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Silica aerogels play a role in the preparation of thermally insulating coated fabrics
Thermal insulation coated fabric is a coating with thermal insulation effect on the surface of the fabric, by blocking, reflecting or radiating solar energy, to achieve the purpose of reducing the internal temperature of the fabric covering and reducing energy consumption, it has a wide range of applications in the textile industry prospect. According to the thermal insulation mechanism, fabric thermal insulation coatings can be divided into three types: barrier type, reflective type and radiation type. Barrier thermal insulation coating is a passive cooling coating that achieves thermal insulation through the resistance of heat transfer. In order to obtain good thermal insulation effect, it usually has the characteristics of relatively low bulk density, low thermal conductivity, and low dielectric constant. Reflective thermal insulation coating isolates sunlight energy through reflection. Commonly used reflective materials include ceramic micropowder, aluminum powder, titanium dioxide and ATO (antimony-doped tin dioxide) powder. Common barrier fabric thermal insulation coating agents are divided into chemical structures, mainly including polyvinyl chloride (PVC), polyacrylate (PA), polyurethane (PU), silicone, rubber emulsion and PTFE Ethylene, etc., among which PA and PU are widely used; according to the medium used, they can be divided into two types: solvent type and water dispersion type. As an amorphous nanoporous material, SiO2 aerogel has a controllable structure and a continuous three-dimensional network structure. And its density is adjustable between 3-500mg/cm3, it is a solid material with the lowest density in the world, the porosity can reach 80%-99.8%, the pore size is between 1-100nm, and the specific surface area can be as high as 1000m2/ g. Due to the unique nanoporous structure, its thermal conductivity is extremely low, and the thermal conductivity is as low as 0.017W/(m·K) under normal temperature and pressure, which is the lowest thermal conductivity of solid materials known so far. Since the structural units constituting the aerogel skeleton are smaller than the wavelength of visible light, it also has better light transmission properties. At the same time, it is an inorganic material with non-combustible or flame-retardant effect, and has wide application prospects in the field of thermal insulation. According to statistics, in recent years, the compound annual growth rate of the global aerogel market size is 36.4%, while the compound annual growth rate of the domestic aerogel market is as high as 61.1%. Its application in thermal insulation fabrics can not only reduce the weight of thermal protective clothing, make it lighter and thinner, but also greatly reduce work loss during use. For example, SiO2 aerogel can be added to PA or PU adhesives according to a certain proportion to obtain a thermal insulation coating agent, and the cotton fabric can be directly coated, and then the process of drying and baking can be carried out. Preparation of SiO2 Aerogel Thermal Insulation Coated Fabrics. Compared with the original fabric, the thermal insulation performance of the coated fabric with SiO2 aerogel is significantly improved, and when the amount of aerogel added in the coating agent is less than 10%, the thermal insulation effect of the fabric increases with the amount of SiO2 aerogel added. increases and gradually improves. In addition, glass fiber SiO2 aerogel felt can also be selected as the material of the fabric insulation layer. Its thermal protection performance is greater than 60, and it can withstand high temperature flame combustion at 450 ° C for 50s, which significantly improves the thermal protection performance of the fabric, and can resist firefighting. instantaneous high temperature. SiO2 aerogel has the characteristics of high porosity and low thermal conductivity, making it a new type of super insulating material. However, the flexibility and integrity of SiO2 aerogels are poor, and the thermal conductivity of aerogels prepared by drying at room temperature increases rapidly at high temperatures, which greatly limits the application of SiO2 aerogels. In recent years, SiO2 aerogel composite thermal insulation materials prepared by in-situ sol-gel method and molding method have improved their toughness, integrity and high-temperature thermal insulation performance to a certain extent, making SiO2 aerogels. It is possible as a single block insulation material.
https://www.wh-heat-insulation.com/thermally-insulating-coated-fabrics.html
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Arcene Supply Services LLP Established in the year 2015, Leading Industrial supplier, Exporter and importer of products for power, oil & gas, cement, sugar factories, textile, mining, marine and other industrial areas for India, Middle East and Central Asia.
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What are the advantages of Beijing GWH Silicone fireproof cloth?
As a special industry and protective fabric for special types of work, fireproof cloth can be roughly divided into silicone fireproof cloth, glass fiber fireproof cloth, basalt fiber fireproof cloth, high silica fireproof cloth, ceramic fiber fireproof cloth, aluminum foil fireproof cloth, etc. Silicone rubber fireproof cloth is a kind of fireproof cloth with relatively high flame retardant level. It is made of glass fiber cloth with high temperature resistance, anti-corrosion and high strength and calendered or impregnated with silicone rubber. It is a new type of composite material with high performance and multi-purpose.
Beijing GWH Silicone fireproof cloth has the advantages of softness and heat resistance.
Secondly, because of its low bulk density, thermal vibration resistance, chemical corrosion resistance, fire protection, dust removal, easy construction and other characteristics, it is widely used in heat insulation, heat preservation, sealing, fire protection, energy conservation, labor protection, electronics, aerospace and other fields.
Silicone fireproof cloth has no irritation to skin and no pollution to environmental safety. It can be widely used in ship frame structure and repair in the shipbuilding industry. It can also be used in heat insulation, insulation and welding of metal structures in petrochemical enterprises, showing good protective adaptability.
https://www.gwh-firesleeve.com/silicone-fireproof-cloth/
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Polyurethane, plum cushion, copper cushion
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Classification and characteristics of Hebei Zeal fireproof cloth
As a high temperature industry protective fabric, Hebei Zeal fire-proof cloth is roughly divided into glass fiber fire-proof cloth, silicone rubber coated glass fiber cloth, basalt fiber fire-proof cloth, high silica fiber fire-proof cloth, ceramic fiber fire-proof cloth, aluminum foil glass fiber fire-proof cloth, etc.
