Acicular roll, alloyed with the nickel, manganese and chromium with a bainitic-acicular-martensitic matrix has a higher UTS, hardness and wear resistance is more than the SGP quality. Semi-continuous carbides maintain the wear resistance, while at the same time exhibiting high strength and resistance to fire-cracks. The extensive heat treatment procedure ensures an acicular matrix. Acicular roll can be produced by static casting (Monoblock) or by using the centrifugal cast (CC) Double-pour method.
Supplier: Graphite
Buyer: Caustic, Sulphuric Acid, Big Bags, Sodium Silicate,
FITZER has designed and manufactured over 5000 units of graphite block heat exchanger which are one of the most reliable, flexible and compatible heat exchangers in the market for corrosive Process. We provide a wide range of Graphite Block Heat Exchanger in Cylindrical, Cubical and Shell and Tube Type Design with a premium graphite quality guarantees a reliable and efficient operation even in robust condition for our customer. FITZER graphite block heat exchanger is adapted to the heating, cooling, evaporation, condensation and absorption of highly corrosive liquid chemicals. Thus, these are used in various applications like absorber, coolers, condensers, heaters and evaporators. We provide customized design of graphite block heat exchanger based on deep understanding of our customers need with optimizing design. Totally customized design: number of blocks, size of blocks and number of passes can be adjusted Design pressure: -1 barg (full vacuum) to +10 barg (145 psig) Design temperature: -60 to +210�°C (-76 to 446�°F) Heat transfer area: up to 150 m2 Block diameter â?? 100 to 1000 mm diameter Different drilling diameters on process and service sides to avoid fouling process Maximum block diameter: 1000 mm Thermal expansion compensation ensured by tie rods and helical springs Graphite blocks are impregnated with different resin such as Phenolic Resin impregnated or PTFE impregnated graphite block. Blocks design and manufacture cylindrical SR series block or cubical SC series block Special features as far application such as gas liquid separator, multi entry utility flow, end chamber cooling, multi-pass arrangement depending on application PTFE Bellows â?? fitted to graphite nozzles Design: according to European PED, ASME code, Chinese Pressure Vessel code and other national pressure vessel codes on request Application: Graphite block heat exchangers are used as Condensers, Coolers, Heaters, Reboilers, Evaporators (Forced circulation, thermosiphon, falling film, etc.) in industries like Agrochemicals, Pharmaceuticals, Metal processing etc. Industrial processes Hydrochloric acid Hydrofluoric acid Phosphoric acid Sulfuric acid Bromohydrin acid EpichlorohydrinVinyl chloride monomer Fire retardants Flavors and fragrances VitaminsCrop protection Fumed silica Silicones Titanium dioxide Fine chemicals Active pharmaceutical ingredients Carbon steel and stainless-steel pickling Copper electrolysis Epichlorohydrin Vinyl chloride monomer Fire retardants Flavors and fragrances Vitamins Isocyanates Viscose Polycarbonate Coagulants Treatment, purification and concentration of spent acids Sulfuric acid dilution And many other corrosive processes
Horizontal vacuum graphitization furnace is applied for high temperature graphitization and purify treatment of C/C, graphite, carbon fiber insulation refractory material, graphite products.
Vertical vacuum graphitization furnace is mainly used for high temperature graphitization treatment of C/C, graphite, carbon fiber insulation refractory materials.
A graphite heat exchanger is a device built for efficient heat transfer from one corrosive medium to another. The media may be separated by two parallel channels, so that they never mix, or they may be in direct contact.They are widely used in chemical plants, petrochemical plants, pharmaceutical factory, and so on.
CUSTOM GRAPHITE RING MOLDS FOR SALE Graphite jewelry molds make original designs of graphite crucibles attached to them for a long time, which keeps high-temperature resistance. Making graphite molds for jewelry is the procedure used to insure that jewelry items can be accurately duplicated at any time future. The mold making process begins with the creation of a metal model. Models can be as simple as a basic ring or complex as jewelry containing multiple interlinking parts used to create elaborate multicolor jewelry. What's the difference between graphite ring molds and metal ring molds? Graphite ring molds, while less costly and more resistant to warping under high temperatures compared to metal counterparts, may impart a slightly rougher finish to the glass ring. This difference in finish arises from the inherent properties of the materials; graphite tends to have a slightly coarser texture than metal. However, graphite molds excel in thermal stability and are often preferred for their durability and longevity in glassmaking processes. Conversely, metal ring molds, such as silver casting molds, offer a smoother finish but come with a higher price tag and susceptibility to deformation under extreme heat. Glass artisans weigh these factors when selecting between graphite and metal ring molds, balancing cost, durability, and desired surface finish in their creative endeavors. How do graphite ring molds compare to other types of molds, such as ceramic or metal, in terms of longevity and durability? Graphite ring molds offer distinct advantages and considerations compared to ceramic or metal molds in terms of longevity and durability: Longevity: Graphite ring molds are renowned for their exceptional longevity. They boast a high resistance to thermal shock and degradation, making them capable of enduring prolonged exposure to high temperatures without significant deterioration. Ceramic molds, while durable, may be more susceptible to cracking or chipping over time, especially if subjected to rapid temperature changes or mechanical stress. Metal molds vary in longevity depending on the type of metal used. Some metals may corrode or degrade over time due to chemical reactions with molten glass, impacting the mold's lifespan. Durability: Graphite ring molds are highly durable, capable of withstanding repeated use in glassmaking processes without significant wear or deformation. They maintain their structural integrity even after extended exposure to heat. Ceramic molds are generally durable but may be prone to breakage or damage if mishandled or subjected to sudden temperature changes.
FITZER offers inhouse designed and manufactured graphite shell and tube heat exchangers. Graphite shell and tube heat exchanger is used to cool down or heat up ultra-corrosive chemicals. We provide wide range of size in graphite shell and tube heat exchangers with our prime focus on performance and reliability. Our extended and highly customizable heat exchangers portfolio enables us to provide particularly adapted solutions. All our graphite shell and tube heat exchangersâ?? designs are totally modular to best fit with individual process specifications. The diameter, number, and length of tubes, the number of passes on tube side, the type, number, and opening of baffles on the shell side can be set to best meet the velocities, pressure drops, and heat transfer requirements. Customer Benefits : Outstanding Corrosion Resistance â?? Our graphite material is high corrosive resistant at high temperature Multipass construction on process side as well as service side. Robustness Shell and Tube Heat Exchanger are robust in design Easy to install High operational safety Reliability High operational performance with no moving part Low Maintenance Cost â?? Fast and reliable services for repair and spare parts. Sturdy, compact, and modular design Long Lifetime Self-protected metal shell, Premium quality graphite, customized design, no moving part. Product Warranty
Supplier: Gasket graphite
