Fully automatic brown oxide line for good quality consistency and high bonding strength for multi-layer PCB.
IMPORTANCE OF STENCIL FOR PCB ASSEMBLY
The surface mount assembly process uses a stencil as a gateway to an accurate and repeatable solder paste deposition. A stencil is a thin sheet or foil of brass or stainless steel with a circuit pattern cut into it, matching the positional pattern of surface mount devices (SMD) on the printed circuit board (PCB) for which the stencil is to be used. After accurately positioning and matching the stencil over the PCB, a metal squeegee forces solder paste through the apertures of the stencil to form deposits on the PCB for holding SMDs in place. The solder paste deposits, when passed through the reflow oven, melt and secure the SMDs to the PCB.
The design of the stencil, especially its composition and thickness and the shape and size of its apertures, determines the size, shape, and positioning of the solder paste deposits and this is crucial to ensuring a high-yield assembly process. For instance, the foil thickness and the aperture opening size define the volume of paste deposited on the board. An excess of solder paste causes balling, bridging, and tomb-stoning. Low amounts of solder paste cause dry solder joints. Both compromise the electrical functionality of the board.
Technologies for Making Stencils
At present, the industry uses five technologies for making stencils—laser-cut, electroformed, chemically etched, and hybrid. While the hybrid technology is a combination of chemical etching and laser-cutting, chemical etching is very useful for making step stencils and hybrid stencils.
Chemical Etching for Stencils
Chemical milling etches metal masks and flexible metal mask stencils from both sides. As this etches not only in the vertical direction but also laterally, it causes undercutting, and makes the openings larger than desired. As the etching proceeds from two sides, the tapering on the straight wall causes the formation of an hourglass shape, leading to extra deposits of solder.
As etching the stencil openings does not produce a smooth result, the industry uses two methods for smoothening the walls. One of them is electropolishing, a microetchng process, and the other is nickel plating.
Although a smooth or polished surface helps paste release, it may also cause the paste to skip the surface of the stencil rather than roll with the squeegee. Stencil manufacturers address this problem by polishing the aperture walls selectively, but not the stencil surface. While nickel plating improves stencil smoothness and the printing performance, it reduces the aperture opening, which requires artwork adjustment.