The fireproof cloth material has the following characteristics:
Fire retardant cloth is sewn from flame retardant composite materials. It has excellent organizational structure, high temperature resistance, electrical insulation, oxidation resistance and fire insulation materials. Fireproof insulation material fireproof cloth can help protect articles and work area from welding sparks.
The fireproof cloth is suitable for welding and other occasions with sparks and easy to cause fire. It can resist spark splash, slag, welding spatter, etc. to isolate the workplace, separate the working layer and eliminate the possible fire hazard in welding work.
The fireproof cloth can achieve different application effects through different coating or composite treatment (PVC, chlorine tincture glue, silica gel, aluminum foil, etc.): waterproof, wear-resistant, anti-corrosion, oil resistance, heat reflection, improved temperature resistance and heat preservation time. For objects with a temperature greater than 550 ℃, it is recommended to use glass fiber fabric coated with vermiculite or fabric woven with high silica fiber. Fireproof insulation material fireproof cloth uncoated material is usually softer and more suitable for covering objects.
The fireproof cloth of fireproof insulation material with the thickness of fireproof cloth less than 0.6mm shall be placed on the straight face to make the spark fall after the initial touch to prevent breakdown of the fireproof insulation material fireproof cloth; When it is used on the horizontal plane, fireproof insulation materials and fireproof cloth with a thickness of more than 0.6mm shall be selected.
https://www.hbzeal.com/fireproof-cloth/
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Ceramic Fiber Textile Market Growth and Forecast Report 2020
Ceramic Fiber Textile Market
Ceramic Fiber Textile are made from 47% alumina-silica ceramic fiber and 53% silica. The textiles, also identified as free silica, are exempt from asbestos and crystalline silica. Usually, the component has been used by 2300F (1260C). Textile products do encompass about 15% of natural carriers that help in the composition and production processes. At 750F (400C) these organics do melt out. Textile items would also include Inconel wire or flexible fiberglass filament reinforcing insert materials to maximize handling power throughout assembly and to improve textile longevity. Inconel reassurance has a temperature rating of 2000F (1093C), and a temperature rating of 1200F (649C) for fiberglass conditioning.
Ceramic fiber textile contains either Inconel wire or continuous fiberglass filament strengthened components to significantly boost handling toughness throughout configuration and improve textile reliability. It includes weaving in several plucked and strengthened yarns which measures the number and density of used yarns. The ceramic fibre textile possesses qualities, including high heat resistance, temperature resistance, and thermal shock resistant, superior durability that makes wrapping, cutting, and shaping simple. The strengthened yarn and ceramic textile features make it suitable for a wide range of industrial thermal fueled solution. The Nextel ceramic textiles have the aforementioned features to safeguard the critical components from thermal heat. This fiber was strengthened against propulsion heat into NASA space shuttles and provides aircraft and spacecraft impact protection. User can access Global Market Database to understand the Global Market for Ceramic Fiber Textile.
In mechanical and plant systems engineering that demand chemical and thermal tolerance, products manufactured from ceramics are used as components. These ceramic textile composite materials would be further combined with magnetic powders, resulting in higher conductivity in the finished material. Depending on the mix proportion, polymer ceramic composite materials show superior resistivity with limited tangent loss. Conductive textiles covered with carbon nanotubes and gold hold exciting features to reach optimal capacitance and mechanical durability that are crucial aspects of antennas for load-bearing.
Due to the attractive characteristics shown by the textile including heat resistance and high reliability at low temperatures, ceramic fabric is expected to be a significant market. For welding foundry operations, iron and steel mills, boiler construction and sealing, shipyards, refineries, power stations, and chemical plants, it has widespread application. In addition to its use in several emerging technologies, such as aerospace and renewable energies, its ability to remove heat in high-temperature applications is expected to increase the ceramic textile market.
Refractory ceramic fiber (RCF) is a significant portion of the textile ceramics market. RCF is a porous product that can be turned or blown into large quantities, air-laid into a blanket, rolled up into modules, transformed into papers, boards, and forms, die-cut into gaskets, warped into yarns, woven into rope and cloth, and integrated into fluid binders for admixtures and types of cement. Industrial end-users including petroleum products, iron & steel, and other metals are expected to dominate the ceramic textiles market.
Ceramic Fiber Cloth, Tape, and Sleeving are textiles that are very solid and lightweight. Insert Inconel wire materials and fiberglass filaments are incorporated into the yarn to maximize the tensile properties of the textiles both before and after heat stress. Common applications include gaskets, seals, pipe packaging, curtains for furnace, and welding.
To gain maximum resistance to the mechanical range with a density range of 33-36 PCF, Round and Square Ceramic Fiber Braids are produced by over-braiding around a core of the ceramic fiber. As well as its superior strength, circular and square braids also show limited unfolding when cut. 3-Ply tangled Ceramic Fiber Rope is made from several alumino-silicate threads that are then contorted into a three-ply rope. It is identical to the Unifrax style.
Fibrous ceramics and refractories are also used to manufacture components such as insulators, igniters, and heating elements, both physical and mechanical. Ceramic insulation and textiles are also used to shield workers from harmful heat or toxic environments in clothes, such as outer garments.
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Classification and application of quartz sand(silica sand)
Classification of quartz sand(silica sand)
Quartz powder (silica sand) is usually divided into ordinary silica sand (powder), refined quartz sand, high-purity quartz sand, fused quartz sand and silica powder.
