The selective soldering application requires a combination of performance attributes that traditional liquid fluxes designed for wave soldering applications cannot fulfill. First, the flux deposition on the board needs to be carefully controlled. Proper fine tuning of the flux physicochemical characteristics combined with a process optimization are mandatory to strike the right balance between solderability and reliability. However, localization of the flux residue through the drop jet process is not enough to guarantee the expected performance level. The flux needs to be designed to minimize the impact of unavoidable spreading and splashing events.
From this perspective a fundamental understanding of the relationships between formulation and reliability is critical. In this application, thermal history of the flux residues (from room temperature to solder liquidus) is a key performance driver. Finally, it is necessary to conduct statistically designed experiments on industrial selective soldering machines in order to map the relationships between flux characteristics and selective process friendliness....
Explain your requirement *
Our Newsletters keep you up to date with the PCB Industry
Our Newsletters keep up to date with the PCB Update
By signing up for our newsletter you agree to our Terms of Service and acknowledge receipt of our Privacy Policy.
Note: File Size should be less than 10MB.
Create an account on PCB Directory to get a range of benefits.
Login to PCB Directory to download datasheets, white papers and more content.
By creating an account with us you agree to our Terms of Service and acknowledge receipt of our Privacy Policy.
OR