Elizabeth Engler Modic

Titanium-Copper Alloy May Improve 3D Process for Medical, Aerospace Applications

/ ALLOY FABRICATIONS NEWS, FEATURED NEWS, MEDICAL HEAT TREAT, MEDICAL HEAT TREAT NEWS, TITANIUM PROCESSING TECHNICAL CONTENT

 

Source: Today’s Medical Developments

 

A new category of high-performance titanium-copper alloys for 3D printing is being considered for medical device, aerospace, and defense applications, and heat-treating may improve the process further.

In a collaborative project, leading researchers from RMIT University, CSIRO, the University of Queensland, and The Ohio State University studied the problem of titanium alloys being prone to cracking or distortion due to cooling and bonding together in column-shaped crystals during the 3D printing process. But a titanium-copper alloy developed by the research team seems to have solved this dilemma.

“Of particular note was its fully equiaxed grain structure,” said Professor Mark Easton from RMIT University’s School of Engineering in Today’s Medical Developments. “This means the crystal grains had grown equally in all directions to form a strong bond, instead of in columns, which can lead to weak points liable to cracking. Alloys with this microstructure can withstand much higher forces and will be much less likely to have defects, such as cracking or distortion, during manufacture.”

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CSIRO Senior Principal Research Scientist, Dr. Mark Gibson, says their findings also suggest similar metal systems could be treated in the same way to improve their properties.

“Titanium-copper alloys are one option, particularly if the use of other additional alloying elements or heat treatments can be employed to improve the properties further,” Gibson says. “But there are also a number of other alloying elements that are likely to have similar effects. These could all have applications in the aerospace and biomedical industries.”

 

Read more: “Adding Copper Strengthens 3D-Printed Titanium”

Main photo credit / caption: RMIT University / 3D-printed titanium-copper bars with titanium powder and copper powder.

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Heat Treating Step in Metal Filament AM Expands Applications

/ AEROSPACE HEAT TREAT, AEROSPACE HEAT TREAT NEWS, FEATURED NEWS

 

Source: Aerospace Manufacturing & Design

 

A Wisconsin-based additive manufacturing company recently came out with metal filaments encased in a binder, allowing for a two-step process of printing then heat treating to produce a safer metal 3D printing solution as well as broader use in industry applications such as

  • Biomedical innovators
  • Jet engine technology
  • Radiation shielding
  • Space exploration
  • Nuclear power

 

“Even with the furnace step, filament-based printing tends to be faster and requires less specialized training, making AM technologies more accessible to manufacturers who don’t have large numbers of specialists.” ~ Aerospace Manufacturing & Design

Main Image Credit/Caption: The Virtual Foundry Facebook page/”Stainless Steel 316L Filamet™ Filament. Printed using a FlashForge Creator Pro.”

 

 

Read more: “Metal Filaments Expand Additive Applications”

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Nextremity Relocates Medical Device Manufacturing to Indiana

/ FEATURED NEWS, MEDICAL HEAT TREAT

Source:  Today’s Medical Developments

The global orthopedic worldwide market is about a $45 billion opportunity with a worldwide growth rate of around 9% while the foot and ankle sector – standing around $3 billion – is growing around 12% to 15% per year. Nextremity, a medical device manufacturer focusing on foot and ankles, recently relocated to Warsaw, Indiana, to be closer to its supply chain. Read more about this company and the medical device sector it serves.

Read more: Nextremity Solutions Medical Devices are All About the Foot and Ankle by Elizabeth Engler Modic

 

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