Guide to choose CNC lathe machine1. Regarding the Machine Size, choosing between a compact or larger machine can impact your workspace and the size of the parts you can produce. For smaller workshops, a compact CNC lathe might be more advantageous.2. For Spindle Speed, higher spindle speeds can im
| SPECIFICATIONS | Units | CK6136 | CK6140 | CK6150 | CK6160 |
| Swing over bed | mm | 360 | 400 | 500 | 600 |
| Swing over cross slide | mm | 190 | 210 | 260 | 350 |
| Distance between centers | mm | 750/1000/1500/2000 | 750/1000/1500/2000 | 750/1000/1500/2000 | 750/1000/1500/2000 |
| Spindle bore | mm | 52(Optional 80) | 52(Optional 80) | 52(Optional 80) | 52(Optional 80) |
| Spindle bore taper | - | MT6 | MT6 | MT6 | MT6 |
| Spindle nose type | - | A2-6(A2-8) | A2-6(A2-8) | A2-6(A2-8) | A2-6(A2-8) |
| Spindle speed steps | rpm | Stepless | Stepless | Stepless | Stepless |
| Spindle speed range | 1800 | 1800 | 1800 | 1800 | |
| Turret/tool post | - | Electric 4 position | Electric 4 position | Electric 4 position | Electric 4 position |
| Tool size | mm | 20*20 | 20*20 | 25*25 | 25*25 |
| X axis travel | mm | 180 | 200 | 250 | 300 |
| Z axis travel | mm | 500/750/1250/1750 | 500/750/1250/1750 | 500/750/1250/1750 | 500/750/1250/1750 |
| X axis rapid traverse | mm/min | 4000 | 4000 | 4000 | 4000 |
| Z axis rapid traverse | mm/min | 6000 | 6000 | 6000 | 6000 |
| Tailstock quill diameter | mm | 65 | 65 | 65 | 65 |
| Tailstock quill taper | - | MT4 | MT4 | MT5 | MT5 |
| Tailstock quill travel | mm | 140 | 140 | 140 | 140 |
| Main spindle motor | kw | 5.5 | 5.5 | 5.5 | 5.5 |
| Coolant pump motor | kw | 0.125 | 0.125 | 0.125 | 0.125 |
| Weight for 750 | kg | 1500 | 1550 | 1600 | 1700 |
| Weight for 1000 | kg | 1600 | 1650 | 1700 | 1800 |
| Weight for 1500 | kg | 1800 | 1850 | 1900 | 2000 |
| Weight for 2000 | kg | 2000 | 2050 | 2100 | 2200 |
| Dimension for 750 | mm | 2200*1600*1650 | 2200*1650*1700 | 2200*1700*1750 | 2200*1750*1800 |
| Dimension for 1000 | mm | 2500*1600*1650 | 2500*1650*1700 | 2500*1700*1750 | 2500*1750*1800 |
| Dimension for 1500 | mm | 3000*1600*1650 | 3000*1650*1700 | 3000*1700*1750 | 3000*1750*1800 |
| Dimension for 2000 | mm | 3500*1600*1650 | 3500*1650*1700 | 3500*1700*1750 | 3500*1750*1800 |
1. Regarding the Machine Size, choosing between a compact or larger machine can impact your workspace and the size of the parts you can produce. For smaller workshops, a compact CNC lathe might be more advantageous. 2. For Spindle Speed, higher spindle speeds can improve the efficiency of your machining process, especially for materials that require high-speed cutting. 3. Considering the Control System, opting for a user-friendly and advanced control system can significantly enhance the ease of operation and precision in your machining tasks. Look for machines with intuitive interfaces and robust software support.
4. Regarding Power and Torque, selecting a machine with higher power and torque can enhance the machining of tougher materials and improve overall efficiency. 5. For Tooling Options, having a variety of tool holders and automatic tool changers can increase versatility and reduce setup times, making your operations more flexible. 6. Considering Precision and Accuracy, machines with advanced precision control features, such as linear scales and high-resolution encoders, can ensure higher accuracy in your machining processes.
Sintered Ferrite Magnet Materials
Zhejiang Kaiven Magnet Co., Ltd. was founded in 1987 with a registered capital of 40.18 million yuan.
Kaiven is committed to becoming a world-renowned supplier of permanent magnet material application solutions in the field of new generation consumer electronics and energy-saving home appliances.
The company applies technologies such as casting columnar crystal growth control technology, grain refinement and micro-optimization technology, etc., and is committed to improving the consistency of powder and giving full play to the performance potential of rare earth. By improving the smelting microstructure, applying fine-grain technology, and optimizing the mixing process, etc., significantly improving the performance of NdFeB magnets.
The company has applied and improved low-oxygen magnet preparation technology and cold isostatic pressing technology, so that NdFeB magnets are in a low-oxygen state during the pressing process, and the preparation of molding blanks is continuously optimized, which effectively reduces the loss of rare earth. The application of low-temperature sintering heat treatment technology has further improved the sintering process. Adjusting the temperature to a suitable state can give full play to the performance of the formula. The representative products are high-performance N55 magnets prepared by low-oxygen technology and N38UH magnets produced by near-net molding technology.
In order to pursue the accurate precision of customer customization, the company applies high-performance ultra-thin small special-shaped permanent magnet preparation technology to carry out high-efficiency and low-loss precision machining of NdFeB blanks, breaking through the technical bottleneck of high-performance thin and small magnet processing difficulty, and Strictly control product appearance defects through intelligent image appearance automatic inspection technology to improve inspection efficiency and accuracy.
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