Neota Product Solutions, a custom metal injection molding (MIM) manufacturer located in Loveland, Colorado, has recently partnered with a North American heat treat supplier to develop an exclusive sintering partnership.
Jason Osborne President Neota Product Solutions Source: LinkedIn
Neota provides comprehensive MIM solutions from early-stage prototyping to full scale manufacturing. The manufacturer and Solar Atmospheres of Western PA (SAWPA) developed a sintering thermal profile that densifies complex geometric shapes and also controls shrinkage. This results in a solid and strong metallic part, with near 100% density, while maintaining the tight tolerances that are required in their precision components.
Collaborating with Solar Manufacturing, the vacuum furnace production arm of the Solar family, SAWPA recently acquired a vacuum furnace which is engineered to handle MIM processing. The furnace has a work zone of 36” x 36” x 48” and a load capacity of 3,000 pounds.
Robert (Bob) Hill, FASM President Solar Atmospheres of Western PA
"Solar has been a class-act organization and has been instrumental in the aggressive growth of our company," stated Jason Osborne, president of Neota.
"We have sincerely enjoyed our relationship with the Neota team," added Bob Hill, president of Solar Atmospheres of Western PA stated. "As MIM industry experts, they know what they ultimately want in a finished part. As vacuum thermal processing specialists, we know how to achieve their high temperature processing parameters while not damaging our state-of-the-art vacuum equipment. Investing in our customer’s needs, ultimately results in lasting mutual relationships which become a successful endeavor for both parties."
Journey through this article by Robert Hill, FASM, president of Solar Atmospheres of Western PA, to explore the history, problems, solutions, and impacts this metal has had on multiple varied industries.
This original content piece was first released in Heat TreatToday’s Aerospace 2021 Issue. Click here to access the digital edition and all previous print/digital editions.
Robert Hill, FASM President Solar Atmospheres of Western PA
In 1987, Michael Suisman, president of Suisman & Blumenthal, sounded a stern warning that a “titanium disease” was spreading throughout the land. His clinical description was as follows:
Symptoms: The patient is completely overcome by the metal titanium. He or she tends to eat and sleep titanium, pushing all other metals out of his or her system. The patient will talk for hours about the virtues of titanium, extolling its remarkable qualities. Any blemish on titanium’s image, any negative characteristic will tend to be dismissed. Titanium’s feast-or-famine existence seems to only intrigue the patient.
Earliest known causes: In the 1950s, a number of patients were overcome with titanium, describing it as the “wonder metal.” The side effects of the “wonder metal” syndrome took many years to disappear.
Similar disease: See infatuation.
Length of disease: Lifetime.
Cure: None known.
After working with titanium for more than two decades, I have fallen victim to the “titanium disease.” What makes this metal so unique? With a quick look at the history and distinctive properties, one can easily recognize the attraction.
History
Titanium was discovered by an English pastor named William Gregor in the 1700s. In the 1800s, small quantities of the metal were produced. Before World War II, titanium as a useful metal was only a tantalizing laboratory curiosity. At that time, titanium was only valuable as an additive to white paint in its oxide form. It took the long and expensive arms race between the United States and the Soviet Union in the 1940s to create the need to solve many of titanium’s complex problems.
Since the end of the Cold War, titanium has matured primarily as an aerospace material. However, this “wonder metal” has expanded to commercial markets such as artificial body implants, golf clubs, tennis rackets, bicycles, jewelry, heat exchangers, and battery technologies.
Titanium’s unusual metal attributes include a strength comparable to steel – but 45% lighter. It is twice as strong as aluminum–but only 60% heavier. It is both biologically and environmentally inert. It will not corrode. The metal is nonmagnetic and can hold strength at high temperatures because it has a relatively high melting point. Finally, titanium has a very low modulus of elasticity and excellent thermal conductivity properties. For thermal processors, these “spring like” properties allow titanium to be readily formed or flattened with heat and pressure.
Problems
For all of its outstanding attributes, titanium is still the problem child of the metallurgical family. It is exceedingly difficult to obtain from its ore, which commonly occurs as black sand. If you scoop up a handful of ordinary beach sand and look closely, you will likely see that some of the grains are black–this is titanium ore. In certain places in the world, especially Africa and Australia, there are vast black sand deposits. Although titanium is the ninth most abundant element on the earth, turning that handful of sand into a critical jet engine blade or body implant is a significant undertaking. The refining process is about 10,000 times less efficient than making iron, which explains why titanium is costly.
