| Customization: | Available |
|---|---|
| Type: | Core Drill |
| Usage: | Coring |
|
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Geotechnical Modeling: Utilize the data obtained from diamond reaming shells to develop geotechnical models of the mining site. These models can help predict ground conditions, rock stability, and potential geological hazards, supporting safe and efficient mining operations.
Core Logging and Analysis: Implement a comprehensive core logging and analysis program to extract valuable information from the core samples obtained with diamond reaming shells. This includes detailed visual examination, geotechnical testing, mineralogical analysis, and geophysical measurements to gain insights into the rock properties, mineralization, and ore quality.
Drilling Fluid Optimization: Optimize the composition and properties of the drilling fluid or mud used in conjunction with diamond reaming shells. The drilling fluid should be tailored to the specific rock formations and drilling conditions to enhance cutting efficiency, core recovery, and hole stability.
Remote Monitoring and Automation: Explore the use of remote monitoring systems and automation technologies in drilling operations involving diamond reaming shells. This allows for real-time monitoring, control, and adjustment of drilling parameters, improving efficiency, safety, and data accuracy.
Training and Competency Development: Provide ongoing training and competency development programs for drilling personnel involved in diamond reaming shell operations. This includes training on equipment handling, drilling techniques, safety procedures, and geological interpretation to enhance skills and knowledge.
Project Planning and Scheduling: Incorporate diamond reaming shell operations into the overall project planning and scheduling. Consider factors such as core sampling requirements, drilling depths, and logistical considerations to ensure smooth integration of the drilling activities with other mining operations.
Collaboration with Laboratories: Forge partnerships with specialized laboratories for advanced core analysis and testing. Collaborate with these laboratories to conduct specialized tests, such as geochemical analysis, metallurgical testing, or mineralogical characterization, to gain a comprehensive understanding of the orebody.
Continuous Innovation: Stay abreast of technological advancements and innovations related to diamond reaming shells and drilling techniques. Explore new tool designs, materials, and drilling methodologies to improve drilling efficiency, core recovery rates, and overall mining productivity.
Data Management and Integration: Implement a robust data management system to organize, store, and analyze the data obtained from diamond reaming shell operations. Integrate drilling data with other geological, geotechnical, and mine planning data for comprehensive analysis and decision-making.
Health, Safety, and Environmental Considerations: Prioritize health, safety, and environmental considerations throughout the drilling operations. Implement stringent safety protocols, train personnel on safety procedures, and adhere to environmental regulations to minimize risks and ensure sustainable mining practices.
Stakeholder Engagement: Engage with local communities, indigenous groups, and other stakeholders to foster transparency, address concerns, and demonstrate responsible mining practices. Communicate the benefits of diamond reaming shell usage, environmental protection measures, and community engagement initiatives associated with mining operations.
Post-Drilling Analysis: Conduct post-drilling analysis to evaluate the effectiveness of diamond reaming shell operations. Assess core recovery rates, drilling performance, and geological insights to identify areas for improvement and inform future drilling campaigns.
Supplier Partnerships: Develop strong partnerships with reputable suppliers of diamond reaming shells. Engage in regular communication, provide feedback on tool performance, and collaborate on customized solutions to meet specific drilling requirements.
Industry Networking: Participate in industry conferences, seminars, and forums to stay updated on the latest developments in diamond reaming shell technology and mining practices. Network with industry experts and share experiences to gain insights and build professional relationships.
Continuous Evaluation and Improvement: Continuously evaluate the performance and effectiveness of diamond reaming shell operations. Seek feedback from drilling teams, analyze data trends, and implement process improvements to optimize drilling efficiency, core recovery, and overall mining outcomes.
By considering these additional factors, mining industry professionals can further enhance the utilization of diamond reaming shells, improve operational efficiencies, and drive sustainable and responsible mining practices.
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 |
FAQ:
Q1: What safety precautions should be taken when using diamond reaming shells?
A1: Standard safety precautions for drilling operations should be followed when using diamond reaming shells, including proper personal protective equipment (PPE), safe handling of drilling equipment, and adherence to drilling safety guidelines.
Q2: Can diamond reaming shells be used in underwater drilling?
A2: Yes, diamond reaming shells can be used in underwater drilling projects, provided the equipment and procedures are adapted for underwater operations.
Q3: What is the role of drilling fluid in conjunction with diamond reaming shells?
A3: Drilling fluid, also known as drilling mud, is used in conjunction with diamond reaming shells to cool the cutting elements, carry away cuttings and debris, and provide lubrication and stability during drilling.
Q4: How are diamond reaming shells attached to the drill string?
A4: Diamond reaming shells are typically threaded onto the drill string, allowing for easy installation and removal.
Q5: Can diamond reaming shells be repaired or re-tipped?
A5: Depending on the design and condition of the shell, it may be possible to repair or re-tip diamond reaming shells by replacing worn or damaged cutting elements. However, this is subject to the specific shell design and manufacturer recommendations.
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