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Plastics, Polymers and Resins, Polypropylene (PP), Polystyrene (PS), Acrylonitrile butadiene styrene (ABS), Polyethylene terephthalate (PET), Polyester, PA, Poly(vinyl chloride) (PVC), Polyurethanes (PU), Polycarbonate (PC), Polyethylene (PE)Projects

Plastics have revolutionized our lives, creeping into every nook and corner of our homes and offices. However, India’s per capita consumption of plastics is still 6 kg compared to 25 kg in developed countries. Consumer plastics mainly comprise polymers such as polypropylene, high and low density polyethylene, and vinyl chloride. Broadly plastics can be classified into two types namely Thermosetting and Thermoplastic. The type of plastics includes HDPE, LDPE, PVC, PP, PS, PETE and vinyl plastics, to name a few.

The plastics industry is highly fragmented. There are about 22,000 plastic processing units, of which three-fourth are in the small –scale sector, which also accounts for a quarter of the total polymer consumption. About 30 per cent of the total polymer consumption accounts for recycled plastic. Plastics have a high volume –to-weight ratio, which makes their collection and transport a major cost factor.

The Indian plastics industry has been growing at a phenomenal rate of 15 per cent over the years. Thus its potential is being utilized properly. The boost in the plastics industry is due to the rapid growth of segments like electronics, packaging, healthcare, consumer durables and telecommunication sectors.Annually around six million tonnes of plastic is produced in the country, with the plastic packaging sector growing fastest.

Reliance Industries Ltd., Gas Authority of India and petrochemicals are major producers of polymers in India. RIL, Asia’s largest manufacturer of polypropylene with a combined capacity of over one million tonnes, holds 70 per cent market share.

India will be the third largest plastics consumer after the US and China by 2010 at over 12 million.Plastic goods consumption is expected to double in the next three years.  Experts have predicted that India’s market for finished plastic goods will reach $300 billion by 2012, while exports are expected to reach a level of $200 billion in the same period. India ranks highest in recycling of plastics with 60 per cent of plastic recycled compared with a world average of 20 per cent. Experts have estimated thatthe basic demand for plastic would be boosted over the next years by the housing, automobile and retail sectors.


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Fiberglass Fabric Weaving Unit (For Composites)

Introduction For thermal insulation, an innovative design of fiberglass textile products was developed. The design is the result of extensive research into the construction of plain woven fiberglass textile and the factors that influence it. The selection of glass fibers, the manufacturing mechanism, and the level of insulation control were all highlighted. The new structure of thermal insulation fabrics was achieved using plain weave fabrics, tapes, and meshes methods. The work was expanded to include testing, characterization, and assessment of the various fiberglass textiles obtained in order to explain their performance and confirm the feasibility of the design conceived for the manufacture of these thermal insulation textiles in a variety of industrial applications, including welding, shipyards, refineries, power plants, and chemical plants, among others. Related books:- Plastics And Polymers, Polyester Fibers, Pet & Preform, Medical, Expanded Plastics, Polyurethane, Polyamide, Polyester Fibers, Additives, Colourants And Fillers, Extrusion, Moulding, Mould Designs, Optical Glass, Reinforced, Films, HDPE, Thermoset Uses of Fiberglass Fabric Glass fiber is made by extruding very thin strands of silica-based monofilament into fiberglass material. Glass is an amorphous solid, which means it lacks a crystalline structure in its solid state and instead behaves like a very viscous liquid. Because the thin fibers can easily bend, glass fiber lends itself to woven fabric. Glass fiber fabric has a high tensile strength, dimensional stability, heat and fire resistance, and resistance to a wide range of chemical compounds. Fiberglass fabric can also be used to dissipate heat and has electrical properties that make it suitable for use in electronic components. Related Projects:- TEXTILE BLEACHING, DYEING, SPINNING, WEAVING, PRINTING, FINISHING AND TEXTILE AUXILIARIES PROJECTS Manufacturing Process of Fiberglass Fabric Weaving To form a cloth structure, the weaving machine, or loom, interlaces the warp and filling yarns according to a weave pattern. The warp refers to the yarn system that runs the length of the cloth. On a loom beam, it is delivered to the weaving machine. Ends are a term used to describe warp yarns. Weft or filling refers to the yarns that cross the warp. They are inserted in the cloth by a weft feeder on the new loom generation, allowing for frequent unwinding. Glass product can be woven in almost any weaving pattern. Plain, basket, twill and their derivatives, unidirectional, and leno weaving are the most common patterns used to make meshes. There Are Five Basic Processes That Make Up The Weaving Process: Mechanism 1: The warp is distributed to the loom by the let-off motion. Mechanism 2: The warp yarn is moved up and down according to the weaving pattern by a warp shedding mechanism. Mechanism 3: a filling insertion system places the filling between the openings of the warp yarns (also known as sheds), which is done by the shedding mechanism. Modern picking systems are primarily used to fill glass products: • Air jet • Rapier • Projectiles • Needle (loom for narrow fabrics) Mechanism 4: the filling between the warp yarns is beaten against the cloth in formation by a reed moved by the beat-up motion. Mechanism 5: the filling density is controlled by a fabric take-up, and the fabric is wound onto a tube on the loom or by a separate winding device. Related Videos:- Plastic Products Market Outlook Building and construction, automotive and transportation, wind energy, aerospace and Defence, chemical, and other end-use industries have increased their demand for fiberglass fabric. Because of their comprehensive set of characteristics, such as high tensile strength, dimensional stability, high heat resistance, fire resistance, excellent thermal conductivity, good chemical resistance, and more, fiberglass fabrics are in high demand in a variety of industries. Furthermore, because of its lightweight, electrical, and durable properties, fiberglass fabrics are widely used in electrical and electronics applications, which is expected to boost the fiberglass fabric market during the forecast period. In terms of value, the global fiberglass fabric market is expected to reach USD 13.48 billion by 2022, growing at a CAGR of 7.62 percent between 2017 and 2022. Market Research; - Market Research Report Key Players • Everlast Composites Pvt. Ltd. • Goa Glass Fibre Ltd. • Jushi India Pvt. Ltd. • Magnus Composites Synergies Pvt. Ltd. • U P Twiga Fiberglass Ltd. • SAERTEX GmbH & Co.KG • Saint-Gobain Performance Plastics Corporation • Tah Tong Textile Co., Ltd. • Taiwan Electric Insulator Co., Ltd. • Valutex Reinforcements Inc. #DetailedProjectReport #businessconsultant #BusinessPlan #feasibilityReport #NPCS #entrepreneurindia #startupbusiness #ProjectReport #startup #projectconsultancy #businessopportunity #FiberglassFabric #FiberglassFabricManufacturing #FiberglassFabricProduction #FiberglassFabricMarket #FabricWeaving #Weaving #WeavingIndustry #WeavingFiber #WeavingProduction #FiberManufacturing #FiberProduction #FiberIndustry #FiberMarket #FiberPlant #ManufacturingBusiness #ProductionBusiness
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Return: 1.00%Break even: N/A
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Wood Plastic Composite (WPC)

