Discover the advantages of Ruthenium-Iridium oxide and Ruthenium-Titanium coated electrodes, including PT/IR/Ru Coated Titanium Anode/MMO Coating Titanium Sheets Anode/Electrode DSA.
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Ruthenium-Iridium Oxide and Ruthenium-Titanium Coated Electrodes and Anodes
Electrodes are crucial components in many different industries, ranging from electroplating to water treatment and beyond. The type of electrode used can greatly impact the effectiveness and efficiency of the process, making it important to choose the right one for the job.
Ruthenium-Iridium Oxide Coated Electrode AnodeOne type of electrode that has gained popularity in recent years is the Ruthenium-Iridium oxide coated electrode. This type of electrode offers a number of benefits over traditional electrodes, making it a top choice for many different applications.
In this article, we will explore the advantages of using Ruthenium-Iridium oxide and Ruthenium-Titanium coated electrodes, including PT/IR/Ru Coated Titanium Anode/MMO Coating Titanium Sheets Anode/Electrode DSA.
What are Ruthenium-Iridium Oxide and Ruthenium-Titanium Coatings?
Ruthenium-Iridium oxide and Ruthenium-Titanium coatings are specialized coatings applied to the surface of electrodes. These coatings are made up of a mixture of ruthenium and iridium or titanium, depending on the desired outcome.
The addition of these materials to the electrode surface enhances the electrode's performance and durability, making it an excellent choice for a wide range of applications.
Benefits of Using Ruthenium-Iridium Oxide Coated Electrodes
There are a number of benefits to using Ruthenium-Iridium oxide coated electrodes, including:
Improved conductivity: The ruthenium-iridium oxide coating increases the electrode's conductivity, making it easier for electrical current to flow through it. This can result in faster and more efficient processes.
Increased durability: The iridium in the coating provides extra durability to the electrode, making it less likely to wear or break down over time.
Better corrosion resistance: Iridium is highly resistant to corrosion, which helps to prolong the life of the electrode and prevent any damage to the surrounding equipment.
In wastewater treatment these electrodes are used for water disinfection or pre-treatment in Electrocoagulation (EC) or Electro-oxidation (EO) equipment.
Benefits of Using Ruthenium-Titanium Coatings for Electrodes
Electrodes with Ruthenium-Titanium coatings offer a number of benefits, including:
Increased stability: The addition of ruthenium to the electrode provides increased stability, making it less likely to fluctuate or become unstable during use.
Improved performance: The titanium in the coating provides improved performance, resulting in faster and more efficient processes.
Greater resistance to wear: The titanium in the coating also provides extra resistance to wear, making the electrode more durable and long-lasting.
These electrodes can be tested with PREDEST EC test equipment.
PT/IR/Ru Coated Titanium Anode/MMO Coating Titanium Sheets Anode/Electrode DSA
PT/IR/Ru Coated Titanium Anode/MMO Coating Titanium Sheets Anode/Electrode DSA is a specialized type of electrode that combines the benefits of both Ruthenium-Iridium oxide and Ruthenium-Titanium coatings.
This type of electrode is designed for use in harsh environments and offers a number of advantages over traditional electrodes, including:
Increased durability: The combination of ruthenium, iridium, and titanium provides extra durability to the electrode, making it less likely to wear or break down over time.
Improved performance: The combination of these materials results in improved performance, making the electrode more efficient and effective.
Greater resistance to corrosion: The iridium in the coating provides extra resistance to corrosion, helping to prolong the life of the electrode and prevent any damage to the surrounding equipment.
How to Choose the Correct Anodes Electrodes for Your Water Application?
Additionally, it is important to consider the specific requirements of your application when choosing an electrode, especially in wastewater treatment projects.
Factors such as the operating environment, temperature, and the type of material being processed can all play a role in determining the best type of electrode for your needs. It is always recommended to get in touch with our team whom is experience in the field and can help you select the right electrode for your project.