1. Ordinary quartz sand (powder)
SiO2 ≥ 90-99% Fe2O3 ≤ 0.06-0.02%, fire resistance 1750-1800 ℃, part of the appearance of large particles, the surface of yellow skin capsule. The granularity range is 1-320 mesh, which can be produced according to the user's requirements. Main uses: metallurgy, graphite silicon carbide, building materials, enamel, cast steel, filter material, foam alkali, chemical industry, sandblasting and other industries.
2. Refined quartz sand (powder)
It is also called acid washed quartz sand. SiO2 ≥ 99-99.5% Fe2O3 ≤ 0.02-0.015%. It is made by complex processing of high-quality ore. The particle size range is 1-380 mesh, which can be produced according to the user's requirements, with white or crystalline appearance. Main uses: filter material, advanced glass, glass products, refractory, smelting stone, precision casting, sandblasting, wheel grinding material, etc.
3. High purity quartz sand (powder)
SiO2 ≥ 99.5-99.9% Fe2O2 ≤ 0.005%. It is made of 1-3 grade natural crystal stone and high-quality natural stone through careful selection and fine processing. The particle size range is 1-0.5mm, 0.5-0.1mm, 0.1-0.01mm, 0.01-0.005mm, which can be produced according to the user's requirements. Main uses: advanced glass, electronic filler, smelting stone, precision casting, chemical industry, ceramics, etc.
4. silicon powder
SiO2: 99.5% min-99.0% min, Fe2O3: 0.02% max, Al2O3: 0.3% max, size: 200-2000 mesh, gray or gray white powder, fire resistance > 1600 ℃. Unit weight: 200-250kg / m3.
Use of quartz sand(silica sand)
Quartz sand is not divided into grades, only into specifications. Because of its high whiteness, no impurity and low iron content, it is widely used. Quartz sand can be used in the following industries:
1. Use of silica sand in glass
Main raw materials of flat glass, float glass, glass products (glass can, glass bottle, glass tube, etc.), optical glass, glass fiber, glass instrument, conductive glass, glass cloth and special radiation proof glass, etc.
2. Use of quartz sand in ceramics and refractories
Raw materials for porcelain embryo and glaze, high silicon brick for kiln, common silicon brick and silicon carbide, etc.
3. Use of quartz sand in construction
Concrete, cementitious material, road building material, artificial marble, cement physical property inspection material (i.e. cement standard sand), etc.
4. Application of quartz sand in chemical industry
Raw materials of silicon compounds and water glass, filler of sulfuric acid tower, amorphous silica powder
5. Use of quartz sand in machinery
Main raw materials and abrasives of casting sand (sand blasting, hard abrasive paper, abrasive paper, abrasive cloth, etc.)
6. Use of quartz sand in electronic industry
High purity silicon metal, optical fiber for communication, etc.
7. Use of quartz sand in rubber and plastic
Filler (improves wear resistance)
8. Application of quartz sand in coating
Filler (can improve the weather resistance of coating).
9. Application of quartz sand in metallurgy
Silicon metal, ferrosilicon alloy, silicon aluminum alloy and other raw materials or additives, fluxes.
10. Application of quartz sand in aerospace
Its inherent molecular chain structure, crystal shape and lattice change rule make it have high temperature resistance, small coefficient of thermal expansion, high insulation, corrosion resistance, piezoelectric effect, resonance effect and its unique optical properties.
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Insights of Ceramic Rope
SUMMARY
Ceramic Fiber Textiles or ceramic rope are being manufactured from alumina-silica ceramic fiber which consist of 47% Alumina, and 53% Silica. These textiles are free of asbestos and crystalline silica, which is also known as free silica. The material is generally used up to 2300F (1260C).
Picture Courtesy:- IMS Insulation
These textile products do contain approximately 15% organic carriers which aid in formation as well as manufacturing.
Textile products can also does consist of strengthening which insert materials of Inconel wire or continuous fiberglass filament for a good handling strength during installation and enhance the durability of the fiber.
Textile Products
Ceramic Fiber Cloth, Tape, and Sleeving are very much stronger and flexible fabrics. When you insert the material of Inconel wire and fiberglass filaments which are inherited into the yarn to increase the tensile strength of the fabrics of both before and after the exposure to heat. Usually applications include gaskets, seals, pipe wrapping, furnace and welding curtains.
Round and Square Ceramic Fiber Braid are also been manufactured by over-braiding around a core of ceramic fiber to receive the maximum resistance to mechanical abuse with a density range of 33-36 PCF. In addition to its superior strength, round and square braids also exhibit minimal unraveling when it is being cut.
Advantages:
Amazing chemical stability and resistance, specially excluding the hydrofluoric & phosphoric acids or you can say concentrated alkalis.
It has very strong resistance to thermal shock and corrosion.
When it is wet by water or steam, thermal properties are completely restored upon drying.
Resistant to oxidation and reduction.
A huge variety of textiles are produced either by converting ceramic blanket or by processing refractory ceramic fibre yarn into woven products. Ceramic fibre textiles are perfectly match for the use of elevated temperatures which is approaching 1400°C, maintaining the flexibility for use in thermal sealing and filling applications in those areas for example door seals, expansion joints and gland packings.
Typical Applications:
Yarn
Cloth
Cabled Rope
Cabled Rope
Rope Lagging
Twisted Rope
Webbing
Ladder Tape
Types Available:
Yarn - It is mainly manufactured from ceramic fibre. This yarn is the main base of all the ceramic textile range of products. The yarn is either strengthen with a glass filament or a fine inconel wire.
Cloth - It is woven from a glass or an inconel wire reinforced yarn.
Cabled Rope (high density) - High density cabled rope is manufactured from yarn which is either filament or inconel wire strengthen. It is made up of 3 pre-twisted stands each of them containing a predetermined multiple of yarns which are twisted together to form a flexible, high density rope.