Wood-plastic composites (WPCs) are a product class that has been developing over the last 40 years resulting in increased applications and expanded market share. More specifically, WPCs are composites containing a wood component in particle form (wood particles/wood flour) and a polymer matrix. They are used in a variety of structural and non-structural applications ranging from component and product prototyping to outdoor decking. WPC can be manufactured in a variety of colors, shapes and sizes, and with different surface textures. Depending on the processing method, WPCs can be formed into almost any shape and thus are used for a wide variety of applications, including windows, door frames, interior panels in cars, railings, fences, landscaping timbers, cladding and siding, park benches, molding and furniture. Wood is often used in plastics as a means to reduce price compared to a solid plastic product. Wood used in WPCs often comes from side streams such as sawdust produced while manufacturing lumber or recovered wood products, and is much cheaper to produce than the plastic that it replaces in many products. This often helps to reduce prices for consumers. Wood plastic composite is good to solve the problem arises in the environment. There is scope of use agricultural waste product. In this case we will use waste polypropylene or polyethylene, or it may be used virgin polypropylene or polyethylene, waste wood floor. Rice husk, plastic additives like (DOP, DBP etc.). There are different percentages of raw material used for the production of pallets decking, outdoor furniture like park bench, windows and door shutter frames etc. Indian particle board and plywood industry dates back to the First World War. It has come a long way having grown nearly six-fold since its inception. The large producers account for 15% of the total production, producing some 38 mn sqm of plywood and blackboards. The Indian market for particle board and plywood is estimated in value terms, at over Rs. 37 bn. Of the total market, particleboard including medium density fiberboard (MDF board) accounts for nearly a quarter of the market. Nearly 85% of the particleboard is supplied by the organized sector. The wood-plastic composites market is projected to reach USD 5.84 Billion by 2021, at a CAGR of 12.4% from 2016 to 2021. Based on application, the wood-plastic composites market has been segmented into building & construction products, automotive components, industrial & consumer goods, and others. Based on type, the market has been segmented into polyethylene (PE), polyvinylchloride (PVC), polypropylene (PP), and others. Entrepreneurs who invest in this project will be successful. Few Indian major players • Amazon Wood Pvt. Ltd. • Archidply Industries Ltd. • Aryan Enterprises Pvt. Ltd. • Asian Pre-Lam Inds. Pvt. Ltd. • Associate Decor Ltd. • Austin Plywood Pvt. Ltd. • Best Board Ltd.
Plant capacity: 10,000,000 Sq.Ft. per annumPlant & machinery: 142 Lakh
Working capital: -T.C.I: Cost of Project:687 Lakh
Return: 28.00%Break even: 57.00%
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How to Start Phenolic Formaldehyde Resin (PF) Manufacturing Business, Production Process. Profitable Business Ideas

