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Ceramic and Ceramic Products, Industrial Ceramic Products, Pipes, Floor and Roof Tiles, Tableware, Wall Tiles, Sanitary Ware, Porcelain, Stoneware, Pottery, Ceramic Wall & Floor Tiles, Vitrified Tiles, Decorative Tiles Projects

Ceramic is an inorganic, non-metallic solid which may have a crystalline or partly crystalline structure, or may be amorphous. Ceramic products are manufactured both in the large and small-scale sector with wide variation in type, size, quality and standard. India ranks 5th in the world in terms of production of ceramic tiles.

The ceramics industry in India came into existence about a century ago and has matured over time to form a industrial base. From traditional pottery making, the industry has evolved to find its place

in the market for sophisticated insulators, electronic and electrical items. Over the years, the industry has been modernizing through new innovations in product profile, quality and design to emerge as a modern, world-class industry, ready to take on global competition.

Ceramic products are divided into four sectors which includes Structural, including bricks, pipes, floor and roof tiles; Refractories, such as kiln linings, gas fire radiants, steel and glass making crucibles ; Whitewares, including tableware, wall tiles, pottery products, and sanitary ware ; Technical ceramics which classified into three distinct material categories of oxides, non-oxides and composite.

A large and growing middle class population of more than 300 million people, a changing life style, better cost of living etc is growth drivers for this sector.With the growth in the housing sector the demand of ceramic is expected to increase. Indian tiles are competitive in the international market. These are exported to East and West Asian countries. The ceramics tiles industry in India emerged in the late 1950s with H & R Johnson setting up its plant for the manufacture of wall tiles at Thane near Mumbai. Spartek Ceramics joined in 1985. The booming demand for floor tiles prompted the entry of other players like Regency Ceramics, Kajaria Ceramics, Murudeshwar Ceramics, Bell Ceramics.

By basic product variation, the tiles market has three component segments: mosaic, ceramic, and natural stones. Mosaic tiles claim a 50 to 60% share. The ceramic tiles and natural stones share the rest almost equally. Natural stones also have three segments: granites, marbles and other stones, including Kota stone.

The ceramic tiles are available in at least three variations. They are floor tiles, wall tiles and vitrified tiles. These tiles are differentiated also by technology that is double firing  (the older system) - roller/roller tunnel/tunnel and tunne1/roller; single firing  (newer technology); and double face firing.  Single firing is used for floor tiles while double firing continues to be used for wall tiles. Roller technology is more suitable for larger tiles and tunnel technology for smaller ones. The vitrified tiles are abrasion and acid resistant and do not absorb any moisture. They are suitable for places subject to heavy wear and tear like industrial and chemical plants, hotel lobbies, banks, special pavements. 

In India, the per capita consumption is as low as 0.05 sqm compared to 0.6 and 5 sqm in China and Europe, respectively. Rising disposable incomes of the growing middle class and 40 mn units of housing shortage, however, hold out a reassuring  potential for the industry. Over the last two de-cades, the technical ceramics segment has recorded an impressive growth propelled by the demand for high-alumina ceramics, cuttings tools and structural ceramics from the industry. Overall, the Indian ceramics industry has emerged as a major manufacturer and supplier in the global market.

The industry is capital-intensive although there is a sizable presence of the informal sector  operating  on smaller capital inputs. With new technology and large economic size, capital costs are high.  So are working capital requirements because of the need to store a wide variety of products and long credits. A major change which took over the ceramic tiles industry was the introduction of wall tiles for bathrooms and kitchens and for floors  in offices and for decorative hangings. The Indian industry developed an export market although at the lower-end. In volume, it constituted  only about half-a-percent of the global market.  The upper-end market is arrogated by Italy and Spain.

The tiles industry in India  was  facing very competitive conditions. There is dumping from China. Chinese landed price is below total costs of Indian producers.  On the domestic front, organised sector has to compete with the unorganised sector which has the advantage of lower billings . The growth and demand for ceramic products in this sector has been further strengthened by the boom in the Indian real estate sector, which is registering 30 per cent growth per annum, for the last few years. The growth in the hospitality industry and the advent of new malls, commercial complexes and multiplexes also lend support to the growth prospects of this industry.

