The main component of graphite rod is graphite material, and its graphite atoms are neatly arranged, smooth, and intact, and are very difficult to migrate and flow. Graphite atoms in graphite rods are heterogeneous layered structures composed of extremely short atomic chains, which form uniform and uniform carbon chains. These carbon chains work together to form a graphite rod due to the attractive force of hydrogen atoms without carbon atoms. Flat surface, usually this kind of carbon chain can form a circular structure with hands folded. The main component of graphite rods is graphite material, followed by the raw materials needed in the manufacturing process of graphite rods. In addition to graphite, there are also pigments, glue, and resin.
The pigment is the formation of colored carbon atoms into monomers, for example, bright black atomic chains can form a color, while bright white atomic chains can only form yellow or blue; there are also white, green, pink, blue, purple Etc. carbon atoms have a certain attribute color. The manufacturing process of graphite rods is the rod-making process. After the graphite rods are cooled naturally, the graphite rods are quickly overprinted from small to large using a mold. The technological process mainly includes a series of processes such as stripping, rubbing, assembling, and stitching.
Stripping and rubbing: refers to peeling off the thicker graphite rod, polishing it with graphite powder, removing unnecessary surface graphite with polishing scraps, and reducing the graphite on the outermost layer of the graphite rod. Rubbing: It is to use graphite rods to remanufacture into the style you want. Assembly: It uses abrasive tools to rotate and assemble graphite rods into various shapes such as cylinders or diamonds. Patchwork: Mainly to reinforce and seal graphite rods to prevent leakage. The production process of graphite rods is as follows:
1. Stripping——Peel off the graphite rod or the leftovers of the graphite rod to obtain a cylindrical or diamond-shaped object of regular size.
2. Kneading blanks—combining the rolling blanks to obtain the required size.
3. Assembly—Inlay the assembled cylindrical or diamond-shaped objects so that the contact area between them is the smallest, that is, the curved surface is the largest.
4. Patchwork—predetermine the patchwork, fix the welding position, interrupt the two ends of the object with continuous and well-covered piping, and assemble it into an appliance.
5. Blanking——When cutting the material, first use the abrasive tool to shape the size, and then use the grinding wheel to polish it.
6. Loading - After blanking, use abrasive tools to shape the size, and then use grinding wheels to polish and load.
7. Patchwork——Patchwork can be designed according to needs, and the two ends can be separated, put together, or scaled between the largest part and the largest part in the middle to make the surface the largest.
8. Assembling - Draw the position of the raw materials according to the drawings, and assemble them according to the needs. Graphite rods have no direction of rotation and are used to make cylindrical or diamond-shaped cylindrical products with a diameter of several millimeters and an area of several square millimeters. Generally, it is a square product with a diameter of 20 to 30 millimeters. Manufacturing raw materials can be divided into metal raw materials such as copper, aluminum, iron, chromium, and dilute manganese acid, or mineral raw materials such as yellow, white, black, and earth. and graphite rods and other materials. The main process of graphite rod production technology: stripping - rod making (grinding rod) - assembly - patchwork.
The rod-making process is simple: drill the graphite rod down into the circular rod sleeve, start from the display board, fix it with small bolts, and peel off the leftovers at the same time to obtain a cylindrical or diamond shape; peel off the rod, that is, peel off the graphite rod, Use a tool to stick the rod tightly, cut the original rod into two pieces, use a machine for kneading the leftover material into a cylindrical shape, and then make a rod. Rod-making method: tools.