Economic importance

Economic importance

In the course of time and during their development, adhesives have gained a stable position in an increasing number of production processes. There is hardly any product in our surroundings that does not contain at least one adhesive – be it the label on a beverage bottle, protective coatings on automobiles or profiles on window frames. Market researchers forecast a turnover of almost US$50 billion for the global adhesives market in 2019. Especially the dynamic economic development in emerging countries such as China, India, Russia or Brazil will cause a rising demand for adhesives in the future.

Mesh

Mesh
       Mesh consists of semi-permeable barrier made of connected strands of metal, fiber, or other flexible/ductile material. Mesh is similar to web or net in that it has many attached or woven strands Types of mesh A plastic mesh is extruded, oriented, expanded or tubular. Plastic mesh can be made from polypropylene, polyethylene, nylon, PVC or PTFE. A metal mesh can be woven, knitted, welded, expanded, photo-chemically etched or electroformed (screen filter) from steel or other metals.In clothing, a mesh is often defined as a loosely woven or knitted fabric that has a large number of closely spaced holes, frequently used for modern sports jerseys and other clothing. A mesh skin graft is a skin patch that has been cut systematically to create a mesh. Meshing of skin grafts provides coverage of a greater surface area at the recipient site, and also allows for the egress of serous or sanguinous fluid. However, it results in a rather pebbled appearance upon healing that may ultimately look less aesthetically pleasing. Uses of meshes Meshes are often used to screen out unwanted things, such as insects. Wire screens on windows and mosquito netting can be considered as types of meshes. Wire screens can be used to shield against radio frequency radiation, e.g. in microwave ovens and Faraday cages. Metal and nylon wire mesh filters are used in filtration Wire mesh is used in guarding for secure areas and as protection in the form of vandal screens. Wire mesh can be fabricated to produce park benches, waste baskets and other baskets for material handling. A huge quantity of mesh is being used for screen printing work. Surgical mesh is used to provide a reinforcing structure in surgical procedures like inguinal hernioplasty, and umbilical hernia repair. Meshes are also used as drum heads in practice and electronic drum sets.

High temperature insulation

High temperature insulation Calcium silicate
    Calcium silicate (often referred to by its shortened trade name Cal-Sil or Calsil) is the chemical compound Ca2SiO4, also known as calcium orthosilicate and sometimes formulated 2CaO.SiO2. It is one of group of compounds obtained by reacting calcium oxide and silica in various ratios[3] e.g. 3CaO•SiO2, Ca3SiO5; 2CaO•SiO2, Ca2SiO4; 3CaO•2SiO2, Ca3Si2O7 and CaO•SiO2, CaSiO3. Calcium orthosilicate is a white powder with a low bulk density and high physical water absorption. It is used as an anti-caking agent and an antacid. A white free-flowing powder derived from limestone and diatomaceous earth, calcium silicate has no known adverse effects to health[citation needed]. It is used in roads, insulation, bricks, roof tiles, table salt[4] and occurs in cements, where it is known as belite (or in cement chemist notation C2S).


High temperature insulation
   Calcium silicate is commonly used as a safe alternative to asbestos for high temperature insulation materials. Industrial grade piping and equipment insulation is often fabricated from calcium silicate. Its fabrication is a routine part of the curriculum for insulation apprentices. Calcium silicate competes in these realms against rockwool as well as proprietary insulation solids, such as perlite mixture and vermiculite bonded with sodium silicate. Although it is popularly considered an asbestos substitute, early uses of calcium silicate for insulation still made use of asbestos fibers.

Natural adhesives

Natural adhesives
      Natural adhesives are made from organic sources such as vegetable matter, starch (dextrin), natural resins or from animals e.g. casein or animal glue. They are often referred to as bioadhesives. One example is a simple paste made by cooking flour in water. Animal glues are traditionally used in bookbinding, wood joining, and many other areas but now are largely replaced by synthetic glues. Casein is mainly used to adhere glass bottle labels. Starch based adhesives are used in corrugated board production and paper sack production, paper tube winding, and wall paper adhesives. Masonite, a wood hardboard, was bonded using natural lignin, (although most modern MDF particle boards use synthetic thermosetting resins). Another form of natural adhesive is blood albumen (made from protein component of blood), which is used in the plywood industry. Animal glue remains the preferred glue of the luthier. Casein based glues are made by precipitating casein from milk protein using the acetic acid from vinegar. This forms curds, which are neutralized with a base, such as sodium bicarbonate (baking soda), to cause them to unclump and become a thicker plastic-like substance

Synthetic adhesives

Synthetic adhesives
     Synthetic adhesives are based on elastomers, thermoplastics, emulsions, and thermosets. Examples of thermosetting adhesives are: epoxy, polyurethane, cyanoacrylate and acrylic polymers. See also post-it notes. The first commercially produced synthetic adhesive was Karlsons klister in the 1920s.