Introduction: Phenolic resin is a synthetic polymer produced by reacting phenol or replacing phenol with formaldehyde. It is known as a thermosetting resin. The most popular forms of phenolic resin are resol resin, novolac resin, and others (bio-phenolic resins, cresol novolac, and formaldehyde-free phenolic resins). Phenolic resins are a type of polymer that is one of the most adaptable materials ever invented. Despite the fact that they were developed at the beginning of the polymer era, they continue to be developed into an increasing range of applications. Phenolic resins are a type of synthetic thermosetting resin. Related project:- Production of Phenolic Formaldehyde Resin The original name for the substance was Bakelite. This plastic, which was essentially the first to be sold commercially, typified the old-style black telephones. A thermosetting amino resin is produced by adding phenol and formaldehyde. Phenol formaldehyde resin was the first true synthetic material. To make phenolic resins, excess formaldehyde (resol) or phenol (phenol) can be used (novolac). Resols are soluble in alcohol, while novolacs are stable at room temperature. Crosslinking is used in all of these processes to make a brittle hard plastic that is resistant to water and biodegradation. Phenol formaldehyde resins were used to make dark-colored moulded plastic products with Cellulose, Wood flour, or mineral powders. Resol phenolic is used in plywood, fabric sizing, leather processing, paper strengthening, foams, and chemical resistant coatings. Novolacs is used to produce fibres, adhesives, manufactured components, circuit boards, and mechanical fittings. The other big form of phenolic resin is novolak. In this process, excess phenol and an acid catalyst are used. The resulting thermoplastic is usually ground into a powder, mixed with a filler, and then used in heated and pressurised moulds. Heat-resistant products such as refrigerator and cookware handles and knobs, as well as electrical connectors, commonly use them. Uses of Phenolic Formaldehyde Resin: In a number of industries, phenol formaldehyde is used. Circuit boards, such as PCBs and other printed circuit boards, are mainly made with phenolic resins. Phenolic resins are used in a variety of products, including caps, handles, keys, radio cabinets, furniture, knobs, vacuum cleaners, cameras, ash trays, and engine ignition equipment. It's also used to produce laminated items. Fabric, paper, wood veneers, and other materials impregnated with phenolic resins include laminated sheets, sticks, and tubes, among other materials with widely varying properties. Related Books:- Synthetic Resins, Alkyd, Phenolic Resins Phenolic resin is used to make building panels, gears, and bearings, chemical equipment, air plane parts, clutch and brake linings, and jigs and dies. Casting and potting resins are made from phenolic resins in various ways when it comes to Cast Resins. Molded objects such as radio and television parts, combs, fountain pen barrels, and phonograph records, among other things, are made with them. 1. Decorative laminates, wall coverings, and other related things are made with them. 2. They're used in the manufacture of electrical components such as switches and connectors. 3. They are impregnated into fabrics, wood, and paper. 4. They're used as a bonding adhesive for laminated wooden planks and in varnishes and lacquers. 5. Sulphonated phenol-formaldehyde resins are used as ion-exchange resins. Production Process: The raw material storage room is raided for phenol and formaldehyde. First, a vacuum is formed in the reactor kettle, and then the phenol is charged. Until adding the phenol, a vacuum is produced and cooling water is turned on. All of the starting materials for phenol and formaldehyde are derived from fossil fuels. Related Videos:- Plastics Projects As a result, the scarcity of phenol and formaldehyde for resol production will be harmed by the depletion of fossil fuel resources. Apart from the depletion of fossil fuel resources, environmental concerns such as global warming are also a major concern. As a result, choosing safe and environmentally responsible raw materials for the manufacture of phenol-formaldehyde adhesives is critical. Phenol/formaldehyde resins, which are used to create high-pressure laminates, are generally made by reacting phenol and formaldehyde with an alkaline catalyst like sodium hydroxide. Modifying phenol-formaldehyde resins to boost the properties of adhesive formulations based on them (lower viscosity, higher viability, initial strength gain, etc.) Increased elasticity, heat resistance, vibration resistance, and stickiness of the adhesive; lower cost of ready-glue) and to enhance the consistency of glued-wood materials by decreasing the content of harmful substances in the adhesive and their emission. Market outlook: The phenolic resin market is primarily driven by the rising automotive industry. The main constraint to the growth of the phenolic resin market is environmental legislation regarding formaldehyde emissions. Manufacturers of phenolic resins have benefited from the adoption of modern nanotechnology. The global phenolic resins market is segmented into novolac resins, resol resins, and other types of resins. The key product class of phenolic resins is resol resins, which are manufactured under basic conditions with excess formaldehyde. The thermosetting plastics known as phenolic resin have a wide variety of applications. These plastics are solid, have a high thermal resistance, and are fire-resistant. There are two types of resin on the market: Related Projects:- Plastics, Polymers and Resins, Polypropylene (PP), Polystyrene (PS), Acrylonitrile butadiene styrene (ABS), Polyethylene terephthalate (PET), Polyester, PA, Poly(vinyl chloride) (PVC), Polyurethanes (PU), Polycarbonate (PC), Polyethylene (PE)Projects • Resol Resin and • Novolac Resin. • There are others Resol resin is classified as liquid or solid depending on its form. Wood adhesives, moulding, insulation, laminates, paper impregnation, coatings, and other applications are among the phenolic resin industry application segments. The use of phenolic resins in wood adhesives provides excellent water, moisture, and weather resistance, making it attractive in the construction industry. For More Details:- https://www.entrepreneurindia.co/project-and-profile-details/Production%20of%20Phenolic%20Formaldehyde%20Resin
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Return: 1.00%Break even: N/A
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Fiberglass Wool Ceiling Tiles Manufacturing Business. Ideas and Opportunities for Entrepreneurs