Twisted Rope - Twisted rope mainly consists of numbers of ceramic yarn strands which can either be glass filament or inconel wire reinforced. They are usually twisted together to give the required final product diameter. This gives a soft rope product which can be also easily compressed and is particularly suitable as a seal between the uneven surfaces.
Webbing - It is woven from either glass or inconel wire reinforced ceramic yarn.
Ladder Tape - In this kind of woven from either glass or inconel reinforced ceramic yarn. it has a similar weave to cloth on the outer edges, but an open weave in the centre allowing for ease of installation over studs. It is perfect as a gasketing material.
Cabled Rope (low density) - Low density cabled rope is manufactured from ceramic roving which is glass filament reinforced. It is made by 3 pre-twisted strands in which each is containing a predetermined multiple of ceramic yarns which is twisted together to form flexible low density rope.
Rope Lagging - Rope lagging consists of a strip of ceramic blanket which is over braided with a glass yarn. The produces a high insulating rope product of medium density, which is also a compressible as well as flexible. An alternative, this product could be overbraided with either a cotton yarn or a fine inconel wire.
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The global ceramic textile market is categorized on the basis of fiber type, end-use industry, foam type, and region. On the basis of fiber type, the global market has been segmented into vitreous alumina-silica ceramic fiber and polycrystalline ceramic fiber. Under vitreous alumina-silica, ceramic fiber has been sub-segmented into refractory ceramic fiber (RCF) and low bio-persistence ceramic fiber.
Browse a overview of this report @ https://www.psmarketresearch.com/market-analysis/ceramic-textile-market
On the basis of foam type, the global ceramic textile market has been segmented into cloth, ropes, tapes, sleeving and braids. The market is expected to showcase positive growth on account of its reliability in terms of contaminating heat in high temperature applications. Developing application in industries such as aerospace and alternative energy is expected to strengthen the ceramic textile market. Ceramic fibers are used in various industrial applications, such as gaskets and insulation.
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Global Ceramic Textiles Market Status and Forecast, by Players, Types and Applications
Ceramic textiles are fabrics impregnated with ceramic. Products made from ceramic materials are often used as components in mechanical and plant engineering processes which require thermal and chemical resistance. These ceramic textile composites can be further mixed with magnetic powders, leading to higher permeability in the product thus developed. Polymer-ceramic composites exhibit high permittivity with restricted loss tangent, depending on the mix ratio. Conductive textiles coated with carbon nanotubes and gold carry promising features to achieve high conductivity and mechanical flexibility, which are critical aspects of load bearing antennas. The strong adhesive bond between the conductive textile and the polymer-ceramic surface aids the creation of flexible, conformal, lightweight ceramic textile products.
Ceramic textiles or ceramic matrix composites are non-brittle refractory materials designed for severe (high corrosive, pressure, temperature, and stress levels) environments. As opposed to structural materials, ceramic textiles are still at a nascent stage but there do exist a few developed and tested ceramic-reinforced textile materials operating in extreme conditions.
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Ceramic textiles or smart fabrics are far more complex than a blend of wools, cottons, and polyesters. Fiber-reinforced ceramics are a key technology employed in the manufacturing of rocket engines. Some of their advantages include low specific weight, high specific strength over a large temperature range, and excellent damage tolerance, especially compared to monolithic ceramics, making them tremendously interesting as a construction material.
Ceramic cloth is touted to be a major market due to the extraordinary properties demonstrated by the textile such as heat insulation and good performance at low temperatures. It has wide applications in welding foundry works, aluminum and steel mills, boiler insulation and seal, shipyards, refineries, power plants, and chemical plants. Its ability to eliminate heat in high temperature applications is anticipated to drive this market, apart from its usage in a range of emerging industries, such as aerospace and alternate energy. Refractory ceramic fiber (RCF) is a prominent segment of the ceramic textile market. RCF is a versatile material which can be spun or blown into bulk, air-laid into a blanket, folded into modules, converted into papers, boards, and shapes, die-cut into gaskets, twisted into yarns, woven into rope and cloth, and blended into liquid binders for mastics and cements. The ceramic textiles market is dominated by industrial end-users including petrochemicals, iron & steel, and other metals.
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The ceramic textile market can be divided into the following segments: alumina-silica ceramic fiber and refractory ceramic fiber in terms of the type of ceramic fiber; ropes, cloth, and tapes by textile type; North America, Europe, Latin America, Asia Pacific, and Middle East & Africa) based on region; and petrochemicals, iron & steel, aluminum, and power generation by end-user.
Asia Pacific is a major, rapidly growing market for ceramic textiles, owing to the infrastructural growth in this region, besides the presence of emerging economies and increasing industrialization. It is followed by North America and Latin America.
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Ceramic Textiles Market 2024 Growth Analysis By Manufacturers, Regions, Type And Application, Forecast Analysis
Ceramic textiles are fabrics impregnated with ceramic. Products made from ceramic materials are often used as components in mechanical and plant engineering processes which require thermal and chemical resistance. These ceramic textile composites can be further mixed with magnetic powders, leading to higher permeability in the product thus developed. Polymer-ceramic composites exhibit high permittivity with restricted loss tangent, depending on the mix ratio. Conductive textiles coated with carbon nanotubes and gold carry promising features to achieve high conductivity and mechanical flexibility, which are critical aspects of load bearing antennas. The strong adhesive bond between the conductive textile and the polymer-ceramic surface aids the creation of flexible, conformal, lightweight ceramic textile products.
Ceramic textiles or ceramic matrix composites are non-brittle refractory materials designed for severe (high corrosive, pressure, temperature, and stress levels) environments. As opposed to structural materials, ceramic textiles are still at a nascent stage but there do exist a few developed and tested ceramic-reinforced textile materials operating in extreme conditions.
