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Impact Innovations’ CSAM process demonstrated for Ti-6Al-4V

The unique Cold Spray Additive Manufacturing uses N2 as propelling gas

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Impact Innovations’ Cold Spray Additive Manufacturing technology (CSAM) is particularly attractive for the manufacturing of large parts, which are challenging for today’s powder bed fusion-based 3D printing processes, due to equipment size limitations, or protective atmosphere necessity – especially when depositing reactive materials such as Ti-6Al-4V.

In CSAM, up to now, Ti-6Al-4V was considered as one of the most challenging materials – due to the high critical velocities of the materials to overcome during the deposition process, which resulted in porosities, in the cold spray deposits, of 3% and higher. Impact Innovations’ recently-developed CSAM process – utilizing the unique combination of cold spray hardware, process parameters, and post-treatment procedure – achieved porosity levels <0,5%, and final mechanical properties exceeding the requirements given by the ASTM F3001, ISO 5832-3, and AMS 4930 standards.

Impact Innovations' CSAM process demonstrated for Ti-6Al-4V. The unique Cold Spray Additive Manufacturing uses N2 as propelling gas.

In contrast to other additive manufacturing technologies, powder particles are not melted during the CSAM process. The bonding occurs due to plastic deformation. Since Cold Spray does not require high temperatures, unlike other common technologies such as laser, electron beam, or wire-arc-based processes, it enables deposit components without the necessity of using any protective atmosphere with almost no dimensional limitation, and in the absence of thermal residual stresses. The Ti-6-4 material efficiency, from powder to deposit, is more than 98%.

Impact Innovations GmbH decided to demonstrate its new Cold Spray Additive Manufacturing process by building a Ti-6Al-4V freestanding turbojet aircraft engine fan shaft. The fan shaft is 380mm long and has a maximum diameter of 223mm. The fan shaft was deposited in approximately 2 hours, at deposition rate of 2.7kg/h. The net weight of the fan shaft, after final machining, is 3.2kg.

Impact Innovations' CSAM process demonstrated for Ti-6Al-4V. The unique Cold Spray Additive Manufacturing uses N2 as propelling gas.

