| Type: | Core Drill |
|---|---|
| Usage: | Coring |
| Certification: | CE, ISO |
| Application: | Reaming |
| Industry: | Geological Survey |
| Payment Term: | Tt or LC |
| Samples: |
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| Customization: |
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Audited Supplier Here are some more details about diamond reamers in drilling conditions:
Reaming Shell Maintenance: Proper maintenance of diamond reamers is essential for optimal performance and longevity. This includes regular cleaning to remove drilling debris and mud that can accumulate on the reaming shell. Additionally, inspections should be conducted to check for any signs of wear, damage, or loss of cutting efficiency. Prompt maintenance and repairs can help prevent costly equipment failures and downtime.
Reaming Shell Cost Considerations: The cost of diamond reamers can vary depending on various factors such as the quality of diamonds, the complexity of the design, and the brand reputation. While high-quality diamond reamers may have a higher upfront cost, they often offer better performance, durability, and longer lifespan. It is important to strike a balance between cost and performance when selecting a reaming shell.
Reaming Shell Customization: In some cases, customized diamond reamers may be required to meet specific drilling needs. Customization can involve tailoring the design, diamond configuration, and size of the reaming shell to suit unique drilling conditions or project requirements. Working closely with experienced manufacturers or suppliers can help in developing customized solutions.
Reaming Shell Quality Assurance: Ensuring the quality of diamond reamers is crucial for reliable and consistent performance. Reputable manufacturers adhere to strict quality control processes and standards to produce high-quality reaming shells. This includes using certified diamonds, conducting rigorous testing, and adhering to industry regulations and specifications.
Reaming Shell Wear Analysis: Monitoring the wear patterns of diamond reamers can provide valuable insights into drilling conditions and tool performance. By analyzing the wear patterns on the diamonds, operators can assess factors such as rock hardness, abrasiveness, and cutting efficiency. This information can help optimize drilling practices and improve tool selection for future projects.
Reaming Shell Failure Analysis: In the event of reaming shell failure, conducting a failure analysis can help determine the root cause and prevent future failures. Failure analysis involves examining the failed reaming shell, identifying the mode of failure (such as diamond loss, cracking, or structural failure), and assessing factors such as operating conditions, maintenance practices, and material quality.
Reaming Shell Recycling and Disposal: Proper disposal or recycling of diamond reamers is important to minimize environmental impact. Diamond reamers may contain valuable materials such as diamonds and metal components that can be reclaimed and reused. It is advisable to follow local regulations and consult with recycling facilities or waste management experts for appropriate disposal methods.
Emerging Technologies: The drilling industry continues to explore and adopt emerging technologies that can enhance the performance of diamond reamers. This includes the integration of sensors and data analytics for real-time monitoring of drilling parameters and performance. Additionally, advancements in artificial intelligence and automation are being leveraged to optimize drilling operations and maximize efficiency.
Training and Knowledge Transfer: Continuous training and knowledge transfer among drilling professionals are essential for staying updated with the latest developments in diamond reamer technology. Training programs, workshops, and industry conferences provide opportunities for sharing experiences, best practices, and lessons learned. This helps improve overall drilling expertise and promotes collaboration within the industry.
These additional details provide further depth and insights into the various aspects and considerations related to diamond reamers in drilling conditions. By staying informed about these factors and embracing technological advancements, drilling professionals can optimize performance, mitigate risks, and drive innovation in the field of drilling.
Model or type:
Specifications
| ITEM | DIAMOND BIT | Reaming shell | |||||
| "Q" Series Wireline assembly |
Size | Bit Outer Diameter | Bit Inner Diameter | ||||
| mm | inch | mm | inch | mm | inch | ||
| AQ | 47.60 | 1.88 | 26.97 | 1.06 | 48.00 | 1.89 | |
| BQ | 59.50 | 2.35 | 36.40 | 1.43 | 59.90 | 2.36 | |
| NQ | 75.30 | 2.97 | 47.60 | 1.88 | 75.70 | 2.98 | |
| HQ | 95.58 | 3.77 | 63.50 | 2.50 | 96.00 | 3.78 | |
| PQ | 122.00 | 4.80 | 84.96 | 3.35 | 122.60 | 4.83 | |
| Metric T2 Series | 36 | 36.0 | 1.417 | 22.0 | 0.866 | 36.3 | 1.429 |
| 46 | 46.0 | 1.811 | 32.0 | 1.260 | 46.3 | 1.823 | |
| 56 | 56.0 | 2.205 | 42.0 | 1.654 | 56.3 | 2.217 | |
| 66 | 66.0 | 2.598 | 52.0 | 2.047 | 66.3 | 2.610 | |
| 76 | 76.0 | 2.992 | 62.0 | 2.441 | 76.3 | 3.004 | |
| 86 | 86.0 | 3.386 | 72.0 | 2.835 | 86.3 | 3.398 | |
| 101 | 101.0 | 3.976 | 84.0 | 3.307 | 101.3 | 3.988 | |
T Series |
TAW | 47.6 | 1.875 | 23.2 | 1.31 | 48.0 | 1.89 |
| TBW | 59.5 | 2.345 | 44.9 | 1.77 | 59.9 | 2.36 | |
| TNW | 75.3 | 2.965 | 60.5 | 2.38 | 75.7 | 2.98 |
|
| Reaming classification | |
| T series | T36,T46,T56,T66,T76,T86 |
| Cable series | AWL,BWL,NWL,HWL,PWL(Front end,rear end) |
| WT series | RWT,EWT,AWT,BWT,NWT,HWT(single tube/double tube) |
| T2/T series | T256,T266,T276,T286,T2101,T676,T686,T6101,T6116,T6131,T6146,T6H |
| WF series | HWF,PWF,SWF,UWF,ZWF |
| WG series | EWG,AWG,BWG,NWG,HWG(single tube/double tube |
| WM series | EWM,AWM,BWM,NWM |
| Others | NMLC,HMLC,LTK48,LTK60,TBW,TNW,ATW,BTW,NTW,AQTK NXD3,NXC,T6H,SK6L146,TT46,TB56,TS116,CHD101 |
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