Aluminium

Aluminium ( /ˌæljuːˈmɪniəm/ al-ew-min-ee-əm) or aluminum (American English;  /əˈluːmɪnəm/ ə-loo-mi-nəm) is a chemical element in the boron group with symbol Al and atomic number 13. It is silvery white, and it is not soluble in water under normal circumstances.
Aluminium is the third most abundant element (after oxygen and silicon), and the most abundant metal, in the Earth's crust. It makes up about 8% by weight of the Earth's solid surface. Aluminium metal is so chemically reactive that native specimens are rare and limited to extreme reducing environments. Instead, it is found combined in over 270 different minerals.[6] The chief ore of aluminium is bauxite.
Aluminium is remarkable for the metal's low density and for its ability to resist corrosion due to the phenomenon of passivation. Structural components made from aluminium and its alloys are vital to the aerospace industry and are important in other areas of transportation and structural materials. The most useful compounds of aluminium, at least on a weight basis, are the oxides and sulfates.
Despite its prevalence in the environment, aluminium salts are not known to be used by any form of life. In keeping with its pervasiveness, aluminium is well tolerated by plants and animals.[7] Owing to their prevalence, potential beneficial (or otherwise) biological roles of aluminium

Masonry heater

          A masonry heater (or masonary stove, ceramic stove, tile stove) is a device for warming an interior space by capturing the heat from periodic burning of fuel (usually wood), and then radiating the heat at a fairly constant temperature for a long period . The technology has existed in different forms: from the Roman hypocaust to the Austrian/German kachelofen. The hypocaust is a system for heating the floors and walls of buildings (especiallybaths) using the smoke and exhaust of a single fire. In Eastern and Northern Europe and North Asia, these kachelofens (or steinofens) evolved in many different forms and names: for example the Russian Stove/Fireplace (Russian: Русская печь), the Finnish Stove (in Finnish: pystyuuni or kaakeliuuni, "tile oven") and the Swedish Stove (in Swedish: kakelugn, "tile stove" or "contra-flow stove") associated with Carl Johan Cronstedt. The Chinese developed the same principle into their Kang bed-stove. The masonry heater has gained renewed domestic popularity recently because of its heating efficiency.


Thank for Info : http://en.wikipedia.org

Porcelain tile

          Porcelain tiles are ceramic tiles with a water absorption rate of less than 0.5 percent that are used to cover floors and walls. They can either be unglazed or glazed.

          The hardness of the tile is rated from zero to five according to the ASTM C1027 (or ISO 10545-7) test for surface abrasion resistance of glazed tile. This rating, (sometimes mistakenly called the PEI rating) determines the tiles suitability for various end use conditions.

          Large-scale production of porcelain tile is undertaken in many countries, with the major producers being China, Italy, Spain and Turkey. There are also countries undertaking small-scale production, such as Australia and strong growth in developing countries such as Brazil.

         Porcelain Tile is also a very common trend in tile installation. There are many different styles of porcelain tiles on the market and they have proved to outperform ceramic tile in durability and looks.

          It is important to note that the differences of the body of the porcelain tile, as it relates to ceramic tile, has caused many "job failures" of tile installations. Tile setters that are self trained and novices to the industry will often use cements or mastic to install the impervious body of the porcelain tile to a substrate only to have delamination occur rather quickly. Highly Modified cements are necessary for installation of this material due to the very qualities that make it such a durable long lasting decorative surface. Those specifications are determined by and dictated as industry standards by the Tile Council of America, and supported by the Tile Contractors Association.

