Coatings for Industrial Cutting Tools

---

Posted on August 28th, 2020 | By WayKen Rapid Manufacturing

If you’ve ever ordered parts from CNC milling services, you may know that custom machining costs a considerable sum of money. Upon looking at the total quote, some of the clients gasp and have a lot of questions regarding the pricing of the milling shops. Well, this article’s aim is to explain what a?CNC tungsten carbide inserts milling job price consists of.

What Is CNC Milling?

CNC milling ( computer numerical control milling ) is a machining process through controlling computers and rotating multipoint cutting tools that can quickly remove the material from the workpiece and create custom-designed parts or products.

Through the CNC milling process, we can machine various materials such as metal, plastic, glass, wood, and produce a variety of custom-designed parts and products.

The?Advantages?of?CNC?Milling

WayKen can offer cost-effective milling solutions whether you need a single part, small batch of prototypes, or full productions.

• Can produce complex parts
• Cost-effective for prototyping
• Short-run production
• High dimensional tolerances
• Smooth finishes

CNC machining services

• Various Carbide Inserts materials available
• Low cost
• 100% quality
• Fast delivery
• Excellent After-sales

Get a quote

The Importance of Cost Calculation for Milling Services

First of all, it is important to speak about why an accurate estimate of the machining cost is important. After all, there are a lot of different elements that contribute to the overall cost of a CNC milled part. The importance of consistent quoting by the CNC milling services ensures trust between the client and the manufacturer, makes it possible to understand where the minimum price is (when you don’t get any profit margin but are able to work and pay your employees salary), allows the manufacturer to control the profits and estimate the necessary resources for each job.

Stock Material

Stock material is the most basic cost. You need something to mill from, right? With CNC milling, choosing the right stock is usually easy. You look at the geometry of the final part (mostly, the form and the maximum dimensions), choose a standard stock type (most often a block or a plate for milling operations), and add a couple of centimeters in thickness to the maximum dimensions of the final part. Some milling services make it possible to upload your model of the final part and a milling cost estimation program will find a suitable stock for you.

Tooling

The tooling consists of all the jigs and fixtures, loading mechanisms, tool holders, and of their similar elements that are required to fix the base elements of the milling manufacturing system. These costs are highly individual and cannot be estimated automatically. The good news is that the majority of tooling in CNC milling shops is flexible and will fit 80% of the parts that come through this shop but there are always 20%. Since the cost of tooling is high, it is recommended to change the design of the part a little bit so it can be manufactured without the extra purchases.

Cutting Tools

Cutting tools, as well as cooling liquids, are consumables. Cooling liquid is recycled by the modern milling centers so its cost is negligible. But the percentage of cutting tools in the total of the milling price can be quite costly. Why is that? The answer is simple. This depends on the material. For example, tools for CNC milling acrylic or other soft plastics will be usable for a lot of operations because those materials are soft and do not damage the tool insert. However, harder materials, titanium alloys being on the top of that list, will wear the tools faster.

Apart from that, some CNC operations require specialized tools. For example, diamond machining inserts are much more expensive than carbide ones. CNC milling services usually have a set of recommended tool inserts for each material and will include those in the total.

Machinist Salary

This part of the machining costs is the most understandable. The work is carried out by an employee who has a per hour rate to his CNC services. If your part is large, additional loading and unloading rates may be added to the quote. It should be noted that the machinist is paid for preparation time as well since he sets up the fixtures, tunes up the cutting tools, and so on.

Machine Costs

Machine tools, especially 5-axis CNC milling centers use quite a lot of power and some are mounted with pneumatic systems additionally, which further enhances the use of electricity. Apart from that, companies have to take depreciation costs into account. All of that comprises the rate of a machine tool per hour. Naturally, if the part has to be processed on multiple machine tools (milling and turning both, for instance) then all the rates are added and multiplied by the processing time.

Quality Costs

Different parts have various quality demands. The better the precision and surface finish of the part, the more complex features it has, the more it will cost. So, some CNC shops add a tolerance coefficient when online quoting the jobs. That makes clients more careful when choosing the quality of their parts, saves time, and increases overall business efficiency. In addition, when a batch of parts is ordered, you can insert a percentage of faulty parts. The lower the percentage, the more often the machinist will have to check each corresponding part and the more expensive the whole job will be.

Shipping

We are living in a global world and it is often that a client from Europe orders CNC milling china services. Despite having a lot of different transport companies, shipping still costs money. Usually, machine shop managers let you choose from multiple methods of shipping with different price ranges, you have to include the weight and dimensions of the final part, of course, because shipping a small 0,5 kg shaft is different from shipping a whole set of injection molding dyes. If the shipping is free, then its price is just hidden into the profit margin of the total but the majority of CNC milling shops specify how much you’ll pay for shipping. Some companies can even offer to send your order to a side shipping company that you trust.