Whether you're in the chemical processing industry, the energy sector, or any other industry that requires reliable, high-performance electrodes, it is worth considering the benefits of Ruthenium-Iridium oxide and Ruthenium-Titanium coated electrodes. These specialized coatings offer enhanced durability and performance, helping you to get the most out of your equipment and processes.
FAQs
Q: What is the difference between a Ruthenium-Iridium oxide coated electrode and a Ruthenium-Titanium coated electrode?
A: A Ruthenium-Iridium oxide coated electrode is made up of a mixture of ruthenium and iridium, while a Ruthenium-Titanium coated electrode is made up of a mixture of ruthenium and titanium. The different materials result in different benefits, with ruthenium-iridium oxide coated electrodes offering better conductivity and corrosion resistance, and ruthenium-titanium coated electrodes offering increased stability and improved performance.
Q: What are the benefits of using PT/IR/Ru Coated Titanium Anode/MMO Coating Titanium Sheets Anode/Electrode DSA?
A: The benefits of using PT/IR/Ru Coated Titanium Anode/MMO Coating Titanium Sheets Anode/Electrode DSA include increased durability, improved performance, and greater resistance to corrosion.
Conclusion
In conclusion, electrodes with Ruthenium-Iridium oxide and Ruthenium-Titanium coatings, including PT/IR/Ru Coated Titanium Anode/MMO Coating Titanium Sheets Anode/Electrode DSA, offer a number of advantages over traditional electrodes. These coatings provide improved conductivity, increased durability, and better resistance to corrosion and wear, making them an excellent choice for a wide range of applications.
If you're ready to learn more about the advantages of electrodes with Ruthenium-Iridium oxide and Ruthenium-Titanium coatings, including PT/IR/Ru Coated Titanium Anode/MMO Coating Titanium Sheets Anode/Electrode DSA, contact our specialists today. With the right electrode, we can ensure that your processes run smoothly and effectively, delivering the best possible results for your application.
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Current question and answers:
Q. Hello,
I am currently working on a project that involves generating repeated short-duration high-voltage pulses (around 6 microseconds and 80 kV) and making current flow though an aqueous solution. For this, I have been using stainless steel 316 in the shape of plates as electrodes, but the amount of iron, chromium and nickel ions released is too high. Unfortunately, this contaminates the treated solution and makes the electrodes last very little.
I was wondering if there was any type of plating that could withstand these high voltages. As far as I know (no experience), titanium works very well and it can be plated with inert metals like ruthenium, rhodium, palladium, iridium, platinum and gold. Do you think any of these are worth trying or if they could even work? Do you recommend other plating materials?
Thank you very much in advance for any advice that you can have.
Matias Romero
- Hamburg, Germany
A. Hi Matias. We appended your inquiry to a thread about anodes of this sort. It should give you a start on the selection. In addition there is a very interesting posting from Tom Baker on thread 11754 which you might want to review.
Luck & Regards,
Ted Mooney
, P.E. RET
Striving to live Aloha
finishing.com - Pine Beach, New Jersey
A. Applying 60kV for 20 microseconds is likely to produce intense plasma close to the electrode which is likely to result in physical processes such as sputtering, chemical etching etc. I wonder if such situations are considered in electroplating, for the plasma may influence the chemical processes.
Titanium can be coated with gold and many other metals, metal nitrides, carbides etc by PVD processes.
H.R. Prabhakara
- Consultant
You will get efficient and thoughtful service from GIANT ANODE.
Bangalore Plasmatek - Bangalore Karnataka India
Ed. note: Please, please, pretty please,
No abstract questions!
Q. Does anyone have any information or experience with selective passivation of portions an Iridium surface? I know low concentrations of F will accelerate passivity of the entire surface, but is there a way to selectively passivate (permanently) small areas or edges - I do not want to grind off
Ed Skorupski
- Stillwater New York, USA
? Hi Ed. Apologies but I'm getting no mental picture -- why you can't passivate the whole surface, what these edges are, what it is you want to stop grinding off and how passivation will save grinding it, whether you're talking about anodes or some other topic. Unfortunately, 'passivation' is one of the more confusing words in the finishing lexicon because it applies to so many processes in so many ways (passivation of stainless steel, passivation of carbon steel in boilers, passivation of zinc plating with chromates, passivation of phosphatizing with final rinses). Please tell us what you're building and what problems it is presenting. Thanks.
