Joining elastic materials specifically polymers has evolved over time. Initially, available technologies would accommodate simple two-dimensional designs. With the introduction of other technologies such as laser plastic welding, fusion is simpler, cheaper and more effective. Besides this technology, there are several other options like ultrasonic, friction based, high frequency as well as hot plate fusion. To understand each, the paragraphs below describe what they entail, their advantages and disadvantages.
Polymer joining through light rays is the most recent technology. Before implementing the bonding process, partner polymers must be made of a good heat conducting material on top and an absorbent one at the bottom. Once a ray of light is directed on the upper surface, it is absorbed by the lower polymer. This process leads to heat energy production. Heated parts are joined together through compression. This technique has numerous benefits which include lower maintenance cost and flexibility in terms of a number of designs which can be achieved. Additionally, processes are automated to ease monitoring.
Radiation joining also has several downfalls. Unlike conventional machines, these are sophisticated hence require an expert to operate. Similarly, it may be selective on types of polymers that can be joined. As said, there has to be a good conductor and absorber. Without an experienced team to handle sorting, fusion may be impossible. Amount of money needed to procure equipment at first is super expensive.
The second type of bonding equipment is ultrasonic. When specific internal parts equivocate, heat is created and transmitted across the boundary of contact parts. Once enough heating occurs, these surfaces melt, the pressure is exerted to fuse them together. Ultrasonic joining is advantageous in terms of cost and maintenance. The equipment is priced inexpensively since friction based processes are simple. Similarly, equipment components are easy and cheap to maintain.
One disadvantage of ultrasonic joining is flush generated as well as small particles which look like dust. If an individual is exposed to these for long, their health is affected. Unlike ray based soldering, very wide ultrasonic can only work in two dimensions. Additionally, the resultant weld line is wide with some instances having up to 10 mm spacing.
In other situations, surfaces are heated side by side by a metallic plate. This component is first put in a source of warmth to acquire as much energy as possible. It is then placed between two surfaces that need to be joined. Once melting occurs, it is eliminated and parts are fixed together. Such techniques are cheapest since they only require a heating plate. Also, it will be used to bond simple polymers which must be held.
A variant form of bonding results from an electric magnetic field which leads to oscillation of polar particles. Oscillation builds up the heat on contact surfaces which consequently melt. High-frequency soldering localizes heat on joints thus low current load. Localizing heat ensures minimal damage happens.
A variant of ultrasonic soldering is friction based method. Specifically, bonding parts are rubbed simultaneously to build up the heat. Once these sections are molten, bonding takes place easily. Long polymers mostly used in housing can be joined more effectively through this method. It is also cheaper to acquire and maintain.
Polymer joining through light rays is the most recent technology. Before implementing the bonding process, partner polymers must be made of a good heat conducting material on top and an absorbent one at the bottom. Once a ray of light is directed on the upper surface, it is absorbed by the lower polymer. This process leads to heat energy production. Heated parts are joined together through compression. This technique has numerous benefits which include lower maintenance cost and flexibility in terms of a number of designs which can be achieved. Additionally, processes are automated to ease monitoring.
Radiation joining also has several downfalls. Unlike conventional machines, these are sophisticated hence require an expert to operate. Similarly, it may be selective on types of polymers that can be joined. As said, there has to be a good conductor and absorber. Without an experienced team to handle sorting, fusion may be impossible. Amount of money needed to procure equipment at first is super expensive.
The second type of bonding equipment is ultrasonic. When specific internal parts equivocate, heat is created and transmitted across the boundary of contact parts. Once enough heating occurs, these surfaces melt, the pressure is exerted to fuse them together. Ultrasonic joining is advantageous in terms of cost and maintenance. The equipment is priced inexpensively since friction based processes are simple. Similarly, equipment components are easy and cheap to maintain.
One disadvantage of ultrasonic joining is flush generated as well as small particles which look like dust. If an individual is exposed to these for long, their health is affected. Unlike ray based soldering, very wide ultrasonic can only work in two dimensions. Additionally, the resultant weld line is wide with some instances having up to 10 mm spacing.
In other situations, surfaces are heated side by side by a metallic plate. This component is first put in a source of warmth to acquire as much energy as possible. It is then placed between two surfaces that need to be joined. Once melting occurs, it is eliminated and parts are fixed together. Such techniques are cheapest since they only require a heating plate. Also, it will be used to bond simple polymers which must be held.
A variant form of bonding results from an electric magnetic field which leads to oscillation of polar particles. Oscillation builds up the heat on contact surfaces which consequently melt. High-frequency soldering localizes heat on joints thus low current load. Localizing heat ensures minimal damage happens.
A variant of ultrasonic soldering is friction based method. Specifically, bonding parts are rubbed simultaneously to build up the heat. Once these sections are molten, bonding takes place easily. Long polymers mostly used in housing can be joined more effectively through this method. It is also cheaper to acquire and maintain.
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