Thank for Info : http://en.wikipedia.org

Silicon nitride

          Silicon nitride is a chemical compound of silicon and nitrogen. If powdered silicon is heated between 1300 °C and 1400 °C in an atmosphere of nitrogen, trisilicon tetranitride, Si₃N₄ is formed. The silicon sample weight increases progressively due to the chemical combination of silicon and nitrogen. Without an iron catalyst, the reaction is complete after several hours (~7), when no further weight increase due to nitrogen absorption (per gram of silicon) is detected. In addition to Si₃N₄, several other silicon nitride phases (with chemical formulas corresponding to varying degrees of nitridation/Si oxidation state) have been reported in the literature, for example, the gaseous disilicon mononitride (Si₂N); silicon mononitride (SiN), and silicon sesquinitride (Si₂N₃), each of which are stoichiometric phases. As with other refractories, the products obtained in these high-temperature syntheses depends on the reaction conditions (e.g. time, temperature, and starting materials including the reactants and container materials), as well as the mode of purification. However, the existence of the sesquinitride has since come into question.

The Si₃N₄ phase is the most chemically inert (being decomposed by dilute HF and hot H₂SO₄). It is also the most thermodynamically stable of the silicon nitrides. Hence, Si₃N₄ is the most commercially important of the silicon nitrides and is generally understood as what is being referred to where the term "silicon nitride" is used.

          Silicon nitride (i.e. Si₃N₄) is a hard ceramic having high strength over a broad temperature range, moderate thermal conductivity, low coefficient of thermal expansion, moderately high elastic modulus, and unusually high fracture toughness for a ceramic. This combination of properties leads to excellent thermal shock resistance, ability to withstand high structural loads to high temperature, and superior wear resistance. Silicon nitride is mostly used in high-endurance and high-temperature applications, such as gas turbines, car engine parts, bearings and metal working and cutting tools. Silicon nitride bearings are used in the main engines of the NASA's Space shuttles. Thin silicon nitride films are a popular insulating layer in silicon-based electronics and silicon nitride cantilevers are the sensing parts of atomic force microscopes.

Thank for Info : http://en.wikipedia.org

Refractory metals

          Refractory metals are a class of metals that are extraordinarily resistant to heat and wear. The expression is mostly used in the context of materials science, metallurgy and engineering. The definition of which elements belong to this group differs. The most common definition includes five elements: two of the fifth period (niobium andmolybdenum) and three of the sixth period (tantalum, tungsten, and rhenium). They all share some properties, including a melting point above 2000 °C and high hardness at room temperature. They are chemically inert and have a relatively high density. Their high melting points make powder metallurgy the method of choice for fabricatingcomponents from these metals. Some of their applications include tools to work metals at high temperatures, wire filaments, casting molds, and chemical reaction vessels in corrosive environments. Partly due to the high melting point, refractory metals are stable against creep deformation to very high temperatures.


Thank for Info : http://en.wikipedia.org

Oil shale

Oil shale

          Oil shale, also known as kerogen shale, is an organic-rich fine-grained sedimentary rock containing kerogen (a solid mixture of organic chemical compounds) from which liquid hydrocarbons called shale oil (not to be confused with tight oil—crude oil occurring naturally in shales) can be produced. Shale oil is a substitute for conventional crude oil; however, extracting shale oil from oil shale is more costly than the production of conventional crude oil both financially and in terms of its environmental impact. Deposits of oil shale occur around the world, including major deposits in the United States of America. Estimates of global deposits range from 2.8 to 3.3 trillion barrels (450×10⁹ to 520×10⁹ m³) of recoverable oil.

          Heating oil shale to a sufficiently high temperature causes the chemical process of pyrolysis to yield a vapor. Upon cooling the vapor, the liquid shale oil—an unconventional oil—is separated from combustible oil-shale gas (the term shale gas can also refer to gas occurring naturally in shales). Oil shale can also be burnt directly in furnaces as a low-grade fuel for power generation and district heating or used as a raw material in chemical and construction-materials processing.

          Oil shale gains attention as a potential abundant source of oil whenever the price of crude oil rises. At the same time, oil-shale mining and processing raise a number of environmental concerns, such as land use, waste disposal, water use, waste-water management, greenhouse-gas emissions and air pollution. Estonia and China have well-established oil shale industries, and Brazil, Germany, Russia also utilize oil shale.

          Oil shales differ from oil-bearing shales, shale deposits which contain petroleum (tight oil) that is sometimes produced from drilled wells. Examples of oil-bearing shales are the Bakken Formation, Pierre Shale, Niobrara Formation, and Eagle Ford Formation.

Thank for Info : http://en.wikipedia.org

Thermal insulation

Thermal insulation

          Thermal insulation is the reduction of heat transfer between objects in thermal contact or in range of radiative influence. Heat transfer is the transfer of thermal energy between objects of differing temperature. The means to stem heat flow may be especially engineered methods or processes, as well as suitable static objects and materials.

