will work with the color of the core band. Cut the additional bands into strings that you can weave or wrap around the core band to create texture. Step 3 Use the sharp tip of the scissors to create a small puncture in the body of the core band. Slide one end of a thinner rubber band through the slit. Tie a knot on the back side in order to hold the string in place. Step 4 Settle on one of two design elements for the bracelet. One option is to tie a second knot on the surface of the core band, then clip off the excess. Repeat the pattern around the core band, using a mix of different colors. An alternative approach is to space additional slits so the strings can be used to create the look of stitching. Remember to tie off the end of the string by making a knot on the back side of the core band. Step 5 Consider personalizing the surface of the rubber bracelet with custom logo keychainsstenciling. Position the stencil in between the stitches or knots. Use the markers or the model paint to fill in the design or letter on the stencil. Contrasting colors for the stenciling will make the bracelet even more original. Skill: Moderately Easy Ingredients: Rubber bands in various colors and sizes Scissors Model paint or permanent markers Stencil Tip: Always make sure the bracelet is comfortable and does not restrict blood flow through the wrist. Also make sure the body of the bracelet does not pull on any small hairs in the area of the wrist. custom-message-braceletsbuy-wcustom logo keychainsristbands mold and set it in the machine, the high temperature of about 200℃ will solidify 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 becomes 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.