DRILLING BITS

JAMES A. CRAIG

Table of Contents

Types of Bit Drag Bit Roller Cutter Bit

Drill Bit Classification Drag Bit Classification Roller Cutter Bit Classification

Drill Bit Grading Tooth Wear/Loss Bearing Wear Gauge Wear

Types of Bit Drag Bit Roller Cutter Bit

Drill Bit Classification Drag Bit Classification Roller Cutter Bit Classification

Drill Bit Grading Tooth Wear/Loss Bearing Wear Gauge Wear

Table of Contents Types of Bit Drag Bit Roller Cutter Bit

Drill Bit Classification Drag Bit Classification Roller Cutter Bit Classification

Drill Bit Grading Tooth Wear/Loss Bearing Wear Gauge Wear

DRILLING BITS

A steel-toothed piece of equipment attached to the lower end of the drillstring in order to: crush, scrape and, grind formation loose.

The two types available are: drag bits rolling cutter bits

Drag Bits

They consist of fixed cutter blades that are integral with the body of the bit and rotate as a unit with the drillstring. The cutting element consists of steelcutters, diamond, or polycrystalline diamond compact (PDC).

Steelcutter bits the serrated steel blades are set at different angles (e.g.

a fishtail bit). Natural diamond bits the face or crown of the bit consists of many diamonds

set in a tungsten carbide matrix.

Polycrystalline diamond compact (PDC) bits a layer of synthetic PDC is bonded to a cemented

tungsten carbide, it contains many diamond crystals bonded together. The sintered PDC compact is bonded either to a tungsten carbide bit-body matrix or to a tungsten carbide stud that is mounted in a steel bit.

Thermally stable polycrystalline (TSP) bits these bits are manufactured in a similar fashion to PDC

bits but are tolerant of much higher temperatures than PDC bits.

Roller Cutter Bits

They have two or more cones containing the cutting elements which rotate about the axis of the cone as the bit is rotated at the bottom of the hole. The 3-cone rolling cutter bit is by far the most common.

Important factors to consider in this type of bit are: structural materials, bearing-seal-lubricating design, cutting structure arrangements, and hydraulic arrangements.

Structural materials steels with appropriate yield strength, impact resistance,

machineability, and heat-treated properties are usually selected. Cones are commonly heat treated and made of NiMo-steel, teeth are sometimes made of NiCrMo-steel

Bearing-seal-lubricating design they function as a unit and they must be able to

withstand large impact loads, chemicals in the drilling fluids, and high temperature. Sealed bearings grease lubricant (much longer life)

pressure surges can cause leak Journal bearings wear-resistant hard surface on journal

O-ring seal and grease solid lubricant inside cone journal race

Cutting structure arrangements the arrangement must provide efficient penetration of

the formation to be drilled with accurate cut gauge. The gauge of the hole drilled is maintained by the outside cutters which are also known as gauge cutters. Teeth are vulnerable to wear and that increases in abrasive sandstone formations. When the gauge cutters are worn out, the consequent hole drilled is undergauge. The cones rotate at the bottom of the hole and drill hole predominanatly with a grinding and chipping action. The teeth are pressed onto the formation below the bit and applies a force exceeding the compressive strength of the rock

Hydraulic arrangements they must be designed so as to efficiently remove and

evacuate all cuttings from the bottom hole.

Drill Bit Classification Drill bits are classified by IADC (International

Association of Drilling Contractor) to identify similar bit types made from dierent manufacturers.

Drag bit classification it consists of four digits. First Digit an alphabet. It defines the type of cutter

and the body material. D: natural diamond matrix body M: matrix body PDC S: steel body PDC T: matrix body TSP O: others

Second Digit numbers 1 to 9 define bit profile. G denotes gauge height and C denotes cone height. 1: G high, C high 2: G high, C medium 3: G high, C low 4: G medium, C high 5: G medium, C medium 6: G medium, C low 7: G low, C high 8: G low, C medium 9: G low, C low

Third Digit numbers 1 to 9 define hydraulic design. a: fluid exit (changeable jets, fixed ports, open throat) b: cutter distribution (bladed, ribbed, open-faced)

1: changeable jets, bladed 2: fixed ports, bladed 3: open throat, bladed 4: changeable jets, ribbed 5: fixed ports, ribbed 6: open throat, ribbed 7: changeable jets, open-faced 8: fixed ports, open-faced 9: open throat, open-faced