INTRODUCTION A secondary ceiling, hung below the primary (structural) ceiling, is known as ceiling tiles. It's also known as a drop ceiling, T-bar ceiling, false ceiling, suspended ceiling, grid ceiling, drop in ceiling, drop out ceiling, or ceiling tiles, and it's a popular choice for both residential and commercial construction. Fiberglass acoustic ceiling tiles are lightweight and simple to handle, with excellent sound absorption. Mineral Fiber Ceiling Tiles have excellent thermal and acoustic insulation. Fiberglass and Mineral Fiber Ceiling Tiles are available in a variety of price points, with the best sound absorption (NRC) to help you achieve the best acoustics for your project. Fiberglass ceilings and Mineral Fiber Ceiling Tiles are available in a variety of fire-rated, naturally resistant to mould and mildew growth, compatible with standard suspension systems and perimeter trim, unique views such as form and blade, and texture, shape, and colour. Related books: Plastics And Polymers, Polyester Fibers, Pet & Preform, Medical, Expanded Plastics, Polyurethane, Polyamide, Polyester Fibers, Additives, Colourants And Fillers, Extrusion, Moulding, Mould Designs, Optical Glass, Reinforced, Films, HDPE, Thermoset Uses and Applications: Fiber Ceiling Tiles are acoustical and thermal ceiling tiles for suspended ceiling systems used in industrial, commercial, and institutional settings. This decorative mineral fibre ceiling tile will satisfy the designer's requirements for acoustic control, aesthetic appeal, and thermal efficiency. These tiles improve working performance, concentration, and reduce noise and tension caused by echo and white noises in offices. These ceiling panels eliminate echo and boom in theatres and lecture halls, making sound systems more audible, transparent, and crisp. When used with Uni steel Black Grid, black ceiling tiles minimise light reluctance and provide a non-intruding presence in the interior decor, making them suitable for cinemas and home theatres. • Suspended commercial ceilings • Multiplexes • Auditoriums • Movie theatres • Lecture Theatres • Public libraries • Offices that are open plan • meeting rooms for conferences • Studios for filming • Bars and Pubs • Home theatre systems • Yoga and meditation centres • Public areas Related Project: Investment Opportunities in Fiberglass Wool Ceiling Tiles Production Process Fiber ceilings are a sound-absorbing green building material that can be recycled. 1. The manufacturing of mineral wool decorative sound-absorbing panels is a lengthy process. Wet-laid wire netting, wet round wire netting, dry-laminating and moulding, and semi-drying methods are all available. Wet process is used by the majority of producers. It is formed by pulping, long wire netting, dewatering, slitting, drying, slitting, spraying, and finishing wet long wire netting. Wait for the entire wet process development process to be completed in two stages. The various raw materials are first mixed and processed into a substrate board, after which they are decorated. 2. Decorative processing Blind hole processing: Semi-finished products are rolled to create impermeable holes of various sizes and shapes to improve the sound absorption effect, and then edge processing, colouring, and drying are completed. Processing of printing plates: Blind hole plates are processed into vertical and horizontal grooves using special milling machines, or they are milled, coloured, and dried in a circular fashion. semi-finished items are painted with pre-matched paint and printed on a template on a printing machine, and the designs may also be sprinkled with fine sand and dried. Embossed plate processing: After the semi-finished product is coloured, different patterns are pressed out using embossed plates in a press, and then cut and tenoned. The relief plate is manufactured by a reputable company, and the manufacturing costs are substantial. Related Videos: Plastics Projects Market Outlook In 2020, the global ceiling tile market is expected to be worth USD 5.93 billion. From 2021 to 2028, it is projected to rise at a compound annual growth rate (CAGR) of 8.8%. Development in the commercial construction industry is expected to drive the market, with new office towers, institutional buildings, healthcare facilities, and malls being built all over the world. With growing demand for acoustic and thermal insulation, rising disposable income in developing countries, and changing customer preferences for home and office building aesthetics, the market is expected to expand. The market dynamics are expected to benefit from the use of sustainable and creative building methods that include the use of eco-friendly materials for ceilings, floors, and walls. Mineral fibres, metals, gypsum, fibreglass, plastics, and wood are among the raw material manufacturers with a wide presence on the market. Market Research: - Market Research Report Backward and forward integration techniques are being used by manufacturers to gain leverage over the quality of raw materials used to make tiles, as well as to increase their customer base by managing distribution networks. Several firms, including Armstrong Roof, Knauf, and ROCKWOOL INSULATION A/S, have invested in the development of ceiling tiles with high fire resistance properties, and the industry is expected to expand significantly. This is due to a rise in the demand for healthy residential, commercial, and industrial complex construction. Green building practises are expected to spread through developed economies in North America and Europe, as well as major developing regions in Asia Pacific, as people become more aware of the benefits of using environmentally sustainable building materials. In addition, key players' increasing adoption of reuse and recycling of building materials is expected to drive market growth in the coming years. Projects:- Project Reports & Profiles Few Indian Major Players • K-Flex India Pvt. Ltd. • Kingspan Jindal Pvt. Ltd. • Lloyd Insulations (I) Ltd. • Owens Corning Inds. (India) Pvt. Ltd. • Rock Wool (India) Pvt. Ltd. • Saint-Gobain Gyproc India Ltd.
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Return: 1.00%Break even: N/A
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Start the Wood Plastic Composite (WPC) Manufacturing Business. Best Investment Opportunities for entrepreneurs.