The wall tiles segment is dominated by H&R Johnson, SPL and Kajaria. In the floor tiles, Murudeshwar, Spartek, Kajaria, Regency and Bell Ceramics dominate. The top five, H&R Johnson, SPL, Kajaria, Spartek and Sun Earth account for more than 70% of the turnover of the organised sector.

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Porcelain Insulator Manufacturing Industry

Porcelain Insulator Manufacturing Industry. Production of Ceramic Electrical Insulator Electric Insulator Market worth $13.34 billion by 2023 An insulator is a material that does not conduct electrical current. Insulating materials include paper, plastic, rubber, glass and air. Vacuum is also an insulator, but is not actually a material. Most electrical conductors are covered by insulation. Magnet wire is coated with an extremely thin layer of insulation so that more turns or larger wire may be used in the winding of transformers etc. Insulators are generally rated at hundreds of volts, but some that are used in power distribution are rated as high as hundreds of thousands of volts. Insulators support and/or keep electrical conductors from making unintended contact with each other. Insulator made by hard paste of Porcelain is also known as true porcelain insulator. Out of all the wide varieties of ceramics & true porcelain is the hardest, the most durable – which is one of the reasons porcelain insulator are largely replaced glass insulators. Advantages of Porcelain Insulators: • Environmental friendly. At its disposal, the porcelain insulator is not dangerous waste • In comparison to the polymer, electrical strength of porcelain is higher: 25+ kV/mm v. 20 kV/mm at the polymer • The porcelain insulator has demonstrably higher resistance to degradation of the surface, does not degrade or carbonate during charges; the conductive path is created very slowly in comparison of the surface of a composite-material insulator • The ceramic material is resistant to rodents, termites, birds and other animals capable of compromising the integrity of polymers • The porcelain insulator has a wide scope of application: Contactors, disconnections, equipment transformers, condensers, and grommets also with extreme surface, atypical insulators (filters) • The porcelain insulator is suitable for extreme hot/cold changes in the environment. It is suitable for environments with dust, salt and high moisture, or for combination of all of the above • The ceramic material offers very high mechanical strength under pressure and hardness • The design is modified to suit the environment Market Outlook The demand for porcelain & ceramic insulators in India is experiencing rising demand due to various driving factors which, in turn, have been instrumental in providing immense opportunities to manufacturers to grow and operate in the market lucratively. Growing Indian economy is having a strong impact on the Indian porcelain & ceramic insulators market. Apart from the large and established players, a number of local players operate in the market. Moreover, demand for ceramic insulators is high in India owing to their easy availability and cost effectiveness. Indian Electric Insulator Market India Electric Insulators Market size was valued over USD 300 million in 2017 and is set to expand over 7% by 2024. Increasing investments toward the modernization of aging grid infrastructure along with rapid urbanization will drive the India electric insulators market. Rising investments for the expansion of electric networks along with investment targets supporting the complete value chain of power transmission, generation, and distribution will further propel the industry dynamics. India transformers electric insulators market will witness growth on account of escalating electric infrastructure spending coupled the ongoing industrial expansions being carried out in the country. Increasing investments made by government authorities for the reduction of transmission losses will further complement the industry growth. Global Electric Insulator Market The electric insulator market is expected to expand at a moderate rate during the forecast period, 2018 to 2023. The rapid growth and increasing investments in the transmission and distribution sector and for the up-gradation of aging grid infrastructure, to establish a sustainable electricity network, is expected to boost the electric insulator market. Increasing demand for smart grids, along with stringent policies for energy efficiency, is expected to have a good impact on the electric insulator market. Technological developments in the emerging economies like China, Japan, and India, coupled with the government initiatives for energy efficiency to obtain a reliable and efficient grid infrastructure, along with rapid urbanization, is expected to further drive the