Products Description LEANOMS
Impregnated diamond bits are specialized drilling tools used in industries like mining and oil exploration. They feature a matrix body embedded with synthetic diamonds, which are much harder than traditional materials used in drill bits. This design allows for greater durability and efficiency when drilling through hard rock formations. The diamonds on the bit's surface grind away at the rock, creating boreholes with precision and speed. These bits are essential for extracting resources from challenging geological formations.
company profile LEANOMS
LEANOMS Impregnated Diamond Bits are manufactured using high-quality raw materials that are optimal for drilling tools. LEANOMS's twenty years of experience in the drilling industry enables us to offer the best design for a variety of applications. Diversity in die profiles and diamond quality enables optimal core drilling and increases bits life resulting in fewer trips, lower cost per meter, and increased footage per rig.
bit weight LEANOMS
The weight applied to the drill bit is the other important variable in optimizing bit life and achieving a desired RPI. The weight has to be sufficient to maintain a rate of advance relative to the rotational speed (to keep the bit penetrating). However, a weight that is too high can cause diamond re-impregnation or rapid wear due to stripping or even a mechanical failure of the matrix. Too low of a weight often leads to the diamonds becoming polished, requiring the matrix to be stripped to expose a new layer of diamonds.
Ideally, the matrix being used performs best when it wears at the same rate as the diamonds. If the matrix requires continuous stripping to achieve an acceptable penetration rate, then a softer matrix should be used.
As a guideline, the weight on an impregnated bit should never exceed 2000-2500 psi or (1378 N/cm2-1723 N/cm2).
Products advantage LEANOMS
High Durability: In a comparative study conducted over 100 drilling operations in granite formations, impregnated diamond bits exhibited an average lifespan of 300 hours, outlasting traditional roller cone bits by 40%.
Versatility: Field tests conducted in various geological formations, including hard shale, limestone, and sandstone, demonstrated that impregnated diamond bits with customized diamond configurations achieved an average penetration rate increase of 25% compared to standard configurations.
Efficiency: Analysis of drilling efficiency in a deepwater oil exploration project revealed that impregnated diamond bits required 15% less energy consumption per meter drilled compared to polycrystalline diamond compact (PDC) bits, resulting in significant cost savings over the project duration.
Precision: Borehole measurements obtained from directional drilling operations using impregnated diamond bits showed a deviation of less than 1 degree from the planned trajectory, highlighting the precision and control achieved with these bits in complex wellbore designs.
Extended Lifespan: Long-term field trials conducted in harsh drilling environments, such as high-temperature geothermal wells, demonstrated that impregnated diamond bits maintained consistent drilling performance over 500 hours of continuous operation, reducing the frequency of bit changes by 30% compared to conventional bits.
Adaptability: Case studies in unconventional reservoirs, including tight gas formations and offshore carbonates, showcased the adaptability of impregnated diamond bits in achieving optimal drilling performance across varying lithologies and well profiles, resulting in improved reservoir access and production rates.
