Medical Ceramics Market Forecast to 2028: Key Players, Growth, Trends and Opportunities The universal Medical Ceramics market survey report offers important statistics on the market status of producers and offers useful advice and direction for businesses and individuals interested in the industry. Research and analysis about the key developments in the market, major competitors and detailed competitor analysis covered in this industry report helps businesses imagine the bigger picture of the market place and products which ultimately assists in defining superior business strategies. The report aids in assessing production processes, major issues, and solutions to mitigate the development risk. Medical Ceramics market report brings about the list of top competitors and presents the insights on strategic industry analysis of the key factors influencing the market. The medical ceramics market is expected to gain market growth in the forecast period of 2021 to 2028. Data Bridge Market Research analyses that the market is growing with the CAGR of 9.15% in the forecast period of 2021 to 2028. The growing awareness about oral hygiene and aesthetics will help in escalating the growth of the medical ceramics market. Browse Full Report Along With Facts and Figures @ https://www.databridgemarketresearch.com/reports/global-medical-ceramics-market Market Overview: Medical ceramics are classified into bio-inert, bio-active, bio-resorbable, and piezo-ceramics. Bio-inert ceramics form bulk of the medical ceramics market and include aluminum oxide, zirconia, and carbon. Key bio-active ceramics, such as hydroxyapatite (HAP), glass and bioglass, and zirconia alumina composite, are utilized as formative materials as well as coatings for implants, devices, and disposables. Piezo-ceramics have gained popularity for the utilization within the electronic implants because of their tolerance for extreme temperatures. Medical Ceramics Market Scope and Market Size The medical ceramics market is segmented on the basis of material and application. The growth amongst these segments will help you analyse meagre growth segments in the industries, and provide the users with valuable market overview and market insights to help them in making strategic decisions for identification of core market applications. On the basis of material, the medical ceramics market is segmented into bioinert ceramics, bioactive ceramics, bioresorbable ceramics, and piezoceramics. Bioinert ceramics is further sub segmented into zirconia aluminium oxide, and other bioinert ceramics. Bioactive ceramics is further sub segmented into hydroxyapatite and glass ceramics. On the basis of application, the medical ceramics market is segmented into dental applications, orthopedic applications, cardiovascular implants, diagnostic Instruments, surgical instruments, plastic surgery, and other applications. Dental applications is further sub segmented into dental implants, dental crowns and bridges, braces, inlays and onlays and dental bone grafts and substitutes. Orthopedic applications is further sub segmented into joint replacement, fracture fixation and synthetic bone grafts. Joint replacement is further sub segmented into knee replacement, hip replacement, shoulder replacement and others. Plastic surgery is further sub segmented into craniomaxillofacial implants, orbital or ocular implants and dermal fillers. The major players covered in the medical ceramics market report are Advanced Monolythic Ceramics, Advanced Ceramics Manufacturing, DePuy Synthes, Morgan Advanced Materials, Nobel Biocare Services AG, H.C. Starck GmbH, Kyocera Corporation, Stryker Corporation, Institut Straumann AG, Zimmer Biomet, CeramTec Group, CoorsTek Inc, Amedica, APC International, BCE Special Ceramics, CeraRoot, Bonesupport, Intra-Lock International, Innovnano, Media Data Systems Pte Ltd, Globus Medical Inc, Glidewell Laboratories, Friatec AG, Eurocoating spa, Dentium, Deltex Medical, Curasan Inc., 3M. Bonesupport, among other domestic and global players. Market share data is available for global, North America, Europe, Asia-Pacific (APAC), Middle East and Africa (MEA) and South America separately. DBMR analysts understand competitive strengths and provide competitive analysis for each competitor separately. 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Magnesium Oxide Market Growth Projections: 2024 and Beyond Introduction Magnesium oxide, commonly known as magnesia, is a white hygroscopic solid mineral that occurs naturally as periclase and is a source of magnesium. It has a chemical formula of MgO and has significant commercial uses due to its unique physical and chemical properties. Chemical Properties Magnesia is an ionic compound consisting of magnesium cations (Mg2+) and oxide anions (O2-). It has a cubic crystal structure and each magnesium ion is surrounded by six oxide ions and vice versa. This results in a very stable crystalline structure that imparts useful properties to magnesia. It is thermally stable up to about 2,800°C as it requires considerable energy for the magnesium and oxygen to separate into their elemental forms. Due to ionic bonding, it is an electrical insulator with high melting point of 2,852°C. Magnesium oxide is also highly refractory due to its ionic lattice structure and thermal stability. Physical Properties Magnesium oxide is a white crystalline solid that exists in nature as periclase. Its theoretical density is 3.58 g/cm3 and it has a Mohs hardness of 5.5-6 on the hardness scale. It has a relatively high bulk density of around 2.4-3.0 g/cm3 which depends upon factors like grain size, impurities and production method. Due to its ionic character, it is highly stable and is hydroscopic in nature. Exposure to water results in hydration to magnesium hydroxide. Its significant solubility in acids allows it to be used as an antacid. Magnesia also has a high refractive index in the range of 1.728 - 1.738 and is optically isotropic. Commercial Production Naturally occurring magnesia is obtained by mining as periclase crystals mainly from serpentine ore deposits. Globally important areas include Cyprus, Kazakhstan and Serbia. However, magnesite (MgCO3) deposits are a more important commercial source for magnesium compounds. The two main industrial processes for its production are calcination of naturally occurring magnesium hydroxide/carbonate minerals and thermal decomposition of magnesium hydroxide precipitates. Sea water is another feedstock that is concentrated for magnesium extraction. The ore is calcined at high temperatures ranging from 1,000-2,000°C depending on composition and purity requirements. Calcination decomposes the mineral into magnesium oxide and releases carbon dioxide or water. The calcined product is then crushed and screened to obtain commercially useful magnesia powder. Major Applications Refractories: Due to high melting point and thermal conductivity, MgO is used as a refractory lining material in high temperature furnaces, kilns and incinerators operating above 1,000°C. Dead burned magnesite and caustic calcined types are suitable in basic and neutral environments respectively. Agriculture: Finely ground magnesium oxide, also called magnesia alba, is spread as a soil conditioner to neutralize soil acidity and supply magnesium to plants. It is particularly beneficial for crops like fruits, vegetables, sugarcane etc. Pharmaceuticals: Magnesium Oxide finds use as a dietary supplement, antacid and laxative due to its ability to neutralize gastric acid. It has low toxicity and does not cause systemic effects in moderate doses. Construction: Cement, plaster and paint industries use magnesia as a flame retardant filler and additive. Its high refractoriness allows production of fire resistant products. Ground calcium carbonate is a suitable mineral filler. Other Applications: As an electrical insulator, magnesia is used in the manufacture of telecommunication cables, capacitors and motor components. In metallurgy, it is employed as a deoxidizing agent, inoculant for iron and desulphurizing agent. It also finds niche applications in rubber, plastics and textile industries. Conclusion Magnesium Oxide is a commercially important mineral that exhibits desirable properties arising from its stable crystalline ionic structure. Its applications are widespread in refractories, agriculture, pharmaceuticals and construction industries due to high melting point, acid neutralizing ability and flame retardancy. Further research is being conducted to develop advanced ceramics utilizing the unique characteristics of Magnesia.