Luck & Regards,
Ted Mooney
, P.E. RET
Striving to live Aloha
finishing.com - Pine Beach, New Jersey
Q. The process involves continuous plating of copper out of acid sulphate bath on to a rotating cathode - the anode is wider than the cathode and as a consequence the hi-current density at the edge is manifesting itself as a "heavy" plated edge - because of the configuration and size of the anode and how the Ir coated anode plates are affixed to the subframe, mechanical methods are not feasible. When I use "passivate". I mean render non-conductive.
Ed Skorupski
[returning]
- Stillwater, New York, USA
A. Hi again. If the anode cannot be shortened, is it not possible to mask the ends either with a polymer or by installing a mylar or similar sheet between the anode and cathode to act as a shield? I admit that I don't fully understand your arrangement, but it seems to me that rendering the ends of the cathode non-conductive would just slightly reduce the width of the plated strip without solving too-thick at the edges plating problem.
Luck & Regards,
Ted Mooney
, P.E. RET
Striving to live Aloha
finishing.com - Pine Beach, New Jersey
⇩ Related postings, oldest first ⇩
Q. I'm looking for an anode resistant to corrosion in aqueous media and at high voltage (25 - 50 volts). For example, When proceeding to electrolysis of water, a relatively inert anode which also has some good electric properties is required. I am looking for that kind of anode.
Vincent Caron
University of Sherbrooke - Quebec, Canada
A. Platinum or Graphite. Platinum clad mesh materials go for about US$5.00/square inch. The Metal Finishing Guidebook lists several sources for both materials.
Good Luck,
Dave Kinghorn
Chemical Engineer
SUNNYvale, California
A. You can try activated titanium electrodes, this is titanium covered by ruthenium and/or iridium oxide. This is also known as DSA (dimensionally stable anode) material.
Another possibility is Ebonex.
Regards,
Frank Vork
- Eindhoven, The Netherlands
Q. I've heard that titanium covered with ruthenium and/or iridium oxide is a very expensive technology. I'm looking for an anode with a surface area of about 200 square cm.
Vincent Caron
[returning]
University of Sherbrooke - Quebec, Canada
RFQ: Our company is based in Malaysia and we are involved in plating of leadframes. We are presently looking for a vendor to plate iridium oxide on our titanium anodes. We plan to convert all our platinum anodes to Iridium oxide coated Titanium anodes.
Nick Lim
- Malaysia
Ed. note: Sorry, this RFQ is old & outdated, so contact info is no longer available. However, if you feel that something technical should be said in reply, please post it; no public commercial suggestions please ( huh? why?)
A. Hello Nick,
Typically this process is done via vacuum methods, or by plating of Ir then thermal oxidization. Do you actually want reduced Iridium or the Oxide exposed? I am interested in understanding why you choose the Oxide? Also, are these platinum anodes that you will replace with IrOx/Ti located in your high-speed cells or your low speed flood cells? Using it in your high speed cells may introduce a severe design constraint into your cell tooling designs. I am sure if you contacted Technic, Inc. they will put you in contact with someone that they supply Ir to.
Regards,
Dave Kinghorn
Chemical Engineer
SUNNYvale, California
Q. I am searching for the electrical and corrosion properties of ruthenium oxide and iridium oxide anode coatings intended for the electrodeposition of cationic coatings.
Paul R. Kerr
Q. Dear Sir,
We are looking for the RESISTIVITY of IRIDIUM OXIDE ( IrO2 ). Many thanks for an answer on this subject.
Sincerely yours.
Jean-Michel.DESVIGNES
Lab. CHARLES FABRY de l'INSTITUT d'OPTIQUE - Orsay FRANCE
A. The electrical resistivity of our IrO2 films is about 40 micro-ohm-cm (which compare well with that of single-crystal bulk IrO2). this particularly answers the questions of Jean-Michel.DESVIGNES from Lab. CHARLES FABRY de l'INSTITUT d'OPTIQUE and Paul R. Kerr.
