Sep 15 2016

Milling Materials & Cutting Speeds

admin

Milling machines are used for a large amount of differing tasks. Some of these tasks are what would come to mind when you think “milling” but the machines are also capable of drilling, boring, tapping, reaming and other jobs. There are rules you can following to determine what cutting speed and RPM should be used depending on what you are doing and what kind of material you are working with. For example, reaming is generally done at half the speed and double the feed of drilling.

Milling machine

Milling machine

First consider your cutting speed. On a milling machine “cutting speed” refers to the speed of the outside edge of the machine’s cutter while the cutter is active. Cutting speed is sometimes referred to as surface speed. When determining surface speed keep in mind that it is directly related to surface footage and surface area. Say you have a one inch cutter and a three inch cutter and you roll each of them by one full turn. The three inch cutter will have traveled further because it has a larger surface area. This principle is used when determining cutting speeds. If you have two cutters that are different sizes and move at them both at the same RPM the larger one will have greater surface speed. Surface speed is measured as surface feet per minute (SFPM). Cutting tools all work using this principle. Your cutting speed will mostly depend on the type of cutting tool you are using and the kind of material you are cutting. How hard the material is determines what cutting speed you should use. Harder materials require slower cutting speeds and vice versa. If you were cutting steel and switched to iron you would want to speed your machine up. If you were cutting aluminum and switched to iron you would want to slow your machine down. The cutting speed you should use will also be greatly influenced by the material your cutting tool is made out of. Cutting tools made of harder materials allow for faster cutting speeds. Feed rate and the depths of the cuts you are making will affect speed as well but not as much as the hardness of the cutting tool and the material. Cutting speed, feed rate and the depth of the cut are called cutting conditions when you group all three together. Your cutting conditions are determined by machinability rating (comparing materials on how well you can machine them).
A milling machine must be set up so that its cutter will operate at the right cutting speed. To find out what the right speed is you need to calculate the RPM (revolutions per minute). The equation for this is (cutting speed * 4) / (diameter of cutter). There are many charts available on the Internet and in machinability books that you can use to find the hardness of materials. These charts make good cheat sheets for machinists who are still learning or for people who do not have the time to look up the information on material hardness frequently. Say that you are using a quarter inch cutting tool on a material with a SFPM of 110. That would be 70 * 4 (which is 280) divided by 0.25. This equals out to 1120 RPM. There will be many times where you cannot set your speed settings to the exact number you can but try to get as close as you can. When you have to decide whether to go a bit faster or a bit slower than the number you calculated think about things like how deep the cut will be, if you are roughing or finishing your project and whether or not you are using coolant. What you want the end result of the project to be should influence your decision. There are also software programs available online that you can use to make the calculations you need. Just be sure to have access to all the numbers you need for your calculations, regardless of whether you are making the calculations yourself or are using software.


Sep 8 2016

Europe’s Best Hobbyist CNC Machines

admin

When a hobbyist is selecting a CNC machine to build or buy one of the biggest factors can be location. You may be able to find a good machine at a reasonable price somewhere but realize that importing it would cost so much that the “reasonable price” will now cost you an arm and a leg. Budget is often one of the key deciding factors when a hobbyist is selecting a machine so looking to buy locally is not only smart but often necessary. This article will review some of the better European-made machines on the market for our European readers who find themselves in this situation. Readers who are not European but do not mind the cost of importing may also find this article useful; one of these machines could be exactly what you have been looking for.

CNC-Step CNC router

CNC-Step CNC router

CNC-Step is a German company founded in 2005 that has grown into an extremely successful business. They produce a series of CNC routers called the High-Z, of which there are three main models, each with their own sub-models. The original, and most popular, machine they offer is the High-Z S-Series which comes in three varieties: the S-400, S-720 and S-1000. In terms of functionality these machines are all perform the same. As you go up in model number the size, weight and price of the machine increases so you can select a machine based on how big of a workspace you will need. The S-400 sells for €2.237,00 while the S-720 sells for €2.793,00 and the S-1000 sells for €3.343,00. The next step up is the High-Z T-Series which features ballscrews. The smallest version of this machine, the S-400/T, is actually a bit cheaper than the S-1000 so if space is not an issue this can be a powerful machine that you can purchase for a fairly reasonable price. Other machines are offered by CNC-Step but their remaining machines are more heavy-duty, better suited for professional machine shops than a hobbyist’s work area. Full details on the company and their products can be found at http://cnc-step.de/en/.