Introduction WPCs are thermoplastic composite materials consisting of wood fiber/wood flour and thermoplastic(s) such as PE, PP, PVC, or PLA. WPCs may include ligno-cellulosic and/or inorganic filler materials in addition to wood fiber and plastic. WPCs are a subset of natural fiber plastic composites (NFPCs), which may or may not include cellulose-based fiber fillers such as pulp fibres, peanut hulls, coffee husk, bamboo, straw, digestate, and so on. Chemical additives in the composite structure seem to be virtually "invisible" (except for mineral fillers and pigments, if added). They allow polymer and wood flour (powder) integration while facilitating optimal processing conditions. People in the flooring industry have begun to refer to WPC as a form of floor with a simple structure of top vinyl veneer plus a rigid extruded core in recent years (the core can be made without any wood fiber). Related Project: Wood Plastic Composite (WPC) Uses of Wood Plastic Composite (WPC) In comparison to the long history of natural lumber as a construction material, wood-plastic composites are still relatively new materials. WPCs are most commonly used in outdoor deck floors in North America, but they are also used in railings, walls, landscaping timbers, cladding and siding, park benches, moulding and trim, prefab houses under the brand name Woodpecker WPC, window and door frames, and indoor fur. In the early 1990s, wood-plastic composites were first introduced to the decking industry. Wood-plastic composites, according to manufacturers, are more environmentally friendly and need less maintenance than solid wood treated with preservatives or solid wood of rot-resistant species. These materials may be moulded with or without the appearance of wood grain. Related Books: Plastics, Polymers and Resins, Polypropylene (PP), Polystyrene (PS), Acrylonitrile butadiene styrene (ABS), Polyethylene terephthalate (PET), Polyester, PA, Poly (vinyl chloride) (PVC), Polyurethanes (PU), Polycarbonate (PC), Polyethylene (PE) Projects. Production of Wood Plastic Composite (WPC) Ground wood particles and heated thermoplastic resin are thoroughly mixed to create wood-plastic composites (WPCs). Extrusion of the material into the desired form is the most common method of manufacturing, though injection moulding is often used. WPCs are made from thermoplastics such as HDPE, LDPE, PVC, PP, ABS, PS, and PLA, which can be virgin or recycled. WPCs made of polyethylene are by far the most popular. Colorants, coupling agents, UV stabilisers, blowing agents, foaming agents, and lubricants are examples of additives that help customise the end product to the target application field. Strong and hollow profiles are made from extruded WPCs. Injection moulded pieces, ranging from automotive door panels to mobile phone covers, are also made. The constituents are mixed and processed in a pelletizing extruder in some production plants, which creates pellets of the new material. After that, the pellets are remelted and formed into the final shape. Other manufacturers combine mixing and extrusion into a single phase to complete the finished part. WPCs are typically manufactured at much lower temperatures than conventional plastics during extrusion and injection moulding due to the inclusion of organic material. WPCs, for example, process at temperatures about 50 degrees Fahrenheit (28 degrees Celsius) lower than unfilled materials. At about 400 °F (204 °C), the majority of them will start to burn. When processing WPCs at extremely high temperatures, the possibility of shearing, or burning and discoloration, arises from forcing a hot material through a narrow gate during injection moulding. The melt flow index (MFI) of a WPC is determined by the ratio of wood to plastic in the composite, with greater quantities of wood usually resulting in a lower MFI. Related Videos: Plastics Projects Advantages of Wood Plastic Composite (WPC WPCs do not corrode and are highly resistant to rot, decay, and marine borer attack, but the wood fibres contained within the material absorb water. Water absorption is more pronounced in WFCs with a hydrophilic matrix, such as PLA, which causes mechanical stiffness and strength to be reduced. An acetylation treatment can improve mechanical efficiency in a wet environment. WPCs are easy to work with and can be shaped with standard woodworking tools. WPCs are often regarded as a renewable material since they can be manufactured from recycled plastics and wood industry waste. They can, like concrete, be easily recycled into a new wood-plastic composite. One advantage of plastic over wood is its ability to be shaped into almost any desired form. Strong arching curves can be formed by bending and fixing a WPC component. Another advantage of these materials is that they do not require painting. They come in a variety of colours, but greys and earth tones are particularly common. Related projects: - Project Reports & Profiles Market Outlook: The wood-plastic composites market is expected to develop at a CAGR of 12.4% from 2016 to 2021, reaching USD 5.84 billion. The growing demand for wood-plastic composites in the building and construction industry is a major driver of market development. Between 2016 and 2021, the wood-plastic composites market in Asia-Pacific is expected to expand at the fastest pace. Increased construction activities and investments in the expansion or upgrade of manufacturing facilities have fueled development in China and India's economies. The largest economies in Asia-Pacific, China, Japan, and India, have more prospects for the growth of the wood-plastic composites market in the near future. Government initiatives to encourage industrial growth would further aid the growth of the wood-plastic composites industry in these countries. Market Research: - Market Research Report Over the last five years, the Indian Composites Industry has developed at a steady pace, serving a diverse range of raw materials, parts, and industries. The Indian composites industry is expected to develop rapidly, with a CAGR of 8.2 percent, to cross 4.9 lakh metric tonnes by 2022. Rebounding renewable energy, growth in mass transportation, penetration of composites in strategic sectors, and a modestly growing index of industrial production could all contribute to this level of growth. For More Details Click Here: https://www.entrepreneurindia.co/project-and-profile-details/Wood%20Plastic%20Composite
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Start Investing in Plastic Business. Ideas and Opportunities in Production of PVC Edge Band Tape.