electric insulator market. The ceramic insulator market is expected to witness a good growth during the forecast period, owing to its increasing applications in various industrial sectors and rural areas. Rapid development in technology is leading to the adoption of ceramic insulators in several transmission lines, because of their light weight and good mechanical strength to weight ratio. Increasing focus toward railway projects in countries, such as India, is expected to boost the demand for ceramic insulators market. Refurbishment of old transmission and distribution lines, along with new electrification projects are some of the factors driving the growth of the ceramic insulators market, over the forecast period. Increasing investments in T&D networks, refurbishment of the existing grid networks, and growing adoption of renewable energy sources across the globe are likely to drive the electric insulator market. Increasing investments in smart grid projects and growing demand for HVDC transmission projects can lead to opportunities in the electric insulator market. The low voltage segment led the electric insulator market in 2017 as these types of insulators are mostly used in residential applications and across various industries such as chemical plants, food & beverage, cement, steel manufacturing, and other industries. Increasing industrialization and urbanization is one of the major drivers for the growth of the low voltage segment during the forecast period. Factors such as increasing demand for electricity, rising power generation capacity, and increasing usage of renewable sources to generate electricity are expected to boost the demand for the low voltage segment. The ceramic insulator market is expected to witness potential growth, owing to increasing applications of ceramic insulators in various industrial sectors and rural areas. With rapid development in technology, several transmission lines are expected to adopt ceramic insulator products as they are light weight and have higher mechanical strength-to-weight ratio. Increasing focus towards railway projects in emerging countries, such as India, which have the most rail lines in the world is expected to boost the demand for ceramic insulators in electrical and thermal insulation. Moreover, an increase in the development of smart grids in North America and Europe is expected to drive the demand for ceramic insulators over the forecast period. Renovation and remodeling of old transmission and distribution lines along with new electrification projects are some of the factors driving growth of the ceramic insulators market over the forecast period. Based on the geographic segmentation, the ceramic insulator market is anticipated to remain prevalent in the Asia-Pacific region, which includes countries, such as India and China. This can be attributed to increasing construction activities and electrification provided for rural development. Also, high temperature is a problem in tropical areas where thermal insulation could be the solution for high voltage transformers. Thus, such regions are projected to emerge as lucrative prospects for the ceramic insulator market over the forecast period. Few Indian Major Players are as under: • Sampat Ceramics Private Limited • CJI Porcelain Pvt. Ltd. • Aditya Birla Insulators • Bikaner Porcelain Private Limited • Jaipuria Brothers Trans Electrical Private Limited Tags Porcelain Insulator, Manufacturing Process of Porcelain Insulators, Porcelain Electric Insulators, Production Process for Insulators, Porcelain Insulators Manufacture, Insulator Manufacturing Process Pdf, Manufacturing Process of Electrical Insulators, Porcelain Insulator Manufacturing Process, Electrical Porcelain Insulator, Insulators Manufacture, Production of Porcelain Insulators, Production of Electrical Porcelain, Porcelain Insulator Production, Electrical Porcelain, Advantages of Porcelain Insulators, Manufacturing of Porcelain Insulator, Insulator Manufacturing Process, Electrical Insulators Business, Porcelain Electric Insulator Manufacturing Plant, Porcelain Insulators Manufacturing, Porcelain Insulators Materials and Production, Project Report on Porcelain Insulator Manufacturing Industry, Detailed Project Report on Porcelain Insulator Manufacturing, Project Report on Porcelain Insulator Manufacturing, Pre-Investment Feasibility Study on Insulator Production, Techno-Economic feasibility study on Porcelain Insulator Manufacturing, Feasibility report on Insulator Production, Free Project Profile on Porcelain Insulator Manufacturing, Project profile on Porcelain Insulator Production, Download free project profile on Porcelain Insulator Production, Electrical Porcelain Industry, Insulator Manufacturing Business
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High Alumina Ceramic