Vacuum aging of titanium aircraft forgings Source: Solar
Titanium never occurs alone in nature, and it is a highly reactive metal. Known as a transition metal, it can form bonds using electrons from more than one of its shells or energy levels. Therefore, titanium is known as the streetwalker metal. Metallurgists are aware that titanium is renowned to pick up other elements quite readily during many downstream thermal and chemical processes. These reactions are often harmful to the advantageous properties of titanium and should be avoided at all times.
Solution
Since titanium has a tremendous affinity to pick up other elements at elevated temperatures, primarily oxygen and hydrogen, the only way to heat treat titanium successfully is to utilize high vacuum atmospheres. High vacuum levels of x10-5 Torr minimum and low leak rates of five microns per hour maximum are the parameters needed to retain this metal’s desired properties. An oxygen-rich atmosphere results in a hard “alpha case” surface condition. A hydrogen atmosphere results in a hydride condition, which makes titanium very brittle to the core. Both conditions can be extremely detrimental to any critical titanium component.
With high pumping capability and tight pyrometric controls, vacuum furnaces successfully provide various treatments on the “wonder metal” while avoiding the “streetwalker” syndrome. The treatments include inert stress relieving, solution treating, aging, and degassing treatments. After proper processing, bright and clean parts with low hydrogen content and zero alpha case are the norm.
The recycling of titanium is of a different magnitude than other metals due to its value. It took a shortage of titanium in the 1980s–and some innovative metallurgy–to transform valuable titanium scrap back into a qualified ingot. To do this, metallurgists used the reactivity of the metal to their advantage. Because titanium is very ductile and extremely hard to grind into powder, metallurgists learned how to use hydrogen to their advantage. Adding hydrogen to turnings and scrap makes the titanium brittle and enables the material to be pulverized into fine powders. The final product must then be thoroughly degassed or dehydrided to enter back into the revert stream, because every pound of titanium is precious.
Vacuum dehydriding (degassing) 130,000 pounds of titanium sheet and plate Source: Solar
The reactivity of titanium also assists the metallurgist to apply various surface treatments. Nitride and carbide surfaces, when used, add further protection to titanium while making the exterior harder.
Alloys
Titanium alloys are divided into four distinct types: commercially pure, alpha, beta, and alpha beta. Commercially pure grades have no alloy addition, and therefore they have very little strength. This grade of titanium is used when corrosion resistance is of greater importance. Alpha alloys are created with alpha stabilizers such as aluminum. They are easy to weld and provide a reliable strength at elevated temperatures. Beta alloys use stabilizers such as molybdenum or silicon which makes these alloys heat treatable to higher tensile strengths. Finally, the most used titanium alloy are the alpha-beta alloys. These heat treatable alloys are made with both alpha and beta stabilizers creating an excellent balance between strength, weight, and corrosion resistance.
Summary
Despite all the advances, titanium and its many alloys have not reached their apex in popularity in the world. Is there any other element that calls to mind the notion of strength quite like titanium? For what reason has this metal, named after the Titans of Greek mythology, not yet reached its full potential? If it were not for the expense, we would undoubtedly have titanium cars, houses, jets, bridges, and ships. Unfortunately, the cost of titanium keeps the “titanium disease” at bay.
About the Author: Robert Hill, FASM, president of Solar Atmospheres of Western PA, began his career with Solar Atmospheres in 1995 at the headquarters plant located in Souderton, Pennsylvania. In 2000, Mr. Hill was assigned the responsibility of starting Solar Atmospheres’ second plant, Solar Atmospheres of Western PA, in Hermitage, Pennsylvania, where he has specialized in the development of large furnace technology and titanium processing capabilities. Additionally, he was awarded the prestigious Titanium Achievement Award in 2009 by the International Titanium Association.
Welcome toHeat Treat Today’sThis Week in Heat TreatSocial Media. As you know, there is so much content available on the web that it’s next to impossible to sift through all of the articles and posts that flood our inboxes and notifications on a daily basis. So, Heat Treat Todayis here to bring you the latest in compelling, inspiring, and entertaining heat treat news from the different social media venues that you’ve just got to see and read!
Check out today’s line-up of Halloween Costumes, Thanksgiving and your heat treat furnace, a video on the details of stress relieving, and more!
Typically, we like to start these posts with an intriguing or exciting metallurgical post from the industry. But with Thanksgiving right around the corner, we know you would like to contribute with the skills that you use every. Single. Day. Still, be careful… Enjoy this video from Ipsen USA.
2. Technically Know How
We see you! And we think it’s awesome! Here are several videos and images of heat treat techniques and shared knowledge. Feel free to @HeatTreatToday when you post these videos so that we can see them!
Talk about throwbacks, these videos and images from the “social-inter-webs” share some interesting factoids and knowledge from the past. Check out heat treating video from the 1970s, heat treatment in Japanese culture, and 6,500 year-old copper workshop.