Profit Margin

Profit margin is never shown to the client but its coefficients are included in each part of the whole price. If the profit margin is zero (for shops where the business is hard), it means that all the money from the milling goes to cover the expenses and pay the salary. Basically, the business has worked, pays its people, and gets just enough to make ends meet but it doesn’t grow or develop. On the other hand, with a large profit margin, the milling shop gets a lot of extra money for each order but the demand is definitely lower since fewer people are ready to pay more money.

How WayKen Can Help You

CNC mills is a kind of flexible machining method that can manufacture parts in various shapes from soft metals like aluminum, harder metals like steel, and plastics such as acetal.

At Wayken, we can offer fast and cost-effective milling solutions no matter what you need a single part, a small batch of prototypes, or full production order. If you are interested in our CNC milling services, please don’t hesitate to contact us: info@waykenrm.com.

Beginning the AM Journey： An Uphill Battle

Titanium is often characterized as a “challenging workpiece material.” Certainly, machining this material is a challenge to milling machines, cutting tools and workholding accessories that are suitable for machining more common materials such as mild steel, cast iron or aluminum. With appropriate machines, cutters and related equipment, however, machining titanium can be a successful and profitable operation for the knowledgeable and committed machine shop.

The key is understanding the nature of titanium and the somewhat complex interactions among the components of the machining system that titanium calls for. Examining one end mill family specifically designed and engineered for titanium milling brings out many of these interactions. That is, the features and characteristics of these end mills reflect the implications of a complete system optimized for titanium machining.

This representative end mill family is VariMill II ER from Widia (Latrobe, Pennsylvania). It is the five-flute expansion of the original four-flute VariMiIl, hence the II.  The five flutes are unequally spaced.  ER stands for eccentric relief—the version of this end mill that is best-suited for titanium because the eccentric relief gives the cutting edges extra strength for the high feeds at relatively low rpms that titanium requires. Though primarily designed for roughing and finishing applications in titanium aerospace parts, it can be used for slotting, ramping and plunging of titanium and stainless steel in virtually any industry. 

David Buchberger, who represents Widia through Hi-Speed Corp. (Thousand Oaks, California), specializes in advising aerospace shops in titanium cutting. He explains why this cutter work so well in titanium. For example, the correct cutting edge for titanium is important because this material tends to work-harden, he says. Titanium quickly loses what low malleability it has when “beaten” by cutting speeds that are too high. “Titanium likes a big chip to clear material before it hardens. A strong, sharp edge, with the thrust of a rigid, high-torque machine structure to power it, can shear the titanium effectively,” he says. The eccentric relief on the edges of the VariMill II ER creates positive orientation on the radial and axial angles of this edge, which promotes this shearing action.

The underlying foundation for strong, sharp edges, however, has to be a tool with a strong, thick core that makes the entire tool rigid. For this reason, the flutes are more open at the tip of the tool where space for chip evacuation is needed, but as the core runs up to the shank, it becomes heavier to provide integrity to the tool and resistance to deflection, Mr. Buchberger explains. 

The flutes are unequally spaced to create a consistently variable impact on the workpiece that breaks up any regular frequency that might match a harmonic in the machine structure to create vibration, detectable as chatter. Of course, other sources of chatter, such as weaknesses in the machine structure or clamping methods, must be addressed in the system.

The coating on the end mill plays a role as well. The VariMill II ER end mills are coated with AlTiN (aluminum titanium nitride), which helps keep the edges sharp by resisting cracking and, more importantly, making surfaces that contact the workpiece smooth and slick so they generate less frictional heat. “Heat buildup accelerates deterioration of the cutting edges, so controlling friction reduces one of the negative factors that shortens tool life,” Mr. Buchberger says.

Because these end mills are designed to be center-cutting, an inspection of the flat end of the tool Tungsten Carbide Inserts shows a strong web across the root. This design eliminates a dead spot in the center that might drag across the floor of a pocket or bottom of a slot. The edges along the tip must also be prepped for sharpness and strength.

As a standard item, the VariMill II ER end mill offers the Haimer SafeLock anti-pullout clamping feature on tools 0.5 inch (12 mm) and larger in diameter. “This system gives the tool more stability and greater concentricity in the holder, in addition to countering pullout forces, so its benefits are multidimensional,” Mr. Buchberger says.

He adds that the primary concern for the programmer is having the correct speeds and feeds. “The concept is to spin the tool slowly and take big bites. A surface speed of 160 to 200 fpm is the best range.” He says this is more important than elaborate toolpath strategies.

Finally, CNMG Insert he stresses that any approach to machining titanium must be a complete system—the right tool, the right machine, the right clamping and so on. “When shops take care to do titanium milling right and invest in the appropriate technology, which includes carefully chosen cutting tools, they will have a system that makes machining titanium no more challenging than other operations,” he says. “The challenge is understanding a systematic approach and implementing it fully in the first place. He also suggests working with a cutting tool supplier who will base tooling recommendations on a review of the entire titanium machining operation. “Any weak link in the process can be disastrous. No cutting tool is the best or right choice if other elements of the system are sub-optimal, he concludes.

The VariMill II ER covers more than 100 standard line items ranging from 3/8 to 1.0 inch (10 to 25 mm) in diameter and is available globally.