Alumina ceramic (Aluminum Oxide or Al2O3) is an excellent electrical insulator and one of the most widely used advanced ceramic materials. Additionally, it is extremely resistant to wear and corrosion. Alumina components are used in a wide range of applications such as electronics, pump components and automotive sensors. Alumina based ceramics are by far the largest range of advanced ceramics made by Morgan Technical Ceramics. Due to the important combination of properties, the behaviour and characteristics of our Alumina products to give you the best possible component. Alumina ceramic is the most mature of the engineering ceramics, offering excellent electrical insulation properties together with high hardness and good wear resistance but relatively low strength and fracture toughness.
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Ceramic Crockery Products (Bone China)

Ceramic crockery has dazzling lustre which enhances its quality and prolongs its life. Moreover, bone china crockery requires least amount of maintenance. The Bone China crockery are being manufactured using the high grade raw materials. These are being available in standards as well as the customized forms on the basic of designs shape sizes and color. These comprises serving dish, plates and bowls and is highly known in the market for its stylish, classy look, premium quality, durability, attractive patterns, vibrant colors and good polishing ability. These are designed according to the latest trends prevailing in the market. Features: • Perfectly finish • Long service life • Light weight • Good quality • Stylish look and attractive • Durable The residential consumers are the major end-users of ceramic tableware products. The demand for ceramic tableware is anticipated to grow owing to the increase in household numbers globally. The increasing home renovation and modular kitchen projects will be one of the major trends in the global ceramic tableware market during 2019-2023. The number of home renovation projects in the Americas has been increasing since 2016. The average spending on dining renovation in the US grew by around 13% in 2016 when compared with the previous year. The trend in dining renovation is anticipated to continue growing during the forecast period and a considerable amount of revenue from dining renovation projects is anticipated to flow into ceramic tableware products.
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Ceramic Heater Plate

Ceramic heater plates provide surface temperatures of up to 980°C (1800°F). The large, 16 mm (5/8") ID grooves permit the use of exceptionally heavy gauge heating wire for low element watt densities and high wattage per square inch of radiating surface. Used specifically to cater to the diversified industrial needs of heat generation, these products have gained wide acceptance in the market. Heater Plate is provided in a wide variety of applications from low to high voltage. This Heater Plate is used for domestic purpose available in different sizes at a good market price. These are cost efficient, energy efficient and environment friendly, which can be used in all kinds of climate. These come in different capacities and require no maintenance throughout life. Features: • Highly efficient • Fine finish
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Ceramic Transfers (For Printing on Ceramics) Rubber Stamping, Stencilling, Screen Printing, Offset Printing and Paper Transfers

Transfer printing, method of decorating pottery by using an inked, engraved copperplate to make a print on paper that, while still wet, is pressed against a glazed pottery surface, leaving behind an impression, or transfer, of the engraving. Sometimes these monochrome transfer prints were subsequently filled in with colour by hand. Rubber stamping, also called stamping, is a craft in which some type of ink made of dye or pigment is applied to an image or pattern that has been carved, molded, laser engraved or vulcanized, onto a sheet of rubber. The rubber is often mounted onto a more stable object such as a wood, brick or an acrylic block. Increasingly the vulcanized rubber image with an adhesive foam backing is attached to a cling vinyl sheet which allows it to be used with an acrylic handle for support. These cling rubber stamps can be stored in a smaller amount of space and typically cost less than the wood mounted versions. They can also be positioned with a greater amount of accuracy due to the stamper's ability to see through the handle being used. Temporary stamps with simple designs can be carved from a potato. The ink-coated rubber stamp is pressed onto any type of medium such that the colored image is transferred to the medium. The medium is generally some type of fabric or paper. Other media used are wood, metal, glass, plastic, and rock. High-volume batik uses liquid wax instead of ink on a metal stamp. Stenciling, in the visual arts, a technique for reproducing designs by passing ink or paint over holes cut in cardboard or metal onto the surface to be decorated. Stencilling produces an image or pattern by applying pigment to a surface over an intermediate object with designed gaps in it which create the pattern or image by only allowing the pigment to reach some parts of the surface. The stencil is both the resulting image or pattern and the intermediate object; the context in which stencil is used makes clear which meaning is intended. In practice, the (object) stencil is usually a thin sheet of material, such as paper, plastic, wood or metal, with letters or a design cut from it, used to produce the letters or design on an underlying surface by applying pigment through the cut-out holes in the material. Screen printing also uses a stencil process, as does mimeography. The masters from which mimeographed pages are printed are often called "stencils". Stencils can be made with one or many colour layers using different techniques, with most stencils designed to be applied as solid colours. Screen printing, also known as serigraphy, is a method of creating an image on paper, fabric or some other object by pressing ink through a screen with areas blocked off by a stencil. The technique is used both for making fine art prints and for commercial applications, such as printing a company's logo on coffee mugs or t-shirts. Offset printing, also called offset lithography, or litho-offset, in commercial printing, widely used printing technique in which the inked image on a printing plate is printed on a rubber cylinder and then transferred (i.e., offset) to paper or other material. The rubber cylinder gives great flexibility, permitting printing on wood, cloth, metal, leather, and rough paper. In offset printing the matter to be printed is neither raised above the surface of the printing plate (as in letterpress) nor sunk below it (as in intaglio, or gravure, printing). Instead, it is flush with the surface of the plate; thus offset is classified as a planographic method of printing. Transfer paper is a thin piece of paper coated with wax and pigment. Often, an ink-jet or other printer is used to print the image on the transfer paper. A heat press can transfer the image onto clothing, canvas, or other surface. Transfer paper is used in creating iron-ons.
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Manufacturing of Propylene Oxide. Investment Opportunities in Chemical Industry.