BZT CNC Router

BZT CNC Router

BZT is another German company that makes excellent CNC mills on the hobbyist and professional levels. While they have only been making CNC machines since 2006 the company has been around as a machining company for 30 years. They offer a large number of machines in a variety of series for customers with various needs and differing levels of skill. One of the best series for starting hobbyists is their PF series. All machines in the PF series are 3-axis machines that use 16mm ballscrews and the most basic machine, the PF 600-P, can be purchase for €2.201,50. Like other CNC machines that are sold in a series the higher model numbers tend to have the same mechanical performance but a larger work area and higher cost. BZT offers over a dozen different series of milling machines; you would be hard pressed to look at what they offer and not find a machine that can suit your needs. They also sell software, parts and even cheaper used machines in addition to the new mills they produce. To see all of the products BZT offers firsthand take a look at their website at http://www.bzt-cnc.de/en.

Badog CNC router

Badog CNC router

Badog CNC although is one of the smallest boasts a service helpline that can not be ignored. It seems that when you ask for help you don’t just get the usual any answer runaround but instead a Swiss accredited engineer actually answers your question. They even go so far as to offer free services of project development and free translation off digital files. The company started in 2008 with a lean management system but has sold over 600 machine products in Switzerland alone. Obviously one of the big up and comers in the milling machine market. See here http://www.badog.ch
There are certainly many other options for CNC machines if you live in Europe but these three companies are good starting points. Maybe you do not want to buy a new machine and are trying to build one instead. You could at least use these organizations to look for some of the parts you will need so even if you are building instead of buying these companies can still be useful to you. Not every company you look at has to be a large organization either. Try looking for local businesses as well; you never know what you may find.


Sep 1 2016

Aluminum and CNC Machines

admin

Aluminum is one of the trickier metals used on projects made with CNC machines. Its properties are a bit different from other metals so there are usually considerations that have to be taken before you start cutting. This article will review how aluminum reacts when cut with a water jet cutter, a laser cutter and a plasma cutter so that you can be better prepared to work with aluminum regardless of what type of CNC machine you are using.
Water jets are the most common type of CNC machine used for cutting alu, being able to cut as thin as 0.001” or as thick as 12”. Because water jets are a cold cutting process you do not have to worry about heat while you are cutting like you do with laser or plasma cutters so there is no need to worry about deformation or the material hardening. The lack of heat creates a safer work environment since there are no dangerous fumes being created by the cutting process. Abrasive water jets also have the advantage of being the cheapest of the three machines discussed in this article. Almost every type of cut you could need for an aluminum project is possible with a water jet.

Aluminum and cnc machine

Aluminum and cnc machine

Laser cutting is a bit unusual for working with metals (generally mechanical tools are used for metal cutting) but it is still a viable option. Because alu reflects light and conducts heat efficiently there are considerations that need to be taken before using a laser cutter on aluminum. Due to aluminum’s properties a standard laser will not work. Instead you would need a laser with a high power setting that also uses compressed gas. Using gas during cutting is fairly common with multiple types of machines so it should not be difficult to make the modifications you need. Laser cutters supported with nitrogen can cut aluminum without any loss in the quality of your project. The downside is that the increased power usage (i.e. more electricity) and the gas that you will use are going to make cutting aluminum more costly to cut than other materials. Additionally, laser can only cut aluminum that is fairly thin; at the maximum a laser cutter can be used on aluminum that is about ⅛” thick.
Plasma cutters generate a lot of heat and are capable of cutting many materials, including aluminum, very quickly. It may take a little time for a plasma cutter to get to full power after you turn it on but once the machine is running it will do its job very well. Selecting the correct type of gas to use for the plasma is paramount in ensuring that the aluminum cuts correctly. Your choice will also determine how messy the cutting process will be (what type of aluminum you are using will also be a key factor in determining this). Plasma cutters can use less expensive gasses than laser cutters can when cutting aluminum so costs will be a bit better over a laser cutter (though they likely will not be cheaper than a water jet).
Each of these three methods has their own ups and downs when it comes to cutting aluminum. If you are choosing between all three of these methods a water jet is going to be your best bet in most cases. Not every machinist will have a water jet available so if it comes down to a plasma cutter or a laser cutter do a little research and see which one would work best on the type of aluminum you are using. Regardless of what type of machine you have access to there is usually a way to make any project work (within reason) on a CNC machine. You just may need to think outside the box a little to figure out what that way is.


Aug 18 2016

Do I Need a Formal Education to use a CNC Machine?

admin

CNC machining is a hobby to many people but it is a profession to other individuals. There are classes and schools dedicated to teaching people about CNC machines. You may ask yourself whether it is necessary to get a formal education regarding CNC machines in order to use one. While it is not necessary, it certainly helps. Operating any CNC machine is by no means self-explanatory and professional CNC technicians are required to go through training. Hobbyists can and often do figure things out on their own but if you have the time and budget to take a few classes they will certainly increase your knowledge of CNC machines.
There are a lot of technical schools out there but not all of them will offer training with the type of CNC machine you want to use. Most schools that do offer training programs will not train you in a single classes; multiple classes are taken to break the training process up into several sections. Beginning classes may not even offer any hands-on training with the machine; actually working with the machines can be reserved for later classes in the training program.

