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10 Questions You Should to Know about PVD Coated Stainless Steel

Jun. 17, 2024
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PVD and CVD Question and Answers

What is PVD coating?

Physical Vapor Deposition, or PVD, is a term used to describe a family of coating processes. The most common of these PVD coating processes are evaporation (typically using cathodic arc or electron beam sources), and sputtering (using magnetic enhanced sources or &#;magnetrons&#;, cylindrical or hollow cathode sources). All of these processes occur in vacuum at working pressure (typically 10-2 to 10-4 mbar) and generally involve bombardment of the substrate to be coated with energetic positively charged ions during the coating process to promote high density. Additionally, reactive gases such as nitrogen, acetylene or oxygen may be introduced into the vacuum chamber during metal deposition to create various compound coating compositions. The result is a very strong bond between the coating and the tooling substrate and tailored physical, structural and tribological properties of the film.

The potential applications for PVD coatings are constantly expanding. That being said, PVD coatings can be separated into two very broad categories: functional and decorative coatings.

Functional PVD coatings are engineered to improve the life and overall performance of a tool or component; thereby, reducing the cost-per-part in manufacturing. Examples of functional PVD coating would be Titanium Nitride (TiN) on a HSS end mill.

Decorative PVD coatings are deposited to improve the appearance of a part, as well as to provide some wear resistance characteristics: improvements to both form and function. An example of decorative PVD coating would be the deposition of a Zr-based film onto a stainless steel door handle in order to provide a brass colored coating, but with a wear and tarnish resistance greater than real brass.

Richter Precision Inc. is always working on improvements to PVD processes and coatings. We have developed new coating compositions, new &#;Super Lattice&#; nano-layered coating structures, expanded our family of carbon coating processes (DLC), and implemented new technological advancements such as Filtered Arc technology. We are devoted towards maintaining our position as a leader in PVD coating technology.

For more PVD Coated Stainless Steelinformation, please contact us. We will provide professional answers.

What is CVD coating?

Chemical Vapor Deposition (CVD) is an atmosphere controlled process conducted at elevated temperatures (~° F) in a CVD reactor. During this process, thin-film coatings are formed as the result of reactions between various gaseous phases and the heated surface of substrates within the CVD reactor. As different gases are transported through the reactor, distinct coating layers are formed on the tooling substrate. For example, TiN is formed as a result of the following chemical reaction: TiCl4 + N2 + H2 ° C &#; TiN + 4 HCl + H2. Titanium carbide (TiC) is formed as the result of the following chemical reaction: TiCl4 + CH4 + H2 ° C &#; TiC + 4 HCl + H2. The final product of these reactions is a hard, wear-resistant coating that exhibits a chemical and metallurgical bond to the substrate. CVD coatings provide excellent resistance to the types of wear and galling typically seen during many metal-forming applications.

Why should I use PVD or CVD?

When using PVD orCVD coatings in a tooling application, the primary motivation is very simple: to lower your cost-per-part manufacturing costs. Our customers consistently experience a longer tool life while also being able to operate at increased speeds and feeds. The savings calculation becomes very easy: reduced down-time for PM and/or tool changes + increased production rates + decreased tooling costs due to increased tooling life with coating = significant and tangible savings for your company. The savings generated by the use of these coatings fall right to the bottom line as profit for the company.

How do PVD and CVD improve tool life and performance?

While all of our coatings have some variation in their properties in order to augment their performance in specific applications, there are two main properties that are fundamental to all of our coatings: high micro-hardness and lubricity (low coefficient of friction).

The average relative micro-hardness of our PVD and CVD coatings would be well over 80 Rc. When this hardness is compared to 58-62 Rc of tool steel, 62-65 Rc of HSS, or 70-76 Rc of carbide, one gets a clearer picture of the comparative hardness of our coatings. This higher hardness gives cutting tools, forming tools, and wear components much greater protection against abrasive wear.

As for lubricity, the Coefficient of Friction of our coatings can be significantly lower than the un-coated tool substrates. For forming tools, this lowered Coefficient of Friction means that tools work with less force due to reduced resistance. In cutting applications, reduced friction means less heat is generated during the machining process, thereby slowing the breakdown of the cutting edge. In slide wear applications, the coatings greatly reduce the tendency of materials to adhere: this reduces friction and allows for more unrestricted movement.

How much of an increase in tool life should be expected after PVD or CVD coating?

In many applications, conservative estimates would range from 2-3 times the life of an un-coated tool; however, some applications have shown increases in tool life that exceed 10 times that of an un-coated tool. When a customer works with our experienced staff to match the appropriate coating with their substrate and application, dramatic improvements follow.

Which coating process is best for my application?

This is a question without an &#;easy&#; answer. There are many variables that must be taken into consideration when choosing the best coating process and composition for a customer&#;s application: workpiece material, failure mode, tool substrate, and tool tolerances are just a few.