Manufacturing of Propylene Oxide. Investment Opportunities in Chemical Industry. Propylene oxide is an organic compound with the molecular formula CH3CHCH2O. This colorless volatile liquid with an odor resembling ether, is produced on a large scale industrially. Its major application is its use for the production of polyether polyols for use in making polyurethane plastics. Propylene oxide liquid and vapor are extremely flammable. Vapors may travel long distances and are heavier than air. Vapor may cause flash fire or explosion. Aqueous mixtures with propylene oxide concentrations as low as 0.75% may be flammable. Propylene oxide is used in agriculture as an insecticidal fumigant and sterilant, to control bacteria contamination, moulds contamination, insect infestations, and microbial spoilage of food products as well as to control insects in non-food products. Propylene oxide is also a commercially important industrial chemical finding application as an intermediate for a wide array of products. Propylene Oxide is a synthetic, highly-flammable, volatile, colorless liquid that is soluble in water and miscible with many organic solvents. Propylene oxide is used primarily as a chemical intermediate in the production of polyether’s and propylene glycol. It is also used as a pesticide and a fumigant for the sterilization of packaged foods and plastic medical instruments. Acute inhalation exposure to vapors of this compound can result in respiratory tract irritation, coughing, difficulty in breathing (dyspnea) and buildup of fluid in the lungs (pulmonary edema) that can possibly lead to pneumonia. Inhale high concentrations of the vapors for short time periods may cause headache, motor weakness, The purpose of this bulletin is to disseminate recent information on the potential carcinogenicity of propylene oxide. The chronic effects of this chemical in animals have produced evidence that cancer is associated with exposure to propylene oxide. This bulletin describes of those animal, presents the known human health effects of propylene oxide, and suggests guidelines for minimizing occupational exposures. Propylene oxide at room temperature is a volatile, colorless, highly flammable liquid with a sweet, ether-like odor. The odor threshold for propylene oxide vapor is reported to be 200 parts of propylene oxide per million parts of air (200 ppm) in humans. Uses ? Polyols used for the polyurethane foam (PUF) for the coatings, adhesives and sealants furniture, refrigerator, automotive industries, ? Propylene glycol ethers for the use as solvents in resins, cleaners, waxes paints, inks, and coatings ? Propylene glycols, even for the production of unsaturated polyester resins transportation, automotive, marine industries, and, construction ? Propylene glycols used as solvents in cosmetics, pharmaceuticals, food ? Propylene glycols is also used in aircraft de-icers and engine coolants ? Butanediol and its related products used for resins and solvents. ? Most propylene oxide is used as an intermediate in the production of polyether polyols for polyurethane foams, and in the production of propylene glycol for unsaturated polyester resins. ? Minor quantities are used for sterilizing medical equipment and for fumigating foodstuffs ? The major use of propylene oxide is in the production of polyether’s (the primary component of polyurethane foams) and propylene glycol. ? Propylene oxide is also used in the fumigation of foodstuffs and plastic medical instruments and in the manufacture of propylene glycol and glycol ethers, as herbicides, as solvents, and in the preparation of lubricants, surfactants, and oil demulsifies Technology Propylene oxide is traditionally made by chlorohydrin and epoxidation routes, but newer technologies based on hydrogen peroxide or cumene hydro peroxide have been commercialized. A significant amount of propylene oxide capacity is still based on the older chlorohydrin process. The plants using this route are often integrated with chlor-akali plants which consume a large amount of power in making chlorine and caustic soda. Consequently, extensive effluent treatment is needed to handle the waste stream. Another process that had once gained in popularity was the propylene oxide /styrene monomer (propylene oxide /SM) route. The disadvantage here, though, is the potential coproduction of 2.25 tonnes of styrene for every tonne of propylene oxide, which can present difficulties in balancing the markets for propylene oxide and styrene. This can lead to volatility over time in performing the operations economically. Capital costs can also be relatively high in the propylene oxide /SM route. A number of propylene oxide /SM plants have been built by companies such as Spain's Repsol, Ellba (Shell/BASF) and Netherlands-based LyondellBasell. New propylene oxide technologies without co-products have now been developed and commercialized, including a cumene hydro peroxidation technology. In addition, a number of companies have developed technologies to make propylene oxide from propylene and