train stations, subway cars and stations airports, boats, etc. Although, these cables are more high-priced than PVC, they offer safety that goes beyond the acquisition costs. Advantageously, it has a lower coefficient of friction.
Some leading companies of this market are:
The Global Low Smoke Halogen-Free Cable Materials Market has been exhibited in detail in the following chapters -
Chapter 1 Low Smoke Halogen-Free Cable Materials Market Preface
Chapter 2 Executive Summary
Chapter 3 Low Smoke Halogen-Free Cable Materials Industry Analysis
Chapter 4 Low Smoke Halogen-Free Cable Materials Market Value Chain Analysis
Chapter 5 Low Smoke Halogen-Free Cable Materials Market Analysis By Insulation Materials
Chapter 6 Low Smoke Halogen-Free Cable Materials Market Analysis By Application
Chapter 7 Low Smoke Halogen-Free Cable Materials Market Analysis By Geography
Chapter 8 Competitive Landscape Of Low Smoke Halogen-Free Cable Materials Companies
Chapter 9 Company Profiles Of Low Smoke Halogen-Free Cable Materials Industry
The report on the Global Heavy Rare Earth Metals/Elements (HREM/HREE) Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Heavy rare earth metals/elements (HREM/HREE) are all lanthanides expect yttrium (Y) which has similar properties of lanthanides. These metals are naturally originating metals/elements, all solid in state. These are high-density metals/elements. Yttrium, europium, terbium, and dysprosium are the most economically critical HREM/HREE.
Heavy rare earth metals/elements are used in area such as high powered electric motors, energy reduction in lighter vehicles, energy efficiency in light bulbs, colour screen in LCDs and PDPs, medical services, optical fibers, optical amplifiers, rare earth magnets, lasers & infrared lasers, computer memories, ceramics, portable x-ray machines, and many others. Catalysts, permanent magnet, and polishing are the major applications of heavy rare earth metals/elements.
Leading regions having major deposits for heavy rare earth metals/elements are Asia Pacific, North America, and Latin America.
China is the major hub for these HREM/HREE followed by USA and others:
many others are the companies involved in the extraction and manufacturing of heavy rare earth metals/elements.
SEGMENTATIONS IN REPORT:
Heavy Rare Earth Metals/Elements By Element/Metals:
The Global Heavy Rare Earth Metals/Elements (HREM/HREE) Market has been exhibited in detail in the following chapters -
Chapter 1 Heavy Rare Earth Metals/Elements (HREM/HREE) Market Preface
Chapter 2 Executive Summary
Chapter 3 Heavy Rare Earth Metals/Elements (HREM/HREE) Industry Analysis
Chapter 4 Heavy Rare Earth Metals/Elements (HREM/HREE) Market Value Chain Analysis
Chapter 5 Heavy Rare Earth Metals/Elements (HREM/HREE) Market Analysis By Element/Metals
Chapter 6 Heavy Rare Earth Metals/Elements (HREM/HREE) Market Analysis By Applications
Chapter 7 Heavy Rare Earth Metals/Elements (HREM/HREE) Market Analysis By Geography
Chapter 8 Competitive Landscape Of Heavy Rare Earth Metals/Elements (HREM/HREE) Companies
Chapter 9 Company Profiles Of Heavy Rare Earth Metals/Elements (HREM/HREE) Industry
The report on the Global Fuel Cell Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Drivers
The Global Fuel Cell Market has been exhibited in detail in the following some chapters -
Chapter 1 Fuel Cell Market Preface
Chapter 2 Executive Summary
Chapter 3 Fuel Cell Industry Analysis
Chapter 4 Fuel Cell Market Value Chain Analysis
Chapter 5 Fuel Cell Market Analysis By Product
Chapter 6 Fuel Cell Market Analysis By Applications
Chapter 7 Fuel Cell Market Analysis By Geography
Chapter 8 Competitive Landscape Of Fuel Cell Companies
Chapter 9 Company Profiles Of Fuel Cell Industry
METHODOLOGY:
A combination of primary and secondary research has been used to determine the market estimates and forecasts. Sources used for secondary research include (but not limited to) Paid Data Sources, Company Websites, Technical Journals, Annual Reports, SEC Filings and various other industry publications. Specific details on methodology used for this report can be provided on demand.
The report on the Global Smart Fabrics Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Smart fabrics are materials, which enable digital and electronics components to be embedded in the fabrics. Smart fabrics are different from wearable devices as it emphasizes on seamless integration with electronic elements. This material can be classified into two main categories as classical electronic devices and electronics integrated directly into the textile substrates. Remarkable innovations include photovoltaic fabrics and illuminated fashion as solar-powered tents, canopy covers for parking lots, charging stations, awnings for solar shadings, sailboat sails, truck tarp, boat covers, LEDs embedded fabrics, smart bandages and others.