Heat flow is an inevitable consequence of contact between objects of differing temperature. Thermal insulation provides a means to maintain a gradient of temperature, by providing a region of insulation in which heat flow is reduced or thermal radiation is reflected rather than absorbed.

          In building construction, insulating materials are assigned a quantitative measure of the insulating capability, called the R-value.

         In thermal engineering of insulating systems for ovens, reactors, and furnaces, thermal conductivity (K), product density and specific heat (C) are the key product characteristics, which influence insulating efficiency, such as acolodet insulating.

Low thermal conductivity (K) is analogous to high insulating capability (R).

          Aerogels, microporous silica and ceramic fiber insulation are three best performing insulators for applications between 200 Celsius and 2000 Celsius. Zirconia fibers have the lowest thermal conductivity of all ceramic fiber products and are used in applications up to 2000 Celsius.

Thank for Info : http://en.wikipedia.org

Filtration

Filtration

         Filtration is commonly the mechanical or physical operation which is used for the separation of solids from fluids (liquids or gases) by interposing a medium through which only the fluid can pass. Oversize solids in the fluid are retained, but the separation is not complete; solids will be contaminated with some fluid and filtrate will contain fine particles (depending on the pore size and filter thickness). Filtration is also used to describe some biological processes, especially in water treatment and sewage treatment in which undesirable constituents are removed by absorption into a biological film grown on or in the filter medium.


Thank for Info : http://en.wikipedia.org

REFRACTORY CASTABLES

REFRACTORY CASTABLES

Refractory castables can be used to create the monolithic linings within all types of furnaces and kilns. They can be further classified into the following sub-categories: conventional, low iron, low cement, and insulating for installation either by gunning or manually. There is a wide variety of raw materials that refractory castables are derived from, including chamotte, andalusite, bauxite, mullite, corundum, tabular alumina, silicon carbide, and both perlite and vermiculite can be used for insulation purposes.

CONVENTIONAL DENSE CASTABLES

Conventional dense castables are created with high alumina cement, and can withstand temperatures from 1300^oC to 1800^oC. These refractory castables are great for common furnace applications, burner blocks, speciality muffle furnaces and oiler work. Resistance is a key quality that varies with the choice of materials, resulting in abrasion, thermal shock and slag attack. Casting and gunning techniques are the method of installing the materials. For the ease of castable placement, gunning materials and water are combined together at the gunning equipment’s nozzle. This is a great method of placement for bulk materials, in cases when circumstances make formwork overly time consuming or simply impractical. In general, the method of installation will depend on cost and accessibility.

INSULATING CASTABLES

Another product that we supply is the Refractory castables that are low density. These insulating castables pose very low thermal conductivity and are utilized for either high temperature face work or when used for a backup lining, which is found behind dense castables or brick work. Here, the insulating castables are able to decrease the lining’s overall density or the cold face temperature. Their strength, which ranges from low to medium, is based on the fact that their density is low and is the main reason that they are not resistant to abrasion. They are most suitable where they do not have to stand up to much wear and tear.

LOW CEMENT CASTABLES

This type of refractory castable is prepared with a lower amount of cement than the standard dense castable is normally created with. Low cement castable refractories fluctuate in alumina content, which provides exceptional physical properties, including low porosity, great abrasion properties and high vigour. These products will commonly necessitate installation that is controlled, however, the big advantage of low cement castables is that they are easily pumped into position, and some may not require vibration, because they are free flowing.

Thank Infomation From : http://www.vitcas.com/

REFRACTORY CASTABLES

REFRACTORY CASTABLES

Refractory castables can be used to create the monolithic linings within all types of furnaces and kilns. They can be further classified into the following sub-categories: conventional, low iron, low cement, and insulating for installation either by gunning or manually. There is a wide variety of raw materials that refractory castables are derived from, including chamotte, andalusite, bauxite, mullite, corundum, tabular alumina, silicon carbide, and both perlite and vermiculite can be used for insulation purposes.

CONVENTIONAL DENSE CASTABLES

Conventional dense castables are created with high alumina cement, and can withstand temperatures from 1300^oC to 1800^oC. These refractory castables are great for common furnace applications, burner blocks, speciality muffle furnaces and oiler work. Resistance is a key quality that varies with the choice of materials, resulting in abrasion, thermal shock and slag attack. Casting and gunning techniques are the method of installing the materials. For the ease of castable placement, gunning materials and water are combined together at the gunning equipment’s nozzle. This is a great method of placement for bulk materials, in cases when circumstances make formwork overly time consuming or simply impractical. In general, the method of installation will depend on cost and accessibility.