hydrogen peroxide a process known as HPPO. Market Outlook Global propylene oxide market is expected to show significant growth of increasing polyurethanes’ demand in various segments including packaging, automotive, footwear, furniture, and construction. Rising use of polyurethanes in sealants, thermal insulators, and flooring materials will drive industry growth over the next seven years. Rising infrastructure spending in China, Malaysia, Singapore, Brazil, India, UAE, Saudi Arabia, and Qatar is expected to drive demand over the forecast period. In addition, growing automotive sector in various countries including in China, Mexico, the U.S., and India is expected to increase market. Propylene glycol is widely deployed as a construction chemical for use in paints, grouts, adhesives, waterproofing materials, and coatings, in both infrastructure and the construction industry. A wide-ranging number of propylene glycol applications are anticipated to be an important driver of the propylene oxide market in the days ahead. Another industry that is witnessing a resurgence in recent times is the automotive industry. This should directly benefit the propylene oxide market as the products are utilized in a number of components such as flexible foams, paints, adhesives, and sealants. Thus, it can be said that the propylene oxide market is intrinsically linked to the automotive industry. Propylene is used to produce flexible foams for bedding, furniture, carpet underlay, bedding and seat cushioning in automotive while polyurethanes are used to produce rigid foams for thermal insulation in packaging & commercial refrigeration and construction industry. Toxic nature of propylene oxide, development of alternatives of oxide, negative effects of the product in the environment, and the high price of raw materials will hinder the growth of the market. Propylene oxide finds its application in tub-shower, gasoline tanks, and boat hulls. Rise in the consumption of products that include polyalkylene glycols, propylene glycols, and propylene glycol ethers will propel market expansion. High consumption in lubricants, defoamers, greases, oil-field chemicals, latex paints, wetting agents, and water scavengers will increase the revenue generated by the market. Europe was the largest in terms of Propylene Oxide consumption. However, it is anticipated that it would lose it market share due to the economic crisis and increasing environmental regulations and safety. The propylene oxide market is expected to grow at a CAGR of around 5.9% during of 2019-2024. The increasing infrastructure spending in emerging economies, like China, India, and Brazil is likely to provide opportunities. The increasing use of propylene derivative, polyurethane, in the construction industry, has widely helped the propylene oxide market to have a strong hold in the construction and infrastructure segments. Propylene oxide (CH3CHCH2O) is a colorless volatile liquid. It is an organic compound used in the production of polyether polyols, which in turn is used in the production of polyurethane plastics. Propylene oxide can be produced by hydrochorination or oxidation. Propylene oxide has various applications in automotive and construction industries. Flexible foams, paints, sealants, coolants, car seats brakes, and hydraulic fuels are components which propylene oxide in the automotive industry Also, it is used as a chemical for paints, waterproofing, coatings, adhesives, grouts, and materials. However, availability of substitutes for propylene oxide are restraining growth of the market. In the Middle East & Africa region, growing hotel construction, and public infrastructure have been driving the construction industry in the region. Besides, the residential construction is also strong in North America, due to high housing demand due to growing population demand for homes, and trend of nuclear families, which is further projected to drive the demand for propylene oxide market. Whereas, Europe has been witnessing healthy recovery of construction activities, which is expected to further increase the demand for propylene oxide in the years to come. Hence, all such trends in the global construction industry are expected to positively influence the demand for propylene oxide. Propylene oxide (PO) is a key intermediate in the chemical industry. For instance, PO is mainly used to produce polyether polyols (65%), as well as propene glycol (30%) and propene glycol ethers (4%) (The second and third largest applications, respectively) which are mainly applied to manufacture commercial products such as adhesives, solvents, and foams. The annual worldwide production of PO amounted to 8.06 million tons and will likely go beyond 9.56 million tons and this market is annually growing. Northeast Asia is forecast to remain the major source of new propylene oxide requirements. The Indian Subcontinent will benefit from an even faster demand growth rate, albeit from a much smaller base. Northeast Asia will continue to add capacity at a sustained rate: North