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The various properties of titanium make it a powerful material for parts, but many of its properties also affect its machinability. Titanium has an excellent strength-to-weight ratio, which is usually only 60% of the density of steel. Titanium has a lower modulus of elasticity than steel, so the texture is harder and the deflection is better. Titanium is also superior to stainless steel in corrosion resistance and has low thermal conductivity. These properties mean that titanium will produce higher and more concentrated cutting forces during processing. It is prone to vibrations that cause chattering during cutting; and it is also prone to react with cutting tool materials during cutting, which can exacerbate crater wear. In addition, its thermal conductivity is poor, and since the heat is mainly concentrated in the cutting zone, the tool for processing titanium must have high heat hardness.
Stability is the key to success. Some machine shops have found that titanium is difficult to process efficiently, but this view does not represent the trend of modern machining methods and tools. Part of the difficulty is due to the fact that titanium processing is an emerging process and lacks experience to learn from. In addition, the difficulties often associated with the operator's experience and expectations, in particular, some people have become accustomed to processing the material in cast iron or low-alloy steel, processing requirements of these materials is generally low. In contrast, machining titanium seems to be more difficult because the same tool and the same rate cannot be used in machining and the tool life is different. Titanium processing is still more difficult than some stainless steels. We can certainly say that the processing of titanium must take different cutting speeds and feeds as well as certain precautions. In fact, titanium is also a completely directly processable material compared to most materials. As long as the titanium workpiece is stable, the clamping is firm, the machine is selected correctly, the power is right, the working conditions are good, and the ISO 50 spindle with a short tool overhang is equipped, all problems will be solved – as long as the cutting tool is correct.
However, in actual milling, the conditions required for titanium metal processing are not always satisfactory, because ideal stability conditions are not always available. In addition, many titanium parts are complex in shape and may contain many fine or deep cavities, thin walls, bevels, and thin brackets. To successfully machine such parts, large overhangs and small diameter tools are required, which can affect tool stability. When processing titanium, it is often more prone to potential stability problems.
Vibration and heat must be considered. The non-ideal environment also includes other factors. One of them is that most machines are currently equipped with IS0 40 spindles. If the machine is used with high strength, it will not be able to maintain a new knife state for a long time. In addition, if the part structure is complicated, it is usually not easy to clamp effectively. Of course, the challenge is not limited to this. The cutting process must sometimes be used for full-groove milling, side-cutting or contour milling, all of which have the potential (but not necessarily) to generate vibrations and poor cutting conditions. It is important to always pay attention to improving stability when setting up the machine to avoid vibration trends. Vibration can cause blade breakage, blade damage and unpredictable and inconsistent results. One improvement is the use of multi-stage clamping to bring the part closer to the main shaft to help counteract the vibration. [next]
Since titanium alloy retains its hardness and strength at high temperatures, the cutting edge encounters high forces and stresses, coupled with the high heat generated in the cutting zone, which means that work hardening is likely to occur, which causes some problems. Produced, especially for subsequent cutting operations. Therefore, choosing the best indexable insert grades and geometries is the key to success. Past history has proven that fine-grained uncoated insert grades are ideal for titanium processing; today, insert grades with PVD titanium coatings can greatly improve performance.
Accuracy, conditions and correct cutting parameters The accuracy of the tool's axial and radial runout is also important. For example, if the blade is not properly installed in the milling cutter, the cutting edge around the milling cutter can be quickly damaged. When cutting titanium, other factors, such as poor tool manufacturing tolerances, wear and tool damage, defective or poor tool holders, machine tool spindle wear, etc., can greatly affect tool life. Observations show that 80% of all cases of poor processing performance are caused by these factors. Although most people prefer to use a positive rake cutter, in fact a slightly negative rake cutter can remove material with a higher feed and feeds up to 0.5 mm per tooth. But this also means that the best stability must be maintained, that is, the machine should be very strong and the clamping should be extremely stable.
In addition to plunge milling (preferably using round inserts), the 90 main declination should be avoided as much as possible. This usually helps to improve stability and overall performance, especially when used in shallow depths. For deep cavity milling, a recommended approach is to use a tool with a variable length through the tool adapter instead of using a single tool of a single length throughout the process.
Adjusting the cutting parameters to overcome the vibration caused by reducing the feed per tooth is a traditional solution, but this method is not appropriate because it can have a catastrophic effect on tool life and cutting performance. Indexable inserts require a certain amount of cutting edge to be rounded to increase cutting edge strength and achieve better coating adhesion.
When milling titanium, the tool is required to work with at least a minimum feed rate - typically 0.1 mm per tooth. If there is still a tendency to vibrate, blade damage or shortened tool life will be unavoidable. Possible solutions include accurately calculating the feed per tooth and making sure it is at least 0.1 mm.
In addition, the spindle speed can be reduced to achieve the initial feed rate. If the minimum feed per tooth is used and the spindle speed is incorrect, the tool life can be as high as 95%. Reducing the spindle speed usually increases tool life.
Once stable conditions are established, the spindle speed and feed rate can be increased accordingly for optimum performance. Another option is to remove some of the blades from the milling cutter or choose a milling cutter with fewer blades.
According to research, the use of trekking poles during walking provides a number of benefits
during exercise, such as
Reducing pressure on the knee joint by 22%, providing adequate protection to the knee.
Improves walking stability, maintains balance and prevents sports injuries.
Increasing the range and frequency of body movements and enhancing walking speed.
evenly exercising muscles throughout the body and protecting the lower back and spine.
Reduces physical exertion by 30%.
Can be used as a support for rain or sun shelters.
Can be used for self-defence when encountering wild animals, etc.
Suitable scenarios
1. Outdoor hiking and trekking
Choose a three- or four-section trekking pole with a straight handle and aluminium or carbon fibre poles.
2. Flat/field walking
You can choose professional walking poles with sloping handles.
The walking poles have different wrist straps from ordinary hiking poles, with full palm straps that can
be used to match the swing angle of the arm.
The three-section carbon fibre poles are easy to carry and are more popular.
3. Recreational hiking/everyday use
Two-, three- and four-section poles are available, depending on the need for portability. You can choose
from aluminium, carbon fibre or wooden poles.
We mainly offer trekking poles for outdoor use, for example in the forest or on small hills. You can rely on
our quality and we are always available for services for your inquiries.
Compared with most other metal materials processing titanium processing requires not only higher, but also more limited. This is because the metallurgical properties and material properties of titanium alloys can have a serious impact on the cutting action and the material itself. However, if you choose the right tool and use it correctly, and optimize the machine and configuration to the best conditions for titanium machining, you can meet these requirements and achieve satisfactory performance and perfect results. Many of the problems encountered in traditional titanium metal processing are not inevitable, as long as the effects of titanium properties on the processing process are overcome, success can be achieved.
April 25, 2023