Ceramic textiles or smart fabrics are far more complex than a blend of wools, cottons, and polyesters. Fiber-reinforced ceramics are a key technology employed in the manufacturing of rocket engines. Some of their advantages include low specific weight, high specific strength over a large temperature range, and excellent damage tolerance, especially compared to monolithic ceramics, making them tremendously interesting as a construction material.
Ceramic Textiles Market: Dynamics and Trends
Ceramic cloth is touted to be a major market due to the extraordinary properties demonstrated by the textile such as heat insulation and good performance at low temperatures. It has wide applications in welding foundry works, aluminum and steel mills, boiler insulation and seal, shipyards, refineries, power plants, and chemical plants. Its ability to eliminate heat in high temperature applications is anticipated to drive this market, apart from its usage in a range of emerging industries, such as aerospace and alternate energy. Refractory ceramic fiber (RCF) is a prominent segment of the ceramic textile market. RCF is a versatile material which can be spun or blown into bulk, air-laid into a blanket, folded into modules, converted into papers, boards, and shapes, die-cut into gaskets, twisted into yarns, woven into rope and cloth, and blended into liquid binders for mastics and cements. The ceramic textiles market is dominated by industrial end-users including petrochemicals, iron & steel, and other metals.
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Ceramic Textiles Market: Segmentation
The ceramic textile market can be divided into the following segments: alumina-silica ceramic fiber and refractory ceramic fiber in terms of the type of ceramic fiber; ropes, cloth, and tapes by textile type; North America, Europe, Latin America, Asia Pacific, and Middle East & Africa) based on region; and petrochemicals, iron & steel, aluminum, and power generation by end-user.
Ceramic Textiles Market: Region-wise outlook
Asia Pacific is a major, rapidly growing market for ceramic textiles, owing to the infrastructural growth in this region, besides the presence of emerging economies and increasing industrialization. It is followed by North America and Latin America.
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Ceramic Textiles Market to Witness Exponential Growth by 2024
Ceramic textiles are fabrics impregnated with ceramic. Products made from ceramic materials are often used as components in mechanical and plant engineering processes which require thermal and chemical resistance. These ceramic textile composites can be further mixed with magnetic powders, leading to higher permeability in the product thus developed. Polymer-ceramic composites exhibit high permittivity with restricted loss tangent, depending on the mix ratio. Conductive textiles coated with carbon nanotubes and gold carry promising features to achieve high conductivity and mechanical flexibility, which are critical aspects of load bearing antennas. The strong adhesive bond between the conductive textile and the polymer-ceramic surface aids the creation of flexible, conformal, lightweight ceramic textile products.
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Ceramic textiles or ceramic matrix composites are non-brittle refractory materials designed for severe (high corrosive, pressure, temperature, and stress levels) environments. As opposed to structural materials, ceramic textiles are still at a nascent stage but there do exist a few developed and tested ceramic-reinforced textile materials operating in extreme conditions.
Ceramic textiles or smart fabrics are far more complex than a blend of wools, cottons, and polyesters. Fiber-reinforced ceramics are a key technology employed in the manufacturing of rocket engines. Some of their advantages include low specific weight, high specific strength over a large temperature range, and excellent damage tolerance, especially compared to monolithic ceramics, making them tremendously interesting as a construction material.
Ceramic cloth is touted to be a major market due to the extraordinary properties demonstrated by the textile such as heat insulation and good performance at low temperatures. It has wide applications in welding foundry works, aluminum and steel mills, boiler insulation and seal, shipyards, refineries, power plants, and chemical plants. Its ability to eliminate heat in high temperature applications is anticipated to drive this market, apart from its usage in a range of emerging industries, such as aerospace and alternate energy. Refractory ceramic fiber (RCF) is a prominent segment of the ceramic textile market. RCF is a versatile material which can be spun or blown into bulk, air-laid into a blanket, folded into modules, converted into papers, boards, and shapes, die-cut into gaskets, twisted into yarns, woven into rope and cloth, and blended into liquid binders for mastics and cements. The ceramic textiles market is dominated by industrial end-users including petrochemicals, iron & steel, and other metals.
The ceramic textile market can be divided into the following segments: alumina-silica ceramic fiber and refractory ceramic fiber in terms of the type of ceramic fiber; ropes, cloth, and tapes by textile type; North America, Europe, Latin America, Asia Pacific, and Middle East & Africa) based on region; and petrochemicals, iron & steel, aluminum, and power generation by end-user.
Asia Pacific is a major, rapidly growing market for ceramic textiles, owing to the infrastructural growth in this region, besides the presence of emerging economies and increasing industrialization. It is followed by North America and Latin America.
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Key players include Morgan Thermal Ceramics, KEIR Manufacturing Inc., Ibiden Co. Ltd., Luyang Energy-saving Materials Co. Ltd., Kyocera Corporation, Mineral Seal Corporation, Morgan Advanced Materials Plc., Rath Inc., Rauschert Steinbach GmbH, The 3M Company, Unifrax Corporation, Zircar Zirconia, Inc., and Toyo International.