Broadly speaking, when the materials and tolerances allow, CVD coatings have proven to be superior in many applications. This is especially true for metal-forming applications where &#;sliding friction wear-out&#; and galling are pervasive. CVD creates a metallurgical and diffusion type bond between the coating and the substrate which is much stronger than the physical bond created through the PVD process. A potential area for concern with CVD coating is their high processing temperatures: °F and °F, respectively. This high processing temperature can limit the use of CVD in some applications due to tolerance concerns.

PVD coating, due to its relatively low processing temperatures, is suitable for a much wider range of substrates and applications. This is largely due to its lower processing temperatures (385°F-950°F) and average coating thicknesses of 2-5 microns. These characteristics, among others, make PVD coatings a better choice for applications where close tolerances need to be held, and for base materials that are sensitive to higher temperature ranges. For example, an HSS end mill would likely end up with straightness and concentricity issues if the process in a high-temperature CVD coating process, whereas it would be an ideal application for PVD coating. Lower process temperatures mean zero distortion will be observed on most materials, as long as proper draw temperatures are utilized.

Of course, there are many other factors that may be important to consider when choosing the appropriate coating process and composition. Please contact your Richter Precision Inc. representative for assistance in making the best choice for your application.

Is it possible to mask certain areas on parts to prevent them from being coated?

PVD is a line-of-sight process; therefore, it is possible to mask areas in order to prevent them from receiving coating deposition. When custom masking fixtures are required, our in-house machine shop is able to respond quickly in order to meet the customer&#;s needs.

The CVD process uses various gases during the coating process; therefore, the coating will deposit anywhere the gas can contact the substrate. Due to the nature of this process, it is extremely difficult to mask areas during CVD coating. Leaving extra material in order to grind critical dimensions after CVD coating using a diamond or CBN wheel is usually a better option.

Please contact us regarding the feasibility and costs related to masking for your particular application.

Is it possible to coat assembled parts?

Assembled parts cannot be coated with any of our coating processes. Parts must be fully disassembled prior to sending for coating. There can be no plastic, rubber, nylon, glue or tape in or on any part. Polishing compounds and excessive oil or lubricants must also be removed.

The company is the world’s best Blue Hairline Stainless Steel Sheets supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.

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What is the average thickness of your coatings?


4 Tips to Choose a Machining Auto Part Prototype

The average thickness of our various PVD coatings is 2-5 microns (.-.&#;). The average thickness of our various CVD coatings is 5-10 microns (.-.&#;).

What are the processing temperatures for PVD and CVD coatings?

The standard processing temperatures for our PVD coatings can range from 385°F-750°F depending upon the particular coating being deposited. Please note that we recommend draw temperatures of 750°F+ in order to avoid distortion or hardness changes. If these draw temperatures are not possible for your parts, then we recommend you contact us for special instructions in order to provide for the safe processing of your parts.

CVD processing temperatures will reach °F; therefore, any tool steels or HSS being CVD coated will be annealed during coating. After coating, we will vacuum heat-treat all steels in order to achieve the customer&#;s required hardness.

What materials are suitable for PVD or CVD processes?

High Speed Steels, carbides, and a wide variety of tool steels and stainless steels are among the most commonly coated materials for all of these processes. A more detailed list is available by accessing the Material Compatibility page of this website.

What are the average turn-around times for your coating processes?

The average turn-around time for functional PVD coatings ranges from 2-5 working days, depending upon the specific coating composition. The average turn-around time for decorative PVD coatings ranges from 2-3 weeks. The average turn-around time for CVD coatings is 5-7 working days.

Are you able to remove your PVD and CVD coatings?

We have de-coating processes available for removing all of our coatings. These processes remove only the coating layers and, in most cases, do not adversely affect tool substrates. There may be some limitations to de-coating certain compositions from carbide substrates. Contact your Richter Precision, Inc. representative for more information.

Questions: PVD vs Stainless steel - Time Talk

oagaspar
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Joined: Sun Sep 4th, Location: Akron, USA Posts:  Status: 

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watchboy wrote:
Here is Everything You Need to Know About True PVD Coatings ,Buddy

http://www.pvd-coatings.co.uk/
Oscar you are a good watch-caretaker, so I know your watches are minty no matter what! LOL!!!:P

But is PVD coated or anodized? Cos if it is coated, then a scratch might leave a "stainless steel color" mark on it, and if it is anodized, then even a mark, the color remains. I am not so sure of this.:?

Btw, your Broadarrow, is the case PVD or the bezel? Or both?

O.A. Gaspar wrote:
watchboy wrote:
Jacky..I have several Black PVD Watches and as Long as It Is True PVD it Will Last as Long as SS...I have never even had to Polish One of My PVD's and I wear my Timefactors Broadarrow PVD as a outdoors Watch IMHO Black PVD Watches are the Easiest to Care For .... Hey if PVD will come off from scratches, then I will stick to SS version! LOL!!!:D:D:D

jakisbck wrote: Sounds like somebody got a PVD watch in mine ......................hmmmmmmmmmmmmmm where is it and let us see it LOL

For more information, please visit Etched Stainless Steel Sheet.

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