This report is segmented on the basis of applications, technologies and geography. Fashion & entertainment and sports & fitness sectors are the leading application market for smart fabrics industries. In addition, medical and military & protection are growing subsequently with the growing smart fabrics market demands. Nanofibers, conductive pressure-sensing fabrics and hybrid fabrics are the technologies used for the manufacturing and processing of smart fabrics
Miniaturization of electronics, developments in material science and fiber technologies are driving the growth of smart fabrics at high pace over the forecast period. Smart fabrics improve the performance and functionality of integrated textile sensors, switches, interconnects etc. Therefore, smart fabrics are expected to integrate and encapsulate capabilities like sensing, computing, and communication in the next few years.
Leading players in this industry are:
The Global Smart Fabrics Market has been exhibited in detail in the following chapters -
Chapter 1 Smart Fabrics Market Preface
Chapter 2 Executive Summary
Chapter 3 Smart Fabrics Industry Analysis
Chapter 4 Smart Fabrics Market Value Chain Analysis
Chapter 5 Smart Fabrics Market Analysis By Application In
Chapter 6 Smart Fabrics Market Analysis By Technology
Chapter 7 Smart Fabrics Market Analysis By Geography
Chapter 8 Competitive Landscape Of Smart Fabrics Companies
Chapter 9 Company Profiles Of Smart Fabrics Industry
The report on the Global Ceramics Biomaterials Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of a comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Ceramics biomaterials interact with biological systems and are biocompatible. Bioceramics and bioglasses are ceramic biomaterials. Biocompatibility of ceramics biomaterials, range from ceramic oxides to resorbable materials. This biomaterial either is closely related to body material, or is extremely durable metal oxide. Ceramics biomaterials have unique properties like high resistance to corrosion and compression, low electrical and thermal conductivities, light weight, etc.
The ceramics biomaterials occupied market share of 25% approx. of overall global biomaterials market in previous year. Ceramic biomaterial products are aluminium oxide, zirconia, calcium phosphate, calcium sulfate, carbon, and glass. This biomaterial is applied in dental parts, coatings, bone fillings, endoscopy, ontological implants, medical tools & equipment, drug delivery cardiovascular applications and others.
North America is the major market for ceramic biomaterial industry. This growth is accelerated by growth of U.S. market. North America is followed by Europe and Asia Pacific region. Owing to huge population base and medical advancements, Asia Pacific is estimated to grow rapidly over the forecasted period. Rise in investments and funding from major players and government institutions, technological advancements, increase in applications of ceramic biomaterials, etc are driving the global ceramic biomaterials market growth.
Major companies in ceramics biomaterials market are:
Leading raw material supplier companies in this market are:
SEGMENTATIONS IN REPORT
The report on the Global Optical Fibers Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
An optical fiber drawn from glass or plastic is a flexible and transparent fiber. It is faintly thicker than a human hair in diameter. It is used to transmit light between the two ends of the fiber, which transmit higher bandwidths over long distances than cable wires. These fibers use fiber optic technology for the transmission of information. These fibers carry more information than conventional copper wire carries. Optical fibers comprise three major components namely core, cladding and buffer coating.
There are different types of fibers such as multi-mode step-index fibers, multi-mode graded-index fibers, and single-mode fibers. Single-mode fibers is the highest performing fiber amongst the other two. Communication and sensors are the major applications of optical fibers in the global market. Optical fibers are used in areas like telecom & broadband, oil & gas, utilities, private data networks, cable television, biomedical and many others. Modern telemedicine devices are the emerging application use of optical fibers system. It is used to transmit digital diagnostic images. Space, military, automotive, and the industrial sector are the various sectors where optical fibers are used widely.
Investments in information technology and telecommunication sectors and industrial and economical development of countries like U.S., China, India, Brazil, and few European countries are driving the growth of the global optical fibers market.
Leading companies in the optical fibers industry are:
SEGMENTATION IN REPORT:
The report on the Global Electronic Materials Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Electronic materials are those materials that are need to operate or manipulate computers, cell phone, iPOD, palm top/laptop computers, portable test & measuring equipments and other communications & competing gadgets, overhead projectors, video tapes or films and audio-recordings, etc. This was possible due to miniaturization of electronic components and advancement in assembly technologies etc. Innovations in new materials and associated process technologies are driving new technologies used for miniaturization of electronic hardware. Photonics is an emerging technology of optics with electronics, which is important for radiant energy whose quantum unit is the photon.
Silicon wafers are the major types of electronic materials used by the industry followed by printed circuit boards (PCB’s) laminates. Silicon wafers are widely used in the manufacturing of semiconductors as their base material. PCB laminates are widely used for manufacturing of printed circuit boards (PCB’s). Low-K dielectrics are the emerging applications that are expected to grow at a rapid pace over the forecast period. Low-K dielectrics uses are widely spreading in manufacturing semiconductors. Electronic materials are segmented as inorganic and organic electronic materials. Organic electronic materials are the emerging trends amongst companies.