America, Southeast Asia, the Indian Subcontinent and Western Europe are also expected to increase their capacity base, but to a much lesser extent. Overall, capacity additions are projected to be greater than consumption growth. Despite some environmental concerns in some countries (the United States, Canada, Japan), MTBE has continued to be an attractive gasoline blend stock as the global demand for octane has increased because of the growth of smaller engines and the low complexity of Chinese refineries. Nevertheless, a recent change in Chinese gasoline policy is expected to alter the MTBE market in the medium term; the country is now aiming to develop an E-10 gasoline, comprising 10% ethanol—thus requiring less MTBE. The number of new PO/TBA plants is therefore expected to gradually slow down over the next five years. There are three main routes to commercial production of propylene oxide—chlorohydrin, peroxidation (PO/SM, PO/TBA), and hydro peroxidation (HPPO and HPCU) processes. While the recent hydro peroxidation processes have gained significant momentum over the past decade, the traditional routes (chlorohydrin, peroxidation) still dominate globally. The majority of new PO production units are now designed to minimize or even avoid coproduct generation, as the marketing of coproducts has presented its own set of challenges for producers. More specifically, styrene markets had been in oversupply for quite some time, leading to limited investment into new PO/SM facilities; PO/SM investments are nevertheless now resuming as the styrene market has recovered following a decade of industry restructuring and asset rationalization. Propylene oxide belongs to the epoxide family of products, and is used principally in the manufacture of polyether polyols, propylene glycols, glycol ethers, and polyalkylene glycols. Overall, propylene oxide consumption is broadly tied to the general economy and has been increasingly linked to emerging countries (China, in particular), where improvements in living standards are driving an increasing use of a wide range of polymers and chemicals. Propylene oxide capacity has increased at an average rate of 3% per year, driven mainly by new developments in Asia. Meanwhile, Propylene oxide consumption has grown at a stronger pace (4.2% per year on average) leading to a tightening of markets and rising average operating rates across the propylene oxide industry. The industry-wide utilization rate was estimated at 93%, up from the 88% recorded five years ago. Key Players ? BASF, ? The Dow Chemical, ? Huntsman International, ? Royal Dutch Shell, ? INEOS, Balchem, ? SKC, ? Sumitomo Chemical, ? Repsol, ? LyondellBasell Industries, ? SABIC, ? Tokuyama Tags #propyleneoxide #Propylene #PropyleneOxide #toxic #polymerindustry #plasticindustry #entrepreneurship #PolymerIndustry #DetailedProjectReport #BusinessPlan #marketresearchreport #ProjectReportForBankLoan #PreFeasibilityandFeasibilityStudy #feasibilityreport #Business #businessfeasibilityreport #businessconsulting #MarketReseach #chemicalindustry #chemicalbusiness #ChemicalBusiness #industrial #BusinessHub #supportsmallbusiness #opportunities #Chemicals #FutureofChemcialIndustry #processindustry #indianchemicalindustry #chemicalindustry #chemicalbusiness #chemicalmarket #chemicalproducts #Fertilisers #electrochemistry #marketresearch Technology Profile: Propylene Oxide Production, Manufacturers of propylene oxide, Project Report on Propylene Oxide – Manufacturing, Technology Profile: Propylene Oxide Production, Propylene Oxide Manufacture Technology, Environmentally friendly way to produce propylene oxide, Feasibility Report, Project Report, Technology Book on Propylene Oxide, Business Ideas, Startup Project, Project Consultancy on Propylene Oxide, Niir Project Consultancy Services, Project Profile, Small Scale Industry, manufacturing business, technology on Propylene Oxide, Consultancy Services, Consultant for Propylene Oxide, Feasibility Report on Propylene Oxide, Production of Propylene Oxide, project cost, Investment Opportunities of Propylene Oxide, Industry Trends, Project Reports and Technology Books on Propylene Oxide, Industry, Market Detailed Analysis Report, Profitable business on Propylene Oxide, Process technology books, Business consultancy, Business consultant, Project identification and selection, Startup Project for Propylene Oxide, Startup ideas, Project for, startups, Startup project plan, Business start-up, Business Plan for a Startup Business, Great Opportunity for Startup, Small Start-up Business Project, Start-up Business Plan for Propylene Oxide, Setting up and opening your Propylene Oxide Business, Feasibility Reports List, Detailed Project Reports List, Project Reports, Business Ideas, Technology Book, Manufacturing , Business, Market Research Report, Techno-Economic Feasibility Study, Feasibility Report, Project Report & Profile, Project Consultancy, Project Opportunities, Technology Books, Consultancy for Propylene Oxide,
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Toughened Glass

