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 These
bits are set with large, rectangular-shaped tungsten-carbide
elements that are physically embedded into the crown
of the tool. The bit face has an aggressive saw-tooth
pattern with either integral canal type waterways or
with optional cylindrical-shaped face-discharge ports
on thick-kerf wireline core bits. The bit crown itself
is composed of a tough, wear resistant metal-bond matrix
material. The gauge diameters of the tool are also heavily
set with tungsten-carbide wear pads.
The application of this type of bit is
primarily in geotechnical soil investigation or for
core drilling in overburden layers that are composed
mainly of clay, sand, gypsum or soft shale.
  
Canal & Face-Discharge Waterway
Configurations
 The
cutting media used in this type of core bit are crushed
tungsten-carbide chips that are suspended in a metallic
alloy that is fused to the steel body of the tool. Typically,
these tungsten-carbide chips have a granular size of
0.08 to 0.20 inch (2 to 5mm) and have a totally random
orientation within the bit crown. The face profile is
somewhat irregular and the waterways are of the standard
canal
type (Style “W”) design.
This type of core bit has considerably
more cutting edges than the “saw-tooth” variety
and as such have a wider range of application that includes
slightly harder sedimentary formations. Carbide-chip
core bits are also frequently used to clean steel fragments
out of existing drill holes.
Carbide-chip core bits are similar to
impregnated diamond core bits in that the bit crown
is composed of several layers of cutting media. The
bit face regenerates itself with new cutting edges by
wearing away the metallic alloy during operation to
continually expose new layers of carbide-chips until
the bit crown is consumed.
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