Electronic materials industry is dominated by Asia Pacific region followed by Europe and North America. Asia Pacific Latin America and MEA are expected to grow rapidly over the forecast period.
Leading companies in global electronic materials market are:
SEGMENTATION IN REPORT:
Electronic Materials By Types:
Electronic Materials By Applications:
Electronic Materials By Composition:
Electronic Materials By Geography:
The Global Electronic Materials Market has been exhibited in detail in the following chapters -
Chapter 1 Electronic Materials Market Preface
Chapter 2 Executive Summary
Chapter 3 Electronic Materials Industry Analysis
Chapter 4 Electronic Materials Market Value Chain Analysis
Chapter 5 Electronic Materials Market Analysis By Types
Chapter 6 Electronic Materials Market Analysis By Applications
Chapter 7 Electronic Materials Market Analysis By Composition
Chapter 8 Electronic Materials Market Analysis By Geography
Chapter 9 Competitive Landscape Of Electronic Materials Companies
Chapter 10 Company Profiles Of Electronic Materials Industry
The report on the Global Polymer Biomaterials Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of a comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Polymer biomaterials are polymers produced by living organisms containing monomeric units that form larger structures by bonding covalently. Polymer biomaterials market is on the edge to experience a soaring growth owing to increasing demand of polymers in a variety of applications especially, medical. Technological advancements, increased investments, funds & grants by government bodies in various countries are motivating the polymer biomaterials industry to grow accordingly.
Polymethylmethacrylate (PMMA) dominated the global polymer biomaterial market, being used in applications such as orthopedics, dental, ophthalmology, etc. Cardiovascular, ophthalmology, dental, plastic surgery, wound healing, tissue engineering, orthopedics, neurological disorders/central nervous system and others are the applications covered in this report.
North America is the largest market for polymer biomaterials and it is expected to grow rapidly. Augmenting healthcare expenses and increased reimbursement rates are driving North America to grow potentially. Asia Pacific is expected to grow at a high CAGR owing to growth in awareness of cardiovascular, orthopedic, and dental diseases and aging population. Innovations and technological advancements will accelerate the demand of polymer biomaterials over the forecast period.
Major companies in the global polymers biomaterial market comprise of:
SEGMENTATION IN REPORTS:
We provide segmentation in reports by types:
We provide segmentation in reports by applications:
We provide segmentation in reports by geography:
The Global Polymer Biomaterials Market has been exhibited in detail in the following chapters -
Chapter 1 Polymer Biomaterials Market Preface
Chapter 2 Executive Summary
Chapter 3 Polymer Biomaterials Industry Analysis
Chapter 4 Polymer Biomaterials Market Value Chain Analysis
Chapter 5 Polymer Biomaterials Market Analysis By Types
Chapter 6 Polymer Biomaterials Market Analysis By Applications
Chapter 7 Polymer Biomaterials Market Analysis By Geography
Chapter 8 Competitive Landscape Of Polymer Biomaterials Companies
Chapter 9 Company Profiles Of Polymer Biomaterials Industry
The report on the Global Specialty Tapes Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue (USD MN) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Specialty tapes are different from industrial tapes, and integrate a wide variety of tapes for specific applications in industries. Specific applications demand for different types of tapes with unique characteristics and hence, these are called specialty tapes. It can be applied in operations such as electrical, packaging, printing and lamination. Large assortments of specialty tapes and its designs distinguish the operation of specialty tapes manufacturing. These application-specific designed tapes have enhanced capabilities from that of adhesive tapes. Abrasion and chemical resistance, adhesion properties, and general features of adhesive tapes are the basic properties of specialty tapes.
The report is segmented based on the types of specialty tapes, its manufacturing materials, by adhesives, by technology, by products, by end-user applications and geography. Anti-slip tapes, die-cut tapes, edge reinforcing tapes, fire tapes, flashing tapes, glow tapes, hazard/barricade tapes, ID tapes, lithographic tapes, photographic tapes, riveter's tapes, soundproof tapes, surveyor's tapes (flagging), ventilation tapes, and vibration dampening tapes are different types of specialty tapes used by various industries.
Acrylic / acrylate, cloth - woven fabric, cloth - felt / non-woven, glass / fiberglass, filament, paper, foam, polyethylene (PE), polyethylene terephthalate (PET), polyamide (PA), polypropylene (PP) and others are the various materials used for the manufacturing of specialty tapes depending on their types. like packaging, automotive, electrical, electronics, building and construction, medical, paper and printing, health and hygiene, and many others. Specialty tapes may not be useful apart from their intended function but are essential and growing in their application areas. Asia Pacific is the largest and fastest growing market followed by Europe and North America.
Specialty tapes used in industries are: