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Porous pumping is created by the use of sintered glass.
Air is passed through the flowcell by means of a small sintered filter.
Similar bullets are made out of sintered metals, which turn to powder upon impact.
In 1932 the production of sintered bearings was started.
Maybe the only Gossage surprise was the sintered block shape.
In addition, production of sintered powder components consumes much less energy.
Sintered glass also tends to capture material deep within the structure, making it difficult to remove.
The reaction mixture is filtered while hot through a sintered glass filter.
I would have liked an explanation on how to clean sintered glass filters so as not to risk contamination.
The effect obtained is explained in terms of the sintered powder porous structure.
The first, and most common, are sintered metal bearings, which have porous walls.
A sintered base is very porous and absorbs wax well.
If it is very porous, like sintered glass, the time will be a few hundredths of a second.
It is also prepared as sheets and sintered powder for coating metals.
In this image of a sintered electrode it can be seen that three different grain sizes were used.
Sintered metal-bonded diamond blades are the most common type of blade.
As a sintered body, has the highest thermal conductivity of all ceramics.
They checked the mass of a sintered block.
It was made not from glass but from sintered silicon carbide.
In this test, fabric is placed above a porous (sintered) metal plate.
Sintered iron and mild steel cores also came into use in this ammunition.
The sintered oxide is used to produce nickel steel alloys.
This layer is then hardened (sintered) at high temperature in hydrogen/nitrogen.
Its sintered metal composition means it is corrosion resistant.
The binder burns away, leaving the pure sintered metal.