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Blog 2: Part 2
a. Outdoor Winter Activity
I could not participate in the Jack Frost Challenge, but this Reading Week I visited Hecla Grindstone Provincial Park with my family, and we went all-out with the winter activities. The activities I participated in were snow-shoeing, ice fishing, and a winter bonfire! These activities had the effect of making me more relaxed and allowing me to take some time away from studying. My family and I had some much-needed bonding time in between my study sessions, and it brought all of us closer and made us all more happy. The only thing that could have made the experience better would have been those hot-packs that you put in your boots and gloves. Although I dressed very warmly, my hands and feet ended up getting cold quite quickly, even in front of a fire. Other winter activities that I would be interested in participating in, either on campus or elsewhere, would be bird-watching or wildlife tracking. It is very cool to watch the animals that are so well-adapted to the winter weather, and identifying wildlife tracks is easy and fun in the snow. Anyway, here are pictures of my ice fishing adventures. We didn’t catch anything, but it was still a great time!
b. Chemicals in Personal Care Products
I’ve picked three of my personal care products to research via EWG’s Skin Deep Cosmetic Database: Sensodyne Pronamel toothpaste, Nivea Creme, and TRESemme shampoo.
I use Sensodyne Pronamel toothpaste for sensitive teeth, and it has an EWG rating of 3. Overall, the ingredient hazards are low to moderate. The most concerning were the “use restrictions” on some of the ingredients such as stannous fluoride and glycerine. As well, there is a concern about allergies and immunotoxicity in this product due to the ingredient cocamidopropyl bentaine. In addition to allergies and immunotoxicity concerns, there is also a concern about contamination of the ingredient and ecotoxicological effects on the environment. Organ-system toxicity shows up as a concern for many ingredients such as PEG-8 and titanium dioxide. As well, persistence and bioaccumulation is a concern in the ingredient hydrated silica. Although most of these concerns are low, and there is no evidence of carcinogens or endocrine disruptors, I find it shocking to see the possible concerns that surround the ingredients of toothpaste. In particular, it is concerning to me that there are ecotoxicological effects, especially since toothpaste is going down the drain and possibly into waterways.
I have used Nivea Creme for basically everything, including on my hands, feet, and face as a whole-body moisturizer since I was a baby. It is shocking to me that the EWG rating is 4, and that some of the ingredients have very high ratings signifying highly hazardous chemicals. Overall, there is a low risk of carcinogens, but there still is a risk. For both allergies/immunotoxicity and use restrictions, there is a moderate to high hazard concern. The fragrance ingredient has a very high hazard of 8, and its main concerns are allergies/immunotoxicity, skin/eye/lung irritation, organ system toxicity, and ecotoxicology. The ingredient methylisothiazolinone also has a high hazard rating of 7, with concerns that include neurotoxicity. Another hazardous ingredient is methylchloroisothiazolinone, which is concerning due to its capability of causing cancer, among other concerns. An interesting ingredient in Nivea with a moderate hazard rating is petrolatum. This ingredient is hazardous in part because there are contamination concerns with PAHs. I know that these are polycyclic aromatic hydrocarbons and that they persist in the environment and inside organisms from our discussions in class about them. The EWG website states that there is a concern about PAHs as carcinogens and endocrine disruptors due to bioaccumulation in wildlife and humans. This is especially concerning because the EWG website states that PAHs are prohibited and restricted in Canada, and yet there is a possibility of contamination in the ingredients of Nivea Creme. I don’t know if this will stop me from using Nivea Creme, but it definitely makes me more cautious about what products I buy in the future.
Well, it seems as though my personal care products keep getting worse and worse. TRESemme shampoo has a EWG hazard rating of 5. This means that it is of medium concern, approaching high concern. There is once again very high hazards surrounding the fragrance ingredient, where there are concerns about allergies/immunotoxicity, skin/eye/lung irritation, organ system toxicity, and ecotoxicology. Methylisothiazolinone and methylchloroisothiazolinone are again found in this shampoo just as in Nivea Creme, introducing concerns about neurotoxicity and cancer. Other ingredients of concern are DMDM hydantoin and imidazolidinyl urea, which are both termed “formaldehyde releasers.” This creates medium-high concerns that there is formaldehyde as a contaminant because of these ingredients. The EWG website states that formaldehyde is used as an anti-microbial, but exposure can cause severe allergies towards this substance.
The information that I have read about the hazards in my personal care products is shocking, but not completely surprising considering all the chemicals we read in ingredients list that are almost impossible to recognize unless you are a chemist. I’m glad that the EWG website exists, because now I can check my other personal care products and see where I can make changes to healthier products.
c. One-week Purchase Analysis
For the week of Feb. 26 to March 4, I made four different purchases: two food items and two non-food items. These are: a Tim Horton’s mug, a shirt from Columbia Sportswear, a Starbucks green tea Frappuccino, and a bubble milk tea from Panda Tea.
To place my purchases into the categories of “Good,” “Bad,” and “Ugly,” I will use the screening criteria of where the product was made or where the ingredients were made (to see environmental and social impacts), and how mush waste is made to produce each product, including the waste produced by using the product.
First, I want to go over where the various items were made. My Tim’s mug was made in China, so even though Tim’s is seen as a very Canadian brand, it’s definitely not locally sourced. As well, it is almost impossible to tell what the social impacts are: for example, if the workers making the mugs are being paid fairly or not is unknown. For my Starbucks Frappuccino, it has been difficult to find the origins of every single ingredient, but the major ingredient would be the Matcha Green Tea Powder, which Starbucks lists as coming from Japan on their website. Although this is obviously not a locally made product, Starbucks is part of the Ethical Tea Partnership and so 65% of their tea products are ethically sourced, with the goal of having them 100% ethically sourced by 2020. Therefore, Starbucks seems to have a positive social impact. My Columbia shirt was made in Sri Lanka, and despite the social problems that often come from large clothing companies having their apparel made in sweatshops, Columbia is listed as an exporter on the Sri Lanka Export Development Board website. The SLEDB website claims that fair wages are being paid and even that many businesses are involved in LEED, which is a green building standard that we talked about in class. So, for now, I’ll give Columbia the benefit of the doubt because I could not find any evidence for poor conditions in Columbia clothing factories. As for my bubble tea, it has been extremely difficult finding out where Panda Tea gets its ingredients and materials. My main interest is in the bobas (bubbles) in the tea which are made from tapioca. According to the website http://garden.lovetoknow.com, tapioca comes from the cassava root, which is mainly grown now in Brazil, Nigeria, and Thailand. It states that the cassava plant is very hardy and drought resistant, and provides a reliable source of food as well as income to those who grow it due to the rising popularity of tapioca. So, although the ingredients have to travel long distances, some of them may have positive social impacts.