The toughened glass is described as a type of glass which has been mechanically strengthens by a thermal process in which a layer of compression has been introduced at the surface. Toughened glass is a type of soda-lime-silica glass with a sheet thickness 4-12 mm. Toughened glass is a type of safety glass processed by controlled thermal or chemical treatments to increase its strength compared with normal glass. Toughened glass is a type of soda-lime-silica glass with a sheet thickness 4-12 mm. The sheet has a central tensile stress of 500-1200 kg/cm2 and a ratio of surface compressive stress to central tensile stress of 2:1 to 4:1. The article is toughened by heat exchange with an oil (or chilled air) in which these are maintained from 0.01–0.07% liquid. The boiling point liquid may be an organic liquid such as carbon tetrachloride, methanol, benzene, toluene, trimethyl alcohol, ethyl alcohol or Xylene etc. Toughened glass products are now widely used in building construction and other infrastructure projects. Toughened glass is specifically designed for use in areas where there is a high risk of contact and breakage. Toughened glass is used when strength, thermal resistance and safety are important considerations. The most commonly encountered toughened glass is that used for side and rear windows in automobiles, used for its characteristic of shattering into small cubes rather than large shards. Toughened Glass Market size was over USD 24.5 billion in 2016 and industry expects consumption above 4.3 billion square meters by 2024. Developments in terms of energy synthesis coupled with superior technologies promoting sustainability and recyclability are likely to influence the growth of the market positively. As a whole any entrepreneur can venture in this project without risk and earn profit. Few Indian major players • Asahi India Glass Ltd. • Atul Glass Inds. Ltd. • Bhagwati Projects Pvt. Ltd. • Floatglass India Ltd. • Friends Glass & Glazing Pvt. Ltd. • Gold Plus Glasses India Ltd. • Gujarat Guardian Ltd.
Plant capacity: 4,000 Sq.Ft./dayPlant & machinery: Rs. 331 Lakh
Working capital: -T.C.I: Cost of Project: Rs. 758 Lakh
Return: 26.00%Break even: 53.00%
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  • One Lac / Lakh / Lakhs is equivalent to one hundred thousand (100,000)
  • One Crore is equivalent to ten million (10,000,000)
  • T.C.I is Total Capital Investment
  • We can modify the project capacity and project cost as per your requirement.
  • We can also prepare project report on any subject as per your requirement.
  • Caution: The project's cost, capacity and return are subject to change without any notice. Future projects may have different values of project cost, capacity or return.

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