-We have developed a new physical process to coat virtually any surface (Titanium is an excellent substrate with highly conductive and dense IrO2 films with an excellent adherence (Appl. phys. Lett. 69, (1996) 2027) . So this is a direct response to the Nick Lim - Malaysia.
- These iridium oxides have been tested for some specific corrosion studies and they have exhibited excellent corrosion resistant behaviors. Other applications are currently under evaluation.
Prof. My Ali El Khakani
Université du Québec / INRS - Energie et MatÈriaux / Varennes, QuÈbec, Canada
Q. I need information on how to coat Iridium on Titanium anodes. I am trying to coat a spring finger on a rack that is involved for plating.
James J. Sezemsky
Q. I am studying about DSA for chlor-alkali industry. I know that they are mostly made from titanium coated with titanium oxide - ruthenium oxide.
My question is this: How is the way of coating this DSAs? and what are the salts used in the coating? I will be thankful if you can guide me.
Yours faithfully,
Mohammad Abedi
- Tehran, Iran
A. Platinum group metals are deposited on titanium via thermal decomposition methods. For the most part, any form into which you can fabricate titanium, can be coated.
Depending on application requirements, the coating composition and loading can be altered for better performance.
Iridium oxide or iridium oxide/tantalum oxide mixes are quite common and perform well in a broad variety of applications.
For chlorine generation, mixtures containing ruthenium oxides are typically preferred due to higher yield (i.e. better specificity).
Barry Martin
Siemens - Union, New Jersey
Multiple threads merged: please forgive chronology errors :-)
Q. I am looking for information on the use of Ruthenium or Iridium Oxide coated Ti anodes in electro-coating. Why are expanded metals used in this type of anodes? One would think it would be difficult to have complete coverage of the expanded metal. I'll appreciate hearing from someone with experience or knowledge in this area.
Thanks,
Paul Lim
- Toronto, Canada
A. RuO and IrO are what we refer to as DSA (Dimensionally Stable Anodes). They are used when one or all of the following conditions exist.
1) Very high current densities (greater than 5 amps/SF up to 12 amps/SF)
2) Concern for good UV durability on cationic acrylic tanks. As you experience soluble iron contamination greater than 20 ppm from parts or iron dissolution from stainless steel anodes that leak or overflow from plugged return lines, the UV durability will drop off rapidly.
3) Cationic color control tanks. Cationic tanks whether or not they are acrylic or epoxy can benefit in color control if you minimize the potential for dissolved iron from entering the paint bath from fallen parts or iron dissolution from stainless steel anodes that leak or overflow from plugged return lines. RuO is about twice the price of stainless steel and IrO is even higher yet. The RuO and IrO material are brushed on to a titanium anode. These hold up extremely well, but they can be prone to corrosion if the RuO layer is scratched.
Gurvin Singh
Mohali, Punjab, India
A. Ruthenium and Iridium Oxide coated mesh type anode is suitable for electrolysis of chlorates and caustic soda [affil links] anodes. It weighs light and surface area is more. You can operate 2KA/m2 suitable. Coating adherence is not a problem for mesh type anodes. Iron will deposit in the anode while power cut and will inactivate your UV system.
R.Nagarajan
Chennai, Tamilnadu, India
A. Expanded metal is a very efficient form of titanium to use in developing an anode. For example, if the mesh pattern has about 50% void area, the surface area is the same as for a solid sheet, even though half the titanium material is used. The cost of expansion is markedly less than the material savings for an expensive material like titanium.
The coatings are applied as salt solutions and the baked in an oven to convert to oxides. Various proprietary methods are used by manufacturers to prepare the surface for the coating and to control the thickness and uniformity of the coating to assure proper quality. Coating uniformity is not perfect, but depending on the manufacturing method, it can be quite good.