Now I’d like to discuss the waste produced by each product and the resources used to make them. For my Tim Horton’s mug, although ceramic is a great alternative to using paper cups, the website Green Lifestyle states that ceramic mugs take a lot of energy to make because kilns needed to be super-heated. So even though ceramic mugs reduce waste from disposable cups, they need to be used many times to offset the resource requirements for making ceramics. Now shifting to Starbucks, I use a reusable cold cup for my Frappuccinos so I have eliminated plastic waste on my end. Further research on the Starbucks website shows that they are working on initiatives for recycling, water conservation, energy conservation, building greener stores, and lowering their Ecological Footprint. As for Columbia Sportswear, I took a look at the clothing tag, and my shirt is made from cotton and polyester. According to the website Green Living, since cotton is a natural fiber, it can be environmentally friendly since it is a renewable resource. However, if the cotton is not certified organic, there can be many pesticides going into its growth. Since Columbia is not certified eco-friendly in any way, I’m assuming that its cotton is not organic. As well, polyester is a petroleum by-product of processing oil, so it is definitely not environmentally friendly. Lastly, for my bubble tea from Panda Tea, my main concern is how much plastic comes from the consumption of bubble teas. All of the cups, straws, and lids are plastic and end up in the garbage, and Panda Tea doesn’t offer any reusable alternatives.
Based on the information I’ve gathered above, I’m placing my Starbucks Frappuccino in the “Good” category because of their environmental and socially ethical initiatives. My Tim Horton’s mug is being placed into the “Ugly” category for being made so far away in China, and for ceramic being resource-intensive. I am placing both my Columbia shirt and Bubble Tea in the “Bad” category because Columbia uses environmentally unfriendly clothing fibers and Panda Tea produces much plastic waste. Although there may be some truth about Columbia having fair wages in Sri Lanka and the positives of growing cassava root for tapioca, there is limited information available for the environmental and impacts of these companies. Dollar values spent in each category: $5 in “Good,” $30 in “Bad,” and $8 in “Ugly.”
This result was not what I expected. I thought that my shirt and my mug would be the most eco-friendly, because Columbia is an outdoor-wear company, and Tim’s is Canadian. However, seeing this information, there are definitely changes that I’d like to make. First, I would like to email and inquire to Panda Tea where they get their ingredients from and if they would consider selling reusable cups. Second, I’d like to try and stop buying clothing that uses environmentally unfriendly fibers, and look for something like hemp or even alpaca fleece, as suggested by the Green Living website. Third, I would like to buy my products more locally. Something that all the products I bought have in common is that none are even made in Canada. The distance that they have to travel and the emissions that are produced are large factors in the impacts they create. Overall, I hope to make the change of being more aware of what I am purchasing.
d. E-waste
I feel as though the problem of Electronic Waste is a fairly modern issue arising as people more frequently buy new versions of cellphones, laptops, and tablets. I am currently on my third cellphone, which is my second iPhone. My family is big on using the electronics that still work and not throwing them away, so my very first flip-phone now belongs to my mom, and soon she is going to switch to using my older iPhone. In terms of planning our future purchases, we do not buy new electronics often. I buy a new phone about very 5 years, my parents have shared their iPad for about 8 years, and we’ve had our desktop Mac for upwards of 10 years. We essentially plan to only buy new electronics when our current ones die completely.
Before researching E-waste recycling, I would have answered this question by saying that our electronics will end up in a landfill just like regular waste. However, after researching, I have found out that Winnipeg has electronic waste recycling initiatives and even specific programs for recycling cellphones! The website http://www.winnipeg.ca/waterandwaste/garbage/electronics.stm has a comprehensive list of electronic items that can be recycled by dropping them off at a 4R Winnipeg depot or an EPRA drop-off location in the city. As well, the City of Winnipeg outlines the reason why electronics should be recycling in a responsible manner: heavy metals. The presence of cadmium, lead, and mercury in many electronics makes leaving them in a landfill dangerous for the environment.
In addition, the City of Winnipeg provides a link to Canada’s Recycle My Cell program, found at https://www.recyclemycell.ca. After searching for drop-off locations around Winnipeg, I’ve found that the majority of electronics stores and cell service providers around Winnipeg will take cellphones to be recycled. Recycle My Cell and Recycle My Electronics (https://www.recyclemyelectronics.ca/) have even provided a step-by-step guide to wiping electronics in order to protect your own personal information. Recycle My Electronics goes through the entire “Journey of End-of-Life Electronics” to show what happens, and the resources that can be saved and extracted, when electronics such as cellphones are recycled.
Researching these options for my E-waste has given me the ability to know the proper way of electronic disposal, and plan how my family can deal with old electronics in the future. Now I can be sure that my E-waste is not damaging the environment!
Sources:
Blackburn, Rebecca. “Disposable Coffee Cups vs Ceramic Mugs.” Green Lifestyle: Simple Sustainable Living, Green Lifestyle, 9 Apr. 2009, www.greenlifestylemag.com.au/features/1017/disposable-coffee-cups-vs-ceramic-mugs.