INSULATING CASTABLES

Another product that we supply is the Refractory castables that are low density. These insulating castables pose very low thermal conductivity and are utilized for either high temperature face work or when used for a backup lining, which is found behind dense castables or brick work. Here, the insulating castables are able to decrease the lining’s overall density or the cold face temperature. Their strength, which ranges from low to medium, is based on the fact that their density is low and is the main reason that they are not resistant to abrasion. They are most suitable where they do not have to stand up to much wear and tear.

LOW CEMENT CASTABLES

This type of refractory castable is prepared with a lower amount of cement than the standard dense castable is normally created with. Low cement castable refractories fluctuate in alumina content, which provides exceptional physical properties, including low porosity, great abrasion properties and high vigour. These products will commonly necessitate installation that is controlled, however, the big advantage of low cement castables is that they are easily pumped into position, and some may not require vibration, because they are free flowing.

Refractory Castable

คอนกรีตทนไฟ (อังกฤษ: Refractory Castable) เป็นวัสดุทนไฟประเภทหนึ่ง ที่มีลักษณะและวิธีการใช้งานคล้ายกับคอนกรีตที่ใช้ในงานก่อสร้าง แต่เนื้อวัสดุที่นำมาใช้ผลิตเป็นคอนกรีตทนไฟ จะเป็น Refractory Material ซึ่งรวมถึง เม็ดวัตถุดิบหยาบ (Aggregate) และ สารประสาน (Binder) ซึ่งมักจะเป็น High Alumina Cement

[แก้]ประเภทของคอนกรีตทนไฟ

คอนกรีตทนไฟ สามารถแบ่งเป็นประเภทได้โดยเกณฑ์ที่แตกต่างกัน เช่น

1.แบ่งตามปริมาณ แคลเซียมออกไซด์ (CaO) ที่เป็นองค์ประกอบในเนื้อผลิตภัณฑ์ ได้ดังนี้

1.Conventional Castable เป็นคอนกรีตทนไฟ ที่มีปริมาณองค์ประกอบ CaO อยู่ในปริมาณสูง กว่า 2%

2. Low Cement Castable เป็นคอนกรีตทนไฟ ที่มีปริมาณองค์ประกอบ CaO อยู่ในกระมาณต่ำกว่า 2%

3. Cementless Castable เป็นคอนกรีตทนไฟ ที่มีปริมาณองค์ประกอบ CaO ต่ำกว่า 0.2%

แบ่งตามลักษณะในการติดตั้ง

1. Vibrating Castable คอนกรีตทนไฟ ที่ติดตั้ง โดยการหล่อแบบ โดยใช้การเขย่าช่วย

2. Self flow Casatble คอนกรีตทนไฟ ที่ติดตั้ง โดยการหล่อแบบ โดยใช้การ

3. Gunning Material คอนกรีตทนไฟ ที่ติดตั้ง โดยการใช้เครื่องยิง

1. Wet Gunning Material คอนกรีตทนไฟ ที่ติดตั้งโดยใช้เครื่องยิง โดยต้องทำการผสมกับน้ำให้เข้ากันก่อนนำไปติดตั้งโดยใช้เครื่องยิง

2. Dry Gunning Material คอนกรีตทนไฟ ที่ติดตั้งโดยใช้เครื่องยิง โดยไม่ต้องผสมกับน้ำก่อนนำไปใช้งาน

ผลิตภัณฑ์จะมีลักษณะเป็นผงแห้ง จะถูกบรรจุเข้าในเครื่องยิง แล้วจะถูกอัดด้วยแรงดันลม ไปตามท่อยาง จนถึงหัวยิง (Nozzle)โดยจะมีจุดเชื่อมต่อกับท่อน้ำที่ปลายท่อยิง ผลิตภัณฑ์จะผสมกับน้ำที่ ปลายท่อยิง ก่อนจะถูกยิงออกไป

Refractory Castable

คอนกรีตทนไฟ (อังกฤษ: Refractory Castable) เป็นวัสดุทนไฟประเภทหนึ่ง ที่มีลักษณะและวิธีการใช้งานคล้ายกับคอนกรีตที่ใช้ในงานก่อสร้าง แต่เนื้อวัสดุที่นำมาใช้ผลิตเป็นคอนกรีตทนไฟ จะเป็น Refractory Material ซึ่งรวมถึง เม็ดวัตถุดิบหยาบ (Aggregate) และ สารประสาน (Binder) ซึ่งมักจะเป็น High Alumina Cement