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1973 – Properties and Grain Structure Video
Check out this video, “Properties and Grain Structure: BBC 1973 Engineering Craft Studies,” and let us know if you agree with one of the commenters: “Please never remove this video from youtube. This video is a majestic gem in an ocean of gray pebbles.” If you share it on your LinkedIn page, @HeatTreatToday so we know what you think!
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The Art of Mokume Gane
Full disclosure: this is NOT at the high temps that you are used to. But still…get a load of Mokume Gane: “it is an ancient Japanese technique used to make jewelry, blade guards and many other things. It is basically Damascus or pattern welded steel, but made from non ferrous metals such as gold, silver, copper, brass, platinum, bronze etc.” (Source: HomemadeTools.Net)
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Secrets of the Desert
Tel Aviv University and Israel Antiquities Authority believe copper-producing technology was closely guarded secret in the Neveh Noy neighborhood of Beer Sheva, capital of the Negev Desert. This emergency archeological excavation came about to safeguard threatened antiquities. Now, “The new study also shows that the site may have made the first use in the world of a revolutionary apparatus: the furnace.” (Source: Tel Aviv University: American Friends)
Work on the dig in Beer Sheva. Photograph credit: Anat Rasiuk, Israel Antiquities Authority. (Source: “6,500-year-old copper workshop uncovered in the Negev Desert’s Beer Sheva,” Tel Aviv University: American Friends)
4. Reading and Podcast Corner
Free Classes Anyone? Thank you, C3 Data
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Heat TreatRadio: Rethinking Heat Treating (Part 3 of 4) — The Fracking Pump Valve Seat
The latest episode is with integrated heat treating professional Joe Powell and Doug Glenn as they talk about the fascinating heat treatment of a fracking pump valve seat.
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Heat Treat Radio: Andrew Bassett on AMS2750F (Part 2 of 3) — SATs
Get ready for the next episode in this series being released in early December with this podcast! Doug Glenn continues his conversation with AMS2750F expert Andrew Bassett. This time, the pair discusses Revision F changes to System Accuracy Tests (SATs).
Savings of over $700.00 in hard grinding costs PER GEAR on an 18-inch bevel gear? Listen to Joe Powell of Integrated Heat Treating Solutions tell how they did it. [Go to Heat Treat Radiowith Joe].
[blockquote author=”Joe Powell” style=”1″]“It’s a win-win-win. The customer is happy, we’re happy and it works. This demonstrates that you can indeed quench very, very intensively. We’re talking about 400-600 degrees Centigrade/second of quenching.”[/blockquote]
5. Scary Manufacturing…Maybe
While this is not exactly metal, could any of you make this? Or maybe the more important question is, would any of you make this?
A recent strategic partnership between a North American commercial heat treater and a hot isostatic pressing service provider will open up more immediate options for heat treating customers.
(Source: Solar Atmospheres, CA)
Solar Atmospheres of California, providing vacuum heat treating services, and Kittyhawk, offering hot isostatic pressing (HIP) services for the aerospace, commercial, military, medical, automotive, firearms and oil and gas industries, will partner to offer heat treating and hot isostatic pressing services.
Brandon Creason President Kittyhawk
“This partnership,” says Brandon Creason, president of Kittyhawk, “allows the customer to take advantage of hot isostatic pressing and heat treat without having to look further. I am very excited about the future, and more importantly, providing our customers with two of the best options in the service industry.”
Derek Dennis President Solar Atmospheres California
Derek Dennis, president of Solar Atmospheres of California, adds, “In response to the needs and requirements of our valued customers, Solar Atmosphere is delighted to partner with a high caliber organization like Kittyhawk to provide hot isostatic pressing services.”
(photo source: National Cancer Institute at unsplash.com)
Dan Insogna Southeast Regional Sales Manager Solar Manufacturing (photo source: solarmfg.com)
A Southeast USA heat treater in the defense industry recently acquired a vacuum furnace. It will be used to age harden precipitation hardened stainless steels and beryllium copper.
The Mentor® vacuum furnace is a model HFL-2018-2IQ, built by Solar Manufacturing. It features a graphite-insulated hot zone, a load weight capacity of up to 250 lbs., and a maximum operating temperature of 2400°F.
"We provided a complete turnkey solution," states Dan Insogna, Southeast Regional Sales Manager for Solar Manufacturing. Along with the furnace, the heat treater received "a water system, and the recipes for the heat treat cycles their materials require."
The Mentor® vacuum furnace from Solar Manufacturing (photo source: Solar Manufacturing)
Neota Product Solutions, a custom metal injection molding (MIM) manufacturer located in Loveland, Colorado, has recently partnered with a North American heat treat supplier to develop an exclusive sintering partnership.