Introduction: Edge banding, also known as edge banding, is a finish carpentry process and a narrow strip of material used to produce sturdy and aesthetically pleasing trim edges. PVC, which is created by combining, calendaring, vacuum moulding, and other methods, is the key component of PVC edge banding strip. Furniture, office, kitchenware, teaching equipment, and civil engineering are only a few of the industries that use our products. Related Book: - Detailed Project Profiles on Hi-Tech Plastic Products Thicknesses range from 0.3 to 3mm, and widths range from 12 to 80mm. Smooth surface, no blistering, no stretch marks, mild glossiness, flat surface and back, uniform thickness, consistent width, fair hardness, high elasticity, good quality, solid wear resistance, edge banding side colour is similar to surface colour after trimming. Uses of PVC: Edge banding is a thin material that is used to seal plywood's exposed and raw edges. On one side, heat sensitive adhesive is applied to the board, while the other side serves as a dirt and moisture barrier. When using Pressure Laminated and Melamine Cabinets, PVC edge banding is the most common choice. With the popularity of modern European cabinetry on the rise, cabinets with glossy or colourful finishes are becoming more common. Edge banding made of PVC (polyvinyl chloride) is a thermoplastic resin that is both versatile and durable. Related Projects: - Plastics, Polymers and Resins, Polypropylene (PP), Polystyrene (PS), Acrylonitrile butadiene styrene (ABS), Polyethylene terephthalate (PET), Polyester, PA, Poly(vinyl chloride) (PVC), Polyurethanes (PU), Polycarbonate (PC), Polyethylene (PE)Projects PVC bands can be used on almost any form of wood, but the thickness of the band can vary. To ensure strength and longevity, it is critical to use the appropriate band for the material. Kitchen, bedroom, bathroom, and office furniture may all benefit from edge banding. Edging will help the consumer adjust the design and look of the grain in the wood when used in wood projects. Edge bands provide a variety of functions for your furniture. First, it acts as a de facto seal on the edge of the core material, keeping moisture out. Second, by offering impact resistance, edge banding increases longevity and resilience. If you use solid wood edging, it may also contribute to the overabundance. Production Process: PVC Edge Band Manufacturing Process Steps: • Material Mixing And Batching • Extrusion • Sculpture • Cooling • Vacuum Calibration • Printing • UV Defence • Infrared Dryer • Final PVC Edge Band Rolling/Cutting Related Videos: - plastic products Heat tolerance, oil resistance, high hardness, abrasion resistance, and excellent bendability are all characteristics of PVC edge banding. The surface can be printed with different patterns, such as natural wood or some other wonderful design, and the surface can also be laminated or hot stamped with different patterns. The recycled PVC edge banding is environmentally friendly. It's widely used in beds, cabinets, doors, and windows, as well as office furniture, shelves, and machinery. Market Outlook: The PVC Edge Banding industry is one of the markets that has attracted a lot of attention from investors. In the coming years, the global PVC edge banding market is expected to expand. Edge banding is also one of the most effective and dependable methods for covering the raw edge of wooden panels used in new furniture. Market Research: - Market Research Report Due to technological advances and R&D activities, a variety of edge banding products, such as polyvinyl chloride (PVC), wood, and resins, are now available on the market. The booming construction sector, particularly in developing regions such as Asia Pacific, particularly in India, is expected to provide significant opportunities for the current edge banding materials market landscape players. Key Players: 1. OSLO Edge Band Tape 2. Fitch Italy PVC Edge Band Tape Manufacturer 3. Plastics sheets laminate pvc bord edge band tape 4. ANANT Edge Band Tape 5. Decolux Pvc Laminate & Edge Band Tape 6. PEGASUS EDGE BAND TAPE For More Details: https://niir.org/profile-project-reports/profiles/rubber-plastic-industries-frp-products-polymers-pet-pvc-ldpe-hdpe-polypropylene-acrylic-polyutherthane-projects/z,,1c,0,a/index.html #DetailedProjectReport #businessconsultant #BusinessPlan #feasibilityReport #NPCS #entrepreneurindia #startupbusiness #ProjectReport #startup #projectconsultancy #businessopportunity #PVCEdgeBandTape #WoodenEdgebandTape #EdgebandTape #PlasticMarket #PlasticBusiness #PlasticProducts #PlasticProduction #PlasticManufacturing
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Profitable Business Opportunities in Production of Poly Tetra Fluoro Ethylene (PTFE).

Introduction: Polytetrafluoroethylene (PTFE) is a solid, tough, waxy, non-flammable synthetic resin made from tetrafluoroethylene polymerization. Teflon, Fluon, Hostaflon, and Polyflon are all trademarks for PTFE, which is known for its slippery surface, high melting point, and resistance to almost all chemicals. These properties have made it popular among consumers as a non-stick cookware coating; it is also used in industrial goods such as bearings, pipe liners, and valve and pump components. Related Projects: - Plastics, Polymers and Resins, Polypropylene (PP), Polystyrene (PS), Acrylonitrile butadiene styrene (ABS), Polyethylene terephthalate (PET), Polyester, PA, Poly(vinyl chloride) (PVC), Polyurethanes (PU), Polycarbonate (PC), Polyethylene (PE)Projects Polytetrafluoroethylene, or PTFE, is an ivory-white, opaque plastic fluoropolymer with a wide range of applications. It's made by the free-radical polymerization of several tetrafluoroethene molecules and can be used in a variety of industries, including aerospace, food and beverage, pharmaceuticals, and telecommunications. PTFE is an extremely flexible material with a wide range of uses, but it's perhaps best-known for its non-stick properties. It's hydrophobic, non-wetting, high density, and resistant to high temperatures. Uses of PTFE: In the aerospace industry, PTFE is commonly used in the manufacture of carbon fibre composites as well as fibreglass composites. When debulking (vacuum removal of air from between layers of laid-up plies of material) and curing the composite, PTFE film is used as a buffer between the carbon or fibreglass component being installed and the breather and bagging materials used to encapsulate the bondment. The PTFE film prevents non-production materials from adhering to the component being made, which is sticky due to the carbon-graphite or fibreglass plies being pre-pregnant with bismaleimide resin. In hose assemblies, expansion joints, and industrial pipe lines, PTFE is frequently used as the liner, particularly in applications involving acids, alkalis, or other chemicals. Related Books: - Plastics and Polymers, Polyester Fibers, Pet & Preform, Medical, Expanded Plastics, Polyurethane, Polyamide, Polyester Fibers, Additives Because of its frictionless properties, it can better flow highly viscous liquids and be used in applications including brake hoses. The non-stick properties of PTFE have also been used in the dental industry to keep fillings from sticking together. Since it is anti-corrosive and non-reactive, PTFE is often used to make containers and pipes. This is helpful in laboratories where highly corrosive materials must be stored in glass containers. PTFE also has a higher tensile strength due to its carbon-fluorine bonds. PTFE can also be used as a computer lubricant. PTFE decreases friction, energy consumption, and pollution when used in this way. Because of its strength and heat resistance, PTFE is also used to make gaskets. It's also used in plumbing as a thread seal tape. PTFE is also used to insulate cables and connector assemblies because of its good electrical insulation properties. It's suitable for hooking up wire, coaxial cable, and printed circuit boards because of this. Manufacturing Process: Granular, dispersion, and fine powder types of PTFE are available. Due to its high melting temperature and melt viscosity, semi-crystalline PTFE is difficult to extrude and injection mould. As a result, PTFE processing is more similar to powder processing than conventional plastics processing. A water-based suspension polymerisation reaction produces granular PTFE. Compression moulding is often used to form the granular resin that results. Related Videos: - Plastics Projects PTFE dispersion products are produced in the same way, but with the addition of dispersing agents. Dispersion materials can be used for PTFE coatings or film casting can be used to make a thin film. An emulsion polymerisation reaction produces PTFE powder. The fine powder that results can be paste extruded into PTFE tapes, tubing, and wire insulation, or used as a corrosion inhibitor in other polymeric materials. Since the high melting temperature of 327 °C (621 °F) is higher than the initial decomposition temperature of 200 °C (392 °F), processing PTFE can be difficult and costly. Because of its extremely high melt viscosity, PTFE does not flow even when molten. Tiny amounts of comonomers such as perfluoro (propylvinyl ether) and hexafluoropropylene can be used to reduce viscosity and melting point (HFP). The otherwise perfectly linear PTFE chain becomes branched as a result of these, reducing its crystallinity. Market Outlook By 2022, the global market for polytetrafluoroethylene is projected to produce more than US$ 7 billion in sales, with demand estimated to be 247 thousand MT. PTFE is a common fluoropolymer that accounts for a large portion of the global market. It's a solid, versatile, non-resilient material with excellent chemical and thermal properties. It's also a great insulator over a large frequency and temperature spectrum. Market Research: - Market Research Report The fastest-growing market for PTFE is projected to be electronics and electrical. Because of its outstanding electrical insulation properties under extreme conditions such as high temperatures and aggressive chemicals, PTFE has a wide range of applications in the electronics and electrical end-use industries. The global polytetrafluoroethylene market is booming, thanks to rising demand from a variety of industries, especially the electrical and automotive industries. Key Players: • 3M • DUNMORE Corporation • Guarniflon S.p.A. • Jiangsu Taifulong Technology Co. Ltd. • Jiangxi Aidmer Seal and Packing Co. Ltd. • Lenzing Plastics GmbH and Co. KG • Markel Corporation • Ningbo Taifno PTFE Plastic Products Corporation • Nitto Denko Corporation • Rogers Corporation • Saint-Gobain • Technetics Group For More Details: https://niir.org/profile-project-reports/profiles/plastics-polymers-resins-polypropylene-pp-polystyrene-ps-acrylonitrile-butadiene-styrene-abs-polyethylene-terephthalate-pet-polyester-pa-poly-vinyl-chloride-pvc-polyurethanes-pu-polycarbonate-pc-polyethylene-pe-projects/z,,38,0,a/index.html
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Hemodialysis Blood Tubing