Coating loading effects life, but unless the area effected is large, the current discharge would shift to a nearby site that is still active. The titanium would form a passive film that would not breakdown and pass current. In most applications, the majority of the coating would have to fail before titanium substrate failure began.
Barry L. Martin
- Concord, Ohio
RFQ: We are a service looking forward to supplying below product to our good customers. Kindly offer your quotation as below. Titanium Mesh Dimension: W250mm x L640mm x T1 mm, with Iridium Oxide coating as an insoluble plating anode. Life time: in pulse mode of rectifier, Fw120A / Rev240A(current density 120ASF) can last for 6000 hour. General need: 600~1000 pieces per year. If any question please let me know. We are looking forward to receiving your response soon.
Mika C
plating service - Taiwan
[last name deleted for privacy by Editor]
Ed. note: Sorry, this RFQ is old & outdated, so contact info is no longer available. However, if you feel that something technical should be said in reply, please post it; no public commercial suggestions please ( huh? why?)
Multiple threads merged: please forgive chronology errors :-)
Q. The electrolytic chlorine generation industry and the "grounding" industry associated with galvanic corrosion both reference a Mixed Metal Oxide or MMO coated Titanium electrode. The metals referenced are NIOBIUM, PLATINUM, RUTHENIUM, IRIDIUM, etc. Does anyone have any details on this MMO coating and the process involved in producing this MMO coating? In addition, there seems to be new technology out there emerging which allows the polarity of the anode and cathode to change without damage to the coating. All info would be appreciated.
Thanks,
DAVID LEECH
- Batesburg, South Carolina
Q. I need the detailed information about how the mixed metal oxide coating on Titanium mesh.
SK.Gajalakshmi
- Theni, Tamilnadu, India
Q. I need the detailed information about how the mixed metal oxide coating on Titanium mesh/plate.
John Wong
- Shanghai, China
RFQ: We are interested in buy some anodes plated with the IrO2 coating, 50 square meters.
TONNY
[last name deleted for privacy by Editor]
plating shop - Longgang, Shenzhen, China
Ed. note: Sorry, this RFQ is old & outdated, so contact info is no longer available. However, if you feel that something technical should be said in reply, please post it; no public commercial suggestions please ( huh? why?)
Q. How to coat the Iridium & ruthenium oxide with titanium metal.
aparna sivalingam
production manager - Coimbatore.Tamil Nadu, India
Q. DSA. We need to coat the mixed metal oxide like Ir, Ru Oxide coating technologies.
regards
vijayakumar shanmugam
student - coimbatore.tamil nadu, India
Q. We are using iridium coated anodes in our chloride zinc plating bath. After 3 weeks the resistance started going up and the current flow started down. I checked them with x-ray florescence and found the iridium is still there but I am now showing chrome also. I had a problem with chrome contamination around the same time. Could chrome immersion plate on the surface of the iridium and would it stop the current flow?
Chuck Beckerdite
captive plating shop - Versailles, Missouri, USA
A. Hi Chuck. Chrome should not immersion plate on your anodes because iridium is a noble metal. Although such anodes can be used as auxiliary anodes to reach low current density areas, I'm not familiar with doing zinc plating with only such anodes. Where does the zinc come from if not from zinc anodes?
But chrome can really mess up a plating process. I'd suggest doing some Hull Cell testing to see if the plating solution has been successfully decontaminated and will plate properly. Good luck.
Regards,
Ted Mooney
, P.E. RET
Striving to live Aloha
finishing.com - Pine Beach, New Jersey
Q. Formula needed: I want to have Titanium Plates coated in Iridium for Hydrogen production in distilled water using a non caustic Electrolyte. What is the Electrochemical formula for the amount of hydrogen produced, by the amount of square inches of plate or mesh size, by the amps used?
Is there one?
Plate size example:
2.75" x 8" plates , 8 solid plates, or 8 mesh plates?