CNC router machine

CNC router machine

Beginner classes will teach students about the basic concepts of CNC machines. Remember that even if you know a bit about CNC machines the same may not apply to everyone in the class. Just because the information the class is going over is not benefitting you does not mean no one in the class needs to learn that material. It may be boring at first but you have to get past the basic courses before you can move onto the real fun stuff. These courses will frequently cover the limitations of CNC machines. You will be taught to consider factors like tool selection, spindle speed, cutting sequences and clamping and positioning before you turn your machine on. Reviewing the function of G-code and how it interacts with a CNC machine is also commonly covered. Examples of coursework in beginner classes includes establishing how you will choose the right tool for a project (considering factors like safety and efficiency), installing handling devices and tools, loading G-code into the machine’s software and producing sample parts to make sure they match specifications and operation instructions given to you.
Advanced classes are where you start to really use the CNC machine, now that the beginning classes have taught you the basics of how to operate it. Initial advanced classes tend to start with reading, comprehending and making CNC programs for basic tasks like drilling, threading and turning. Later classes will cover more complex tasks like machine adjustments, program editing and creating new command syntax. Coursework in these classes may involve things like comparing test results to identify editing needs, regulating and adjusting coolant flow, repairing or replacing damaged tools and taking steps to prevent damage to tools, the CNC machine and the material being used for your projects.
These are generalizations of how a CNC machine training program is run and each institution may do things a bit differently but most places will do something along these lines. For a hobbyist it is not 100% necessary to take classes for CNC training but you will learn any subject faster when it is taught to you, compared to just figuring things out for yourself. Even if you do not have the time or budget to attend formal training at a school you should still look up tutorials and other help videos online to get a better idea of where to start and what to do. Everyone was a beginner at some point and they all had to learn somehow; determining the most effective and efficient way of learning is up to you.


Aug 11 2016

CNC machine Attachments

admin

When you first buy (or build) a CNC machine your primary concern when working on your budget is likely going to be figuring out what the best quality parts you can afford are. Every machinist, from professionals to hobbyists, wants to get the best CNC machine that they can in order to make machining processes as smooth as possible. While you should certainly concern yourself with the necessary parts of the machine first, so that it can actually run, there are additional considerations you can take. Attachments (or accessories, add-ons, or whatever you wish to call them) may not technically be essential to the running of a CNC machine but once you start using them they can be so beneficial that they will certainly start to feel like necessary components.
Some attachments are so common that many machinists would likely argue that they are essential components to any CNC machine. Ruin boards are a great example of an attachment that fit into this category. Image that you have your CNC machine set up and you are ready to machine your first project on your nice, new t-slot table. With what you just paid for that t-slot table you can picture what a nightmare it would be to accidently cut right into the table and destroy it. Keeping a ruin board between the table and your material should stop this from ever happening. Ruin boards do not need to be too thick; usually something between ⅛” and ¼” will work fine. New machinists may want to use a thicker board to leave more room for error.

CNC machine clamps

CNC machine clamps

Clamps are another great, yet simple, attachment that most basic CNC machines should include. Any level of precision machining will require you to hold your material still. There are a lot of ways to do this and clamps are one of the easier and more cost efficient methods. Sometimes you may have other methods available; t-slot tables utilize t-slot nuts, step blocks, step clamps and other implementations but it can be a hassle to find pieces that fit the specific table you are using. Making a clamping system of your own can be much more effective. Be creative and try to develop an easy-to-use system that works well with your equipment and set-up.
In some cases clamps may not be a good hold-down method because the item you are machining is too small. When you find that your clamps are too large, a milling vice is an excellent alternative tool. While a regular vice could be jury rigged to your table, a milling vice is designed specifically to work with a CNC machine table and they tend to be extremely precise. There are many different types and brands of milling vices in many different sizes so determine your needs and do a bit of research before committing to anything expensive.
Once you have a hold-down system in place you can start actually machining. On any project you want to make sure that everything has been machined accurately and there is no set of tools better for this than a pair of calipers. Digital calipers are the way to go for their extreme precision; 0” – 6” calipers will work fine for the vast majority of measurements you need to take while examining the finer details of projects. Cheaper calipers work fine but like any other tool you will want to go for the higher end of tool quality and price range as your budget allows.

 air sprayer for cnc machine

air sprayer for cnc machine

During and after machining, chip evacuation will be one of your primary concerns. Using an air sprayer is the best way to clear out chips while your CNC machine is running. Any standard air compressor with a trigger nozzle can do this well. Clearing away chips during the cutting process is often a critical procedure. After your machining has been completed you will want to use a shop vac’s powerful suction to get all of the chips out of your work area, leaving everything crisp and clean for your next project. Any time you are working with chips, and when using a CNC machine in general, always remember to wear safety goggles.