[แก้]ประเภทของคอนกรีตทนไฟ

คอนกรีตทนไฟ สามารถแบ่งเป็นประเภทได้โดยเกณฑ์ที่แตกต่างกัน เช่น

1.แบ่งตามปริมาณ แคลเซียมออกไซด์ (CaO) ที่เป็นองค์ประกอบในเนื้อผลิตภัณฑ์ ได้ดังนี้

1.Conventional Castable เป็นคอนกรีตทนไฟ ที่มีปริมาณองค์ประกอบ CaO อยู่ในปริมาณสูง กว่า 2%

2. Low Cement Castable เป็นคอนกรีตทนไฟ ที่มีปริมาณองค์ประกอบ CaO อยู่ในกระมาณต่ำกว่า 2%

3. Cementless Castable เป็นคอนกรีตทนไฟ ที่มีปริมาณองค์ประกอบ CaO ต่ำกว่า 0.2%

แบ่งตามลักษณะในการติดตั้ง

1. Vibrating Castable คอนกรีตทนไฟ ที่ติดตั้ง โดยการหล่อแบบ โดยใช้การเขย่าช่วย

2. Self flow Casatble คอนกรีตทนไฟ ที่ติดตั้ง โดยการหล่อแบบ โดยใช้การ

3. Gunning Material คอนกรีตทนไฟ ที่ติดตั้ง โดยการใช้เครื่องยิง

1. Wet Gunning Material คอนกรีตทนไฟ ที่ติดตั้งโดยใช้เครื่องยิง โดยต้องทำการผสมกับน้ำให้เข้ากันก่อนนำไปติดตั้งโดยใช้เครื่องยิง

2. Dry Gunning Material คอนกรีตทนไฟ ที่ติดตั้งโดยใช้เครื่องยิง โดยไม่ต้องผสมกับน้ำก่อนนำไปใช้งาน

ผลิตภัณฑ์จะมีลักษณะเป็นผงแห้ง จะถูกบรรจุเข้าในเครื่องยิง แล้วจะถูกอัดด้วยแรงดันลม ไปตามท่อยาง จนถึงหัวยิง (Nozzle)โดยจะมีจุดเชื่อมต่อกับท่อน้ำที่ปลายท่อยิง ผลิตภัณฑ์จะผสมกับน้ำที่ ปลายท่อยิง ก่อนจะถูกยิงออกไป

Reractory Castable

Product Category : Material Handling Components

Reractory Castable Top & Bottom Blocks is used to hold the induction coil tightly in middle of the tilting furnace box with help of vertical tie rods. Thermafield Power Components Private Limited manufactures Reractory Castable Top & Bottom Blocks. Thermafield Power Components Private Limited supplies different types of induction furnace insulating materials, coil supports and non asbestose sheets, induction furnace hydraulic spares, carbon free hoses, hydraulic cylinders, he plates, duraline induction melting furnace assembly etc. Reractory Castable Top & Bottom Blocks is made from mixture of refractory material, S.S. Reinforcement and certain percentage of water to make the cast formation in fabricated mould. This Reractory Castable Top & Bottom Blocks give the base support to hold the coil and keep in shape while tilting of the furnace.

Salient features of Reractory Castable Top & Bottom Blocks are:

-Durable

-Fire resistant

-Heat resistant

-Chemical resistant

-High strength

-Flame retardant

Reractory Castable

Product Category : Material Handling Components

Reractory Castable Top & Bottom Blocks is used to hold the induction coil tightly in middle of the tilting furnace box with help of vertical tie rods. Thermafield Power Components Private Limited manufactures Reractory Castable Top & Bottom Blocks. Thermafield Power Components Private Limited supplies different types of induction furnace insulating materials, coil supports and non asbestose sheets, induction furnace hydraulic spares, carbon free hoses, hydraulic cylinders, he plates, duraline induction melting furnace assembly etc. Reractory Castable Top & Bottom Blocks is made from mixture of refractory material, S.S. Reinforcement and certain percentage of water to make the cast formation in fabricated mould. This Reractory Castable Top & Bottom Blocks give the base support to hold the coil and keep in shape while tilting of the furnace.

Salient features of Reractory Castable Top & Bottom Blocks are:

-Durable

-Fire resistant

-Heat resistant

-Chemical resistant

-High strength

-Flame retardant