The Chronic Kidney Disease (CKD) is increasing in alarming proportion all over the world. In India due to lack of financial resources, lack of trained manpower & infrastructure leads to severe strain on existing health policies in the light of the increasing burden of CKD. Kidneys are probably the only vital organs which can be realistically replaced by artificial means. Maintenance dialysis is a well-recognized modality of treating patients having end stage renal disease. Several thousands of patients all over the world are surviving and achieving reasonable quality of life on maintenance dialysis. In India the first Hemodialysis facility was established in 1961 2 at the CMC Vellore; soon it was started at 3-4 major centers during that decade viz. CMC Vellore, KEM Mumbai, PGI Chandigarh & All India Institute of Medical Sciences, New Delhi. Over the last three decades many more dialysis facilities have been established in Government sector, in Charitable Trust run institutions & by Private Nephrologist. There has been persistent improvement in the numbers & quality of dialysis delivered over this period. Blood Tubing Sets for Hemodialysis designed specifically to connect patient with an external system that extracts blood of the patient to the dialyzer and reverts patient’s blood from the dialyzer. Consists of 2 Parts: Arterial and Venous line which are used during dialysis with attached fistula and dialyzer. Unique chambers are there which reduce foaming, increase air removal and do not trap EPO (Erythropoietin). This helps in ensuring secure machine fit and less incidence of wet out. Sets feature many practical improvements over than other competitor brands, especially as to internationalization of the components. To guarantee much safer and easier to use, sets in many configurations and specifications to meet customers' needs and fit all types of dialyzers and dialysis machines. With strict control over each manufacturing step, from granules formulation to final sterility assurance, ensures that Sunder Sets are of the highest quality. A single hemodialysis session in India with a new dialyzer can cost between 1800 and 3400 (versus 500 dollars in the USA), while a reuse session would cost between 1600 to 2700. The cost of single-use hemodiafiltration would range between 3200 and 4500. If there are no-cost constraints, HDF is a preferred option to conventional HD and most big dialysis units in India are progressively increasing the numbers of HDF machines (Nipro/Fresenius). In Dialysis unit, we have a total of 18 HD machines (14 for negative patients, 3 for hepatitis C patients, and 1 machine for hepatitis B or HIV) and 2 HDF machines. We have budgeted two more HDF machines for the current financial year. Market Trend: As kidney transplant is still an elusive procedure in India, most patients are put on hemodialysis. The driving force for the ever-increasing demand of dialysis equipment is the exponential rate of growth of non-communicable diseases like diabetes , obesity, and hypertension; and the continuous increase in the geriatric population (most likely to suffer from ESRD). India dialysis market was valued at USD 3.1 billion in 2017. The global kidney dialysis equipment market is touted to accumulate USD 16.5 billion at a stupendous 5.7 percent CAGR (compound annual growth rate) during the assessment period (2018–2023). Hemodialysis segment accounted for over 90 percent revenue share in 2017 and is projected to grow over the forthcoming years. In the center, dialysis accounted for more than 70 percent share in 2017. Market challenges: Consistent innovation in the dialysis equipment market is leading to the creation of complex systems that patients and clinicians are having trouble getting accustomed to. The greatest challenge is the lack of instructive training and ease of accessibility of the equipment. Currently, some players in the Indian dialysis equipment market include Fresenius, B Braun, Baxter-Gambro, and Nipro. At present, business in the Indian dialysis market is valued as USD 50.0 billion and is expected to grow further. One of the latest developments in the market is the proposed launch of a portable dialysis system by Medtronic. Such a machine will be easily transportable in rural India and will require less water, less treatment, and less technician expertise. As a whole there is a good scope for new entrepreneur to invest in this business. Few Major Players • Angi Plast Pvt. Ltd. • Fresenius Kabi India Pvt. Ltd. • Global Minetec Ltd. • Hemant Surgical Inds. Ltd. • Nipro Tube Glass Pvt. Ltd.
Plant capacity: 4000 Pcs Per DayPlant & machinery: 133 Lakhs
Working capital: -T.C.I: Cost of Project:404 Lakhs
Return: 25.00%Break even: 55.00%
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Lucrative Industry of HDPE Jumbo Bags (Flexible Intermediate Bulk Containers)

