|
|
Reduced Tooling Cost. The
dip brazing process uses
little if any specialized
tooling. Fixturing is
generally accomplished with
common fixtures that allow
for quick and inexpensive
configuration changes. |
|
|
Material Savings. Unlike
castings or machined parts,
dip brazing can be done at
near net size. |
|
|
Reduced Fastener Count.
Reduce cost by reducing
fastening and the labor to
complete assemblies through
conventional means. |
|
|
Improved Structural
Integrity. Dip brazing
offers a continuous
leak-tight and EMI shielded
joint even with a variety of
material thicknesses. |
|
|
Better Conductivity. As the
dip brazed joint is
aluminum, electrical and
thermal conductivity is
clearly better than that
achieved with an adhesive
bonded or mechanically
attached assembly. |
|
|
Less Distortion. The braze
process heats all components
uniformly thus yielding less
distortion than that of a
welded part. |
|
|
Lower Cost. The dip brazed
process yields the lowest
cost given the superior
characteristics achieved. |
|
|
Design Freedom. The design
engineer will enjoy a
greater range of options
using the dip brazed
process. |
