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Tricone Rock Bit
Created with Pixso.

Professional Tricone Rock Bit 12 1/4" FA637G Rock Drilling Tools Blue Color

Professional Tricone Rock Bit 12 1/4" FA637G Rock Drilling Tools Blue Color

Brand Name: FLRT
Model Number: 12 1/4" FA637G
MOQ: 20pcs
Supply Ability: 300pcs per quarter
Detail Information
Place of Origin:
China
Certification:
API-7-1, ISO 9001:2008
Bearing Type:
Carbide Rock Drill Bits
Cutting Material:
TCI
Standard:
API-7-1, ISO 9001:2008
Series:
FA
IADC:
637
Supplementary Features:
G : Reinforced Gauge Protection
TCI:
Tungsten Carbide Insert
Formation:
Medium Hard With Higher Compressive Strength As Well As Thick And Streaks
Packaging Details:
plywood box / iron box
Highlight:

Professional Tricone Rock Bit 12 1/4"

,

FA637G Rock Drilling Tools

,

Tricone Rock Bit Blue Color

Product Description

12 1/4" FA637G , Tricone Bit , Well Drilling Bit , Fluid Circulation , TCI Rock Bit , TRC Bit

 

 

RECOMMENDED DRILLING PARAMETERS FOR APPLICATION

 

Types & IADC Code 417

437

447

517

527

517

527

537

547

617

627

637

 

WOB KN/mm(Bit Dia.) 0.4~0.9 0.4~0.9 0.35~1.0 0.35~1.0 0.5~1.0 0.6~1.1 0.7~1.2
Lb/in. (Bit Dia.) 2285~5142 2285~5142 2000~5714 2000~5714 2857~5714 3428~6285 4000~6857
Rotation Speed (Rpm) 140~60 240~70 125~50 ~60 110~50 100~40 80~4

ROLLER CONE BIT BEARING ASSEMBLY

All bearing materials must be made of toughened steel which has a high resistance to chipping and breaking under the severe loading they must support.

 

As with all rock bit components, heat treatment is used to strengthen the steel.

 

The most important factor in the design of the bearing assembly is the space availability.

 

Ideally the bearings should be large enough to support the applied loading, but this must be balanced against the strength of the journal and cone shell which will be a function of the journal diameter and cone shell thickness.

 

The final design is a compromise which ensures that, ideally, the bearings will not wear out before the cutting structure (i.e. all bit components should wear out evenly).

 

However, the cyclic loading imposed on the bearings will, in all cases, eventually initiate a failure.

 

When this occurs the balance and alignment of the assembly is destroyed and the cones lock onto the journals.