Jumbo bags are large bags that are used to pack bulk items of various types. These large bags come in a variety of specifications and grades to meet the needs of our customers and their packaging. The jumbo textiles are constructed of polypropylene materials that are extremely resilient and flexible, making them ideal for a variety of packaging applications. Jumbo bags are large bags that are used to pack bulk items of various types. These large bags are produced in a variety of specifications and grades to meet the needs of our customers and their packaging. Jumbo bags are large bags that are used to pack bulk items of various types. These large bags are produced in a variety of specifications and grades to meet the needs of our customers and their packaging. The jumbo textiles are constructed of polypropylene materials that are extremely resilient and flexible, making them ideal for a variety of packaging applications. • Cost-effective • Very sturdy and flexible • Easy to lift thanks to inbuilt lifting loops • A wide range of sizes are available. • A wide range of filling, discharging, and lifting options • FIBCs are lightweight and portable. These bags may be transported in a very straightforward and simple manner thanks to the large range of Lifting Options offered. • FIBCs are available in a variety of sizes and specifications, and are known for their long life and durability. • FIBCs are the most convenient and cost-effective means to carry and transfer bulk goods for export. By 2023, the global bulk bags market is estimated to be worth USD 4956.7 million, increasing at a 6.80 percent compound annual growth rate (CAGR). To replace wood and cardboard, the market demands reusable, recyclable, and contamination-free packaging solutions. Bulk bag producers are encouraged to create innovative solutions in part by the requirement to prevent damage and contamination to FIBC loads, which customers have expressed as a critical necessity. Few Indian Major Players 1. Ashoka Poly Laminators Ltd. 2. Bardanwala Plastics Pvt. Ltd. 3. Commercial Syn Bags Ltd. 4. Eclat Industries Ltd. 5. Hanson Agro Ltd. 6. Indra Industries Ltd. 7. Jagannath Polymers Pvt. Ltd.
Plant capacity: HDPE Jumbo Bags (FIBCS) 6,666.7 Nos Per DayPlant & machinery: 3465 Lakhs
Working capital: -T.C.I: Cost of Project: 38 Lakhs
Return: 26.27%Break even: 36.20%
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PP Woven Fabric

Polypropylene, which is also known as PP for short name, is one kind of thermoplastic resin material that produced by the polymerization of propylene.Woven polypropylene is polypropylene strips/threads that have been woven in two directions (warp and weft) to create a light, but strong and heavy duty material. Polypropylene fabric is a term used to describe any textile product that is derived from the thermoplastic polymer polypropylene. This type of plastic is part of the polyolefin group, and it is non-polar and partially crystalline. Next to polyethylene, polypropylene is the second-most commonly produced plastic in the world, and it is more commonly used in packaging, straws, and other types of consumer and industrial goods than it is in textile production. Polypropylene fabric is one of the lightest synthetic fibers in existence, and it is incredibly resistant to most acids and alkalis. In addition, the thermal conductivity of this substance is lower than that of most synthetic fibers, which means that it is ideally suited for cold weather wear. PP Woven fabric possesses several significant properties, which makes them a suitable choice for various applications. PP woven bags or sacks are strong, able to retain their shape, can be put in washing machines, and are reusable, can sustain weather odds, highly chemical resistant, and possess high wear and tear strength. PP woven Fabrics are used in various end applications like Grain & Pulses Bags, Foods & Spices Bags, Animal Food Bags,Fertilizers & Chemical Bags, Cement & Wall finish Bags,Powder & Granule Bags, Mineral Bags, Detergent Bags,Mehndi Bags, Nuts & Fruits Bags, Specialty Bag For Tea &Coffee, Outer Promotional Shopping Bags. Thesepolypropylene (PP) woven fabrics are quality constructedto provide strong and economical packaging option forvaried industry sectors. The FIBC industry in India is very capable and highly developed despite the woeful lack of domestic demand so far. India is a very large player in the international FIBC business and ranks behind only China in the global supply scenario. The Indian FIBC industry has been making rapid strides in the global market and is presently estimated to have overtaken Turkey as the world's second largest producer. Few Indian Major Players 1. Abdos Polymers Ltd. 2. Bardanwala Plastics Pvt. Ltd. 3. Commercial Syn Bags Ltd. 4. Eclat Industries Ltd. 5. Fiberweb (India) Ltd. 6. Ginza Industries Ltd. 7. Jagannath Polymers Pvt. Ltd. 8. Krishna Poly Packs Pvt. Ltd.
Plant capacity: PP Woven Fabric 12 MT per dayPlant & machinery: 943 Lakhs
Working capital: -T.C.I: Cost of Project: 1637 Lakhs
Return: 27.00%Break even: 52.00%
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Information
  • 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
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  • 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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