Fourth Digit numbers 0 to 9 denote cutter size and density. 0: impregnated 1: density light, size large 2: density medium, size large 3: density heavy, size large

4: density light, size medium 5: density medium, size medium 6: density heavy, size medium 7: density light, size small 8: density medium, size small 9: density heavy, size small

Roller bit classification consists of four digits. First Digit numbers 1, 2, and 3 designate steel-milled

tooth bits and correspond to increasing formation hardness. 1: soft formation with low UCS and high drillability 2: medium to medium-hard formations with high UCS 3: hard semi-abrasive and abrasive formations

Numbers 4, 5, 6, 7 and 8 designate tungsten carbide insert bits and correspond to increasing formation hardness. 4: soft formation with low UCS and high drillability 5: soft to medium-hard formations with low UCS 6: medium-hard formations with high UCS 7: hard semi-abrasive and abrasive formations 8: extremely hard and abrasive formations

Second Digit numbers 1, 2, 3 and 4 denote a sub-classification of the formation hardness in each of the eight classes determined by the first digit. Number 1 depicts softess formation in a series and number 4 depicts hardess formation in a series.

*** UCS = Uniaxial unconfined compressive strength

Third Digit defines the type of bearing and specifies the presence/absence of gauge protection by tungsten carbide inserts. 1: standard roller bearing (non-sealed) 2: roller bearing, air cooled 3: roller bearing, gauge protected 4: sealed roller bearing

Hardness UCS (psi) Formation TypesUltra soft 27,000 Marble, granite, gneiss

5: sealed roller bearing, gauge protected 6: sealed friction bearing 7: sealed friction bearing, gauge protected

Fourth Digit provides in general information about the bit characteristics. A: air application, journal bearing bits with air circulation

nozzles B: special bearing seal, application at high RPM C: center jet D: deviation control E: extended jets G: extra gauge/body protection H: horizontal/steering application J: jet deflection

L: lug pads, pads very close to gauge diameter M: motor application, special design for use on downhole

motors S: standard steel tooth model T: two-cone bits, sometimes used for deviation control and

penetration rate W: enhanced cutting structure X: chisel tooth insert Y: conical tooth insert Z: other insert shape

Examples

135MSoft formation milled tooth bit; roller bearings with gauge protection; motor application

447XSoft formation insert bit; friction bearings with gauge protection; chisel inserts

637YMedium-hard insert bit; friction bearings with gauge protection; conical inserts

Drill Bit Grading Dull drill bits are graded after runs according to

tooth wear/loss, worn bearings, and gauge wear.

Tooth Wear/Loss the reduction of tooth height.It reported in the nearest eighth, thus a bit which teeth are worn out to half of its original height is 4/8 and reported as T-4. Normally, the tooth wear of a bit is not evenly distributed, some are worn more than others, some are broken out, BT; some are chipped (insert bits), CT; some are lost (insert bits), LT.

BT

LT CT

BT

Bearing Wear bearing wear in the field is difficult since the bit would need to be disassembled for inspection. Often the bearing wear is reported based on the total bit running hours. Thus, a bit expected to have a rotation time of 40 hours but rotated at bottom for 10 hours, would bearing wear is reported as B-2, i.e. 10 hours 840 hours

Gauge Wear when the gauge teeth of a bit are worn, the drilled hole will be under-gauged which may lead to damage of the next bit. A ring gauge is used to measure the wear. The loss of diameter in inches is reported as the nearest eighth. A bit which diameter is reduced by 0.5 in. is reported as G-O-4, (i.e. 0.5 x 8). Letter O is for out-of-gauge and letter I is for in-gauge.

Cracked cone

Lost cone

Balled-up bit

Washed-out bit

DRILLING BITSTable of ContentsSlide Number 3Table of ContentsDRILLING BITSDrag BitsSlide Number 7Slide Number 8Roller Cutter BitsSlide Number 10Slide Number 11Slide Number 12Slide Number 13Slide Number 14Drill Bit ClassificationSlide Number 16Slide Number 17Slide Number 18Slide Number 19Slide Number 20Slide Number 21Slide Number 22Slide Number 23Slide Number 24Slide Number 25Drill Bit GradingSlide Number 27Slide Number 28Slide Number 29Slide Number 30Slide Number 31