 |
| Quantity: | |
|---|---|
PDC BIT Specifications | |
Bit Size | 9 7/8 inches |
IADC CODE | S516 |
Primary Cutter Size | 16mm |
Qty of Blades | 5 |
API Pin Connection | 6 5/8 API REG |
Nozzle Qty | 7NZ |
Gauge Length | 2.0-3.0 |
Operating Parameters | |
RPM(r/min) | 60-350 |
WOB(KN) | 20-120 |
Flow Rate(lps) | 5-25 |
The superior cutter technology with its evenly distributed diamond particles and unique microstructure enables the cutters to maintain their sharpness for longer. This means they can cut through rocks more effectively and with less force. As a result, the bit can achieve a higher rate of penetration, reducing the overall drilling time. The consistent cutting performance also reduces the likelihood of bit sticking or getting stuck in the formation, further enhancing drilling efficiency.
The reinforced bit body provides several benefits. Firstly, it can withstand the high forces and stresses during drilling, reducing the risk of bit breakage. This ensures the bit can continue to operate reliably, even in tough conditions. Secondly, it offers better support for the cutters, preventing them from being damaged due to excessive movement or vibration. This helps to maintain the bit's cutting performance and extend its lifespan. Finally, the uniform structure of the reinforced bit body contributes to a more stable drilling process, resulting in a better quality wellbore.
The integrated monitoring system is designed to provide accurate and reliable performance data. It uses high-quality sensors to measure parameters such as torque, vibration, and temperature. These sensors are calibrated to ensure accurate readings, and the data is processed in real-time to provide useful information to the drillers. However, like any monitoring system, there may be some minor variations in the readings due to factors such as the quality of the sensors or interference from the drilling environment. Regular calibration and maintenance of the system can help to ensure its accuracy.
Yes, the modular design of our PDC Bit allows for customization. Drill ers can choose different cutter types, sizes, and configurations based on the specific requirements of their drilling projects. For example, in a project with hard rocks, they may opt for larger and more aggressive cutters. In a project with softer rocks, smaller and more precise cutters may be more suitable. The ability to customize the bit in this way ensures that it can perform optimally in different drilling conditions.
The advanced anti-vibration system works through a combination of special damping components and a carefully designed bit geometry. The damping components, such as rubber or elastomeric materials, are strategically placed within the bit to absorb and dissipate the vibrations. The bit geometry is also optimized to minimize the generation of vibrations during the cutting process. By reducing the vibrations, the system helps to improve the stability of the bit, protect the drilling equipment, and enhance the overall drilling performance.
PDC BIT Specifications | |
Bit Size | 9 7/8 inches |
IADC CODE | S516 |
Primary Cutter Size | 16mm |
Qty of Blades | 5 |
API Pin Connection | 6 5/8 API REG |
Nozzle Qty | 7NZ |
Gauge Length | 2.0-3.0 |
Operating Parameters | |
RPM(r/min) | 60-350 |
WOB(KN) | 20-120 |
Flow Rate(lps) | 5-25 |
The superior cutter technology with its evenly distributed diamond particles and unique microstructure enables the cutters to maintain their sharpness for longer. This means they can cut through rocks more effectively and with less force. As a result, the bit can achieve a higher rate of penetration, reducing the overall drilling time. The consistent cutting performance also reduces the likelihood of bit sticking or getting stuck in the formation, further enhancing drilling efficiency.
The reinforced bit body provides several benefits. Firstly, it can withstand the high forces and stresses during drilling, reducing the risk of bit breakage. This ensures the bit can continue to operate reliably, even in tough conditions. Secondly, it offers better support for the cutters, preventing them from being damaged due to excessive movement or vibration. This helps to maintain the bit's cutting performance and extend its lifespan. Finally, the uniform structure of the reinforced bit body contributes to a more stable drilling process, resulting in a better quality wellbore.
The integrated monitoring system is designed to provide accurate and reliable performance data. It uses high-quality sensors to measure parameters such as torque, vibration, and temperature. These sensors are calibrated to ensure accurate readings, and the data is processed in real-time to provide useful information to the drillers. However, like any monitoring system, there may be some minor variations in the readings due to factors such as the quality of the sensors or interference from the drilling environment. Regular calibration and maintenance of the system can help to ensure its accuracy.
Yes, the modular design of our PDC Bit allows for customization. Drill ers can choose different cutter types, sizes, and configurations based on the specific requirements of their drilling projects. For example, in a project with hard rocks, they may opt for larger and more aggressive cutters. In a project with softer rocks, smaller and more precise cutters may be more suitable. The ability to customize the bit in this way ensures that it can perform optimally in different drilling conditions.
The advanced anti-vibration system works through a combination of special damping components and a carefully designed bit geometry. The damping components, such as rubber or elastomeric materials, are strategically placed within the bit to absorb and dissipate the vibrations. The bit geometry is also optimized to minimize the generation of vibrations during the cutting process. By reducing the vibrations, the system helps to improve the stability of the bit, protect the drilling equipment, and enhance the overall drilling performance.