“Environmental Stewardship.” Starbucks' Social Responsibility and Sustainability, Starbucks Coffee Company, 2018, www.starbucks.ca/responsibility/environment.
“Nivea Creme.” Skin Deep Cosmetics Database, EWG, July 2013, http://www.ewg.org/skindeep/product/523506/Nivea_Creme_%28old_formulation%29/#.WqCxM4JG3Vo.
Patterson, Susan. “Tapioca Plants.” Home and Garden, LoveToKnow, 2018, garden.lovetoknow.com/tapioca-plants.
“Recycle My Cell.” Recycle My Cell, Canadian Wireless Telecommunications Association, 2018, www.recyclemycell.ca/.
“Recycle My Electronics Manitoba.” Recycle My Electronics, Electronic Products Recycling Association, 2017, www.recyclemyelectronics.ca/mb/.
Stapley-Ponikowski, Marissa. “A Guide to Natural and Eco-Friendly Fabrics.” Green Living, Green Living Enterprises , 2018, www.greenlivingonline.com/article/guide-natural-and-eco-friendly-fabrics.
“Sensodyne ProNamel.” Skin Deep Cosmetics Database, EWG, July 2016, http://www.ewg.org/skindeep/product/465972/Sensodyne_ProNamel_Gentle_Whitening_Toothpaste_for_Sensitive_Teeth/#.WqCyuIJG3Vo.
“Sustainability and Ethical Practices.” Sri Lanka Export Development Board, Ministry of Development Strategies and International Trade, 2018, www.srilankabusiness.com/apparel/sustainability-and-ethical-practices.html.
“TRESemme Shampoo.” Skin Deep Cosmetics Database, EWG, July 2016, http://www.ewg.org/skindeep/product/691447/TRESemme_Color_Revitalize_Shampoo/#.WqCzyIJG3Vo.
Water and Waste Department of Winnipeg. “Electronic Waste (e-Waste).” Electronic Waste - Garbage That Needs Special Handling, City of Winnipeg, 15 Dec. 2016, www.winnipeg.ca/waterandwaste/garbage/electronics.stm.
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Abrasives Market Is Projection To Reach $59.34 Billion By 2025: Grand View Research, Inc.
The global Abrasives Market size is expected to reach USD 59.34 billion by 2025, according to a new report by Grand View Research, Inc., exhibiting a CAGR of 5.9% during the forecast period. Abrasive materials are used for grinding and polishing a substrate such as wood and metal. They are available in natural or synthetic form and possess properties such as purity, hardness, and brittleness.
Synthetic products are less expensive and perform the grinding and polishing process much better and faster than the natural ones, thus reducing the overall cost. It is for this reason artificial materials are gaining an edge over the natural ones, which include garnet, corundum, and emery.
Aluminum oxide, cubic carbon nitride, and synthetic diamond are various grains used for abrasive production. Several types of minerals, glues, resins, and backings are used to produce different products. These minerals are bonded with various agents and are deposited on cloth or paper to form coated abrasives. Superabrasives are another type of products that are used when hard materials require high quality surface finish.
Leading manufacturers include Noritake Co., Inc, Saint-Gobain S.A., The 3M Company, Henan Huanghe Whirlwind Co., Ltd, and TYROLIT Schleifmittelwerke Swarovski K.G. They manufacture products to serve various end-user sectors such as aerospace, automotive, oil & gas, retail, and furniture & wood working markets.
Browse Research Report on Abrasives Market:
www.grandviewresearch.com/industry-analysis/abrasives-market
Further key findings from the report suggest:
The global abrasives market stood at 11.78 million tons in 2016. In terms of volume, the market is projected to expand at a CAGR of 4.5% during the forecast period.
The metal fabrication sector is estimated to register the highest CAGR of 5.2% in terms of volume during the forecast period.
In the North America and Europe regions, global manufacturers currently meet the demand for abrasives in high-end precision rolling and grinding. Rapid expansion of the market is providing lucrative opportunities for new entrants having technical expertise.
Asia Pacific is expected to be the most promising region during the forecast period, holding over 55.0% of the total revenue by 2025. However, government norms in the region pertaining to the use of silica abrasives is likely to challenge the growth of the region.
Saint-Gobain S.A. Asahi Diamond Industrial Co. Ltd, and The 3M Company are some of the manufacturers of superabrasive products.
View more reports of this category by Grand View Research at
www.grandviewresearch.com/industry/specialty-glass-ceramic-and-fiber
Grand View Research has segmented the global abrasives market on the basis of type, material, end use, and region.
Abrasives Market Type Outlook (Volume, Kilotons; Revenue, USD Million, 2014 - 2025)
Bonded
Coated
Superabrasives
Abrasives Market Material Outlook (Volume, Kilotons; Revenue, USD Million, 2014 - 2025)
Natural
Synthetic
Abrasives Market End Use Outlook (Volume, Kilotons; Revenue, USD Million, 2014 - 2025)
Automotive
Machinery
Metal Fabrication
Electronic & Electrical Equipment
Others
Abrasives Market Regional Outlook (Volume, Kilotons; Revenue, USD Million, 2014 - 2025)
North America
Europe
Asia Pacific
South & Central America
Middle East & Africa
U.S.
Germany
U.K.
China
India
Brazil
Saudi Arabia
View press release of this research report by Grand View Research:
www.grandviewresearch.com/press-release/global-abrasives-market
About Grand View Research
Grand View Research, Inc. is a U.S. based market research and consulting company, registered in the State of California and headquartered in San Francisco. The company provides syndicated research reports, customized research reports, and consulting services. To help clients make informed business decisions, we offer market intelligence studies ensuring relevant and fact-based research across a range of industries, from technology to chemicals, materials, and healthcare.
For more information: www.grandviewresearch.com
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