a silicone bracelet. There are 8 steps to make a rubber bracelet. 1st Design the artwork. An artwork includes the information of order number, size, logo style, order quantity and other options like glowing and individual pack. The most importantly it shows whapromotion giftst the bracelet looks like with your message or logo. It is direct way to check if wording, colors of bracelet and logo are correct. We are willing to make several mock-ups for your reference. The software for designing is CDR, so eps. or ai. file is appreciated for your logo. And there are variety of fonts for your choice. If the artwork get confirmed, we will proceed with it. 2nd Make the mould or film. A mould is needed for debossed, embossed, colorfilled styles. We make a mould and set it in the machine, the high temperature of about 200℃ will solidify rubber into the sharp of bracelet. A mould is made from copper. A film is functioned like a mould but it is for printed wristband only. It transfer the ink to the surface of bracelet as logo and wording. 3rd Prepare the rubber material. A rubber bracelet is mainly made from silicone rubber, and some other accessories like curing agent which solidify the soft rubber, and Color masterbatch which makes bracelet colored. We will mix these material evenly in a blender. It comes out a ball of rubber. We need to measure it into blocks of almost same weight which as much as the weight of a wristband. Normal size of 202*12mm bracelet is weighted about 6g. 4th Produce bracelets by the mould. As we mentioned before in 2nd and 3rd step, we will transfer the blocks to bracelets by a set of moulding machine of high temperature. When it cool down, it gets the characteristic of a bracelet, smooth and strengthened. 5th Edge cutting. A semi-product of rubber bracelet has rough edges, we have to cut it off. The rough edge is cut by machine. It will be good. 6th Color the logo and wording The bracelet comes out from moulding machine without colors on the logo and lettering. We have to fill the ink or print the ink on the bracelet. Different style has different way of printing. 7th Clean the product As the bracelet has static electricity, dust will be on the surface and hard to move off. So we need to clean the bracelet before packing. We usually wash it with water once. After washing, we will check the quality. 8th Packing and delivery We count the quantity by weighting. Normally packing will be 100pcs/bag, and 2500pcs/ctn. Individual packing is available. It is good to go now. custom-baseball-wristbandshow-many-wristbands-in-forza-horizon rubber into the sharp of bracelet. let"s see how the mould come into being. Mold, industrial production to use injection, blow molding, extrusion, die-casting or forging and forming, smelting, stamping and other methods to get the various models and tools of the required products. In short, mold is used to make molding tools. This tool is made up of various parts, and different molds are made up of different parts. It mainly realizes the processing of the shape of the articles by changing the physical state of the formed material. It has the title of "the mother of industry". Under the action of external force, the billet becompromotion giftses a tool with specific shape and size. It is widely used in blanking, die forging, cold heading, extrusion, compaction of powder metallurgy parts, pressure casting, and plastic or injection molding of engineering plastics, rubber, ceramics and other products. The mold has a specific contour or inner cavity shape, and the shape of the cutting edge can be used to separate the blank from the contour line (blanking). The shape of the inner cavity can be used to obtain the corresponding three-dimensional shape of the blank. The mold generally consists of two parts, the movable die and the fixed die (or punch and concave die), and the two parts can be divided into two parts. When separate parts are removed, the blank is injected into the mold cavity to form. The mold is a precision tool with complex shape, bearing the bulging force of the billet. It has high requirements for the structure strength, stiffness, surface hardness, surface roughness and machining precision. The development level of die production is one of the important symbols of the mechanical manufacturing level.