Billets or ingots (as they are sometimes called) have no practical use until they are made into more practical shapes and sizes. Although they have already been placed in furnaces, they still require a series of forming and shaping procedures, such as cold and hot working, grinding, and cutting, before they can be sold in hardware stores or in applications. be used differently. However, unformed billets can be used for minting currency like coins and as reserves like bullion. Billets are sand produced as a second-stage product that is transported during rebar manufacturing. Before selling steel products, steel must first be gradually converted into usable parts. Raw steel cannot be used in its pure structure, so it must be shaped. Freshly made steel, still in strip or square form, called ingots, must be cast into shape before use. Freshly made steel, still in strip or square form, is called a billet. Billets had no rational use until they were made into useful shapes and sizes. After molding, they are sold in hardware stores or used in various applications. Unformed billets are used to produce cash like coins and are also used in stores like gold bullion. Billets are also known for their flexibility and malleability, especially when exposed to temperature changes during forming, forming, and forming. The flow of the billet process is as follows: 1. The scrap is brought to the scrap yard of the smelter and placed. 2. The waste is removed and placed in the main container to be heated to dissolve, considering the important properties of the materials and additions depending on the composite and additions of hardness, strength, consumption barriers, etc. 3. Molten steel goes through a process to send out ingots with dimensions of 5 x 5 cm. 4. The billet is then transported to a mobile shop, which may be located in a completely unexpected area, and goes through the forming process. B - The ingot passes through a heater and is heated in such a way that it allows it to roll. C- At this stage, the billets pass through the production train, where the verticals and even the racks are responsible for rolling the billets to their size. D- The steel that is burning quickly is transferred to the floor covering tracks and transferred to the hot place to extinguish the fire. E- After termax, the steel is cut to a length of approximately 12 meters using a forming cutting machine. And then the rebar is transferred to the cooling bed for cooling. G- Strapping and stacking place is the final stage where the steel is packed and stacked before being transported to the dock and is now ready to be delivered to the construction site. Billets come directly from the casting process and are the softest and most malleable structures that can be found for a particular composite. Also, the cheapest. The billet is basically the average result of the tmt rebar assembly method. They are made by liquefying wrought iron and pouring it into a launcher and cooling it. Their primary applications include converting finished items (such as billets, rods, bars, or sheets) in the company's own processing plants or being sold to other industries for re-rolling into finished products. Before steel products can be sold on the market, steel must first be converted into more functional components. Raw steel cannot be used in its pure state, so it must be cast into shape. Newly made steel, still in the form of strips or rectangles, is called a billet. Billets In the early 1800s, just after the end of British colonial rule in the United States, American entrepreneurs began producing brass and bronze ingots, which later became one of the fastest growing industries in the new nation. At the time, it was nearly impossible to find copper and iron in America, as the British shipped all American copper to England for further shaping and processing. Ingots have distinct characteristics compared to bar and strip products. The billet has a special grain structure that allows for more complex machining of the metal. Ingots are also known for their ductility and ductility, especially when exposed to different temperatures during forming and forming. Billets are considered fresh and raw and must go through a series of manufacturing processes before they can be used for different purposes. Billets are made using a frozen molten liquid and then subjected to very low temperatures to form metal and solidify into a chemical structure. Temperature controls the physical properties of metals and increases their strength and durability. Subsequent processes provide a bending die design for the metal to accommodate the space allocated by other machines that complete the finishing steps. Correct casting of the billet is important because it determines the quality of the steel in the final processing step. These include billet strength and flexibility. Billets are tested several times before they are sold. Ingots that develop cracks and holes between the heating and cooling process are rejected as these defects render the product unusable. Raw materials used in the production process. Application of billet: billet is used for the next stage of metal casting. Steel billets are used as raw materials or raw materials for extrusion, forming, rolling and other metalworking operations. Bars, poles, and precision moldings are made of this material. Engineered and machined parts and assemblies are often produced in forging or machine shops. Conclusion Our vision is to be a standard for customized products and quality services so that we can build a good brand image of our company in the national and international market with competitive prices and cheap shipping services. We are eager to do what we do and strive to further the needs of our customers by providing quality products and services. 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