Mitä meidän pitäisi kiinnittää huomiota PCB: n juottamiseen?
Mitä meidän pitäisi kiinnittää huomiota PCB: n juottamiseen?
There are several factors that we should pay attention to when soldering a PCB. For example, we should avoid overheating the joint. Also, we should pay attention to ventilation. In addition, we should use lead-free alloys. If there are any problems with solder flow, we can contact the manufacturer and ask them to repair it.
Ventilation
Proper ventilation when soldering PCBs is critical to preventing respiratory problems. Using a local exhaust ventilation system helps remove the bulk of solder fumes, which can be inhaled. It is important to monitor air quality at your worksite to ensure that it is safe for everyone working in it.
The Hakko FA-400 is a good option for occasional soldering projects, but it is not suitable for workers who spend many hours in a day breathing in the fumes. Not only does the air quality affect the person soldering, but it also affects the area around him or her. This is due to the fact that drafts and currents will carry the fumes throughout the room. Therefore, it is necessary to invest in a filtration system to avoid these risks.
Flux residues
Flux is a key part of soldering, as it removes oxides from the board’s surface, allowing the solder joint to be as strong as possible. The presence of oxides on the board can cause poor electrical conduction and lead to a poor solder joint. There are several types of solder flux available.
A typical flux is rosin. This type is most commonly used in electrical soldering.
Overheating joints
When soldering PCBs, one of the most common errors is overheating the joints. This problem occurs when soldering a joint is not done properly or when the soldering iron’s temperature is too low. To prevent this, be sure to pre-heat the iron before you begin.
Overheating joints will cause the solder to oxidize, which can cause damage to the electronics component. Insufficiently wetting the solder joint can also lead to tombstoning, which is when the solder pad does not complete the wetting process. Fortunately, this problem can be avoided by carefully inspecting the soldering process and using the correct tools.
Using lead-free alloys
Using lead-free alloys when soldered PCBs is an excellent option. They can be used to achieve a strong, durable joint without the risks of lead. Various fluxes are available to facilitate the process. When soldering PCBs, it is important to use the correct flux for the task at hand.
WS888 is a lead-free solder paste that meets the reliability requirements for PCB assemblies. It exhibits consistency and repeatability across a wide temperature and relative humidity range. It also leaves no residues on the PCB and is easily cleaned with water. In addition, NC722 is a no-clean lead-free solder paste that is designed for low-melting tin-bismuth alloys. It has excellent stencil life and leaves no flux residues. Moreover, NC722 is pin-testable and has a low melting point.
Clean connector bodies
The first step in soldering a connector is to clean the component’s body. Before starting the soldering process, make sure to clean the component’s body with alcohol or tissue. Next, apply liquid flux to all the leads on the component’s opposite side.
This is done to remove any surface contaminants. A scraper is a useful tool for this. It is also important to clean connector bodies because chrome plating can make it difficult to wet with solder.
Soldering iron
When soldering a PCB, it is important to watch the soldering iron tip. The tip should be larger than the gap between the electronic components on the board. For small components, a conical tip may be appropriate. Then, insert the component into the holes. The soldering iron tip should make contact with both the board and the lead. When both touch, the solder will be heated and the connection will be completed.
When soldering PCB, the tip of the soldering iron should be resting against the component lead. If the solder is not touching the lead, it will not adhere to it. The tip should be coated with solder and should form a mound. When the joint is completed, remove the iron and the solder should flow smoothly.
Soldering paste
Solder paste is a combination of metal solder particles and a sticky flux that provides a temporary adhesive that holds surface mount components in place. Solder paste comes in various types, each with a different viscosity and chemical composition. Some are lead-free, while others comply with the RoHS directive. Some solder pastes have an additive that is made from pine tree extract.
Soldering paste is usually applied using a stencil. It allows for the proper placement of solder and helps spread the paste evenly. Stencils help avoid applying too much or too little paste, which can result in weak joints and shorts between adjacent pads.
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