Howard R. Groves
- Eldersburg, Maryland
A. Hi, Howard. I don't think there is a formula for amount of hydrogen per square inch -- I think that's an empirical number based on the construction details. But I think that the amount of hydrogen per amp-sec should be predictable by Faraday's Law of Electrolysis, which says that 96,485 amp-seconds will release 1 gram equivalent weight.
Regards,
Ted Mooney
, P.E. RET
Striving to live Aloha
finishing.com - Pine Beach, New Jersey
RFQ: I need titanium coated with a mmo that is compatible with KOH as an electrolyte and able to be used as an anode in electrolysis. I am looking for a price to coat both sides of titanium sheet .8 mm thick 4' x 8', 4' x 10', 8" x 8", 6" x 6", 4" x 4".
Jason Bambenek
electrolysis - St Cloud, Minnesota, USA
Ed. note: Sorry, this RFQ is old & outdated, so contact info is no longer available. However, if you feel that something technical should be said in reply, please post it; no public commercial suggestions please ( huh? why?)
RFQ: Need 3 square meters / month
David Lee
electronics mfgr - , Florida, USA
Q. I am looking to bring Iridium coating in house. It is currently out sourced to a company that I believe is brushing it on. The material we are coating is Titanium and it is an anode structure.
I am not having much luck finding techniques or information on the topic. I think the people doing it now are roughing the surface then painting a coating on it, which is bluish (I believe IrO). Then I believe it is being baked in an oven.
Any help would be appreciated.
Steve Haasman
- Dayton, Ohio, USA
A. The substrate is sand blasted and pickled for the removal of scales. A paint of isopropyl alcohol with the metal chlorides along with titanium tetra chloride is painted by brush with no metal parts. It is baked in oven at 400 to 600 degrees. Painting and baking done many times to achieve the desired thickness. If wear resistance is needed iridium chloride is added, if catalytic action is needed ruthenium chloride is added, for water electrolysis, more platinum chloride is added. If high current density is required niobium is added. As far as I know.
Ganesanbala Chandran
- Chennai, India
Q. We use Ti electrodes in electrolysis of salt solution. We need to coat the Ti with ruthenium and iridium oxide. Any suggestions about how to do it will be greatly appreciated.
Vinod Sikka
Product Designer - Oak Ridge, Tennessee, USA
My understanding is that one applies the Ru or Ir to the CLEAN Ti surface as the appropriate nitrate. By CLEAN I mean totally free of oxides. One does this by treating the Ti with a nitric/HF or nitric/NH4HF2 pickle. Right after rinsing, you paint the precious metal nitrate on. Then, bake, to something like 400 °C.
After baking, you may with to add more nitrate solution, you might wish to do this a few times. On the final baking cycle, cool the coated metal electodes rapidly. One wants a certain amorphous nature in the coating; that helps the catalytic activity.
There's lots of literature out there about this technology. Such electrodes are commercially known as DSA - dimensionally stable anodes.
My knowledge of this is rusty. This is some stuff I did 20 years ago. I tried, not having any Ru or Ir, to coat my anodes with a mixed oxide of Ni and Co. I got a nice adherent coating, but the catalytic activity was disappointing.
Dave Wichern
Consultant - The Bronx, New York
⇦ (tip: readers rarely show interest in abstract questions;
actual situations usually prompt responses)
I wanted a detail parameters for iridium coating on titanium plates. Also wanted to know whether these parameters remain same for MMO coating as well?
Eshan Gupta
- Delhi, India
A. Hi Eshan. If you introduce yourself and your situation and a rather specific problem that you are encountering, this forum will generally help you address the specific problem. But if you are looking for a technical paper addressing the subject, scholar.google.com or surfacequery.com is probably a better idea.
Dave gave the general idea of how th process is done 23 years ago, and others have offered miscellaneous hints in the intervening years, but it seems that despite many people asking a similar question before you, nobody has yet offered to write a paper on this subject for us :-(
Regards,
Ted Mooney
, P.E. RET
Striving to live Aloha
finishing.com - Pine Beach, New Jersey
Contact us to discuss your requirements of iridium oxide coated titanium anodes. Our experienced sales team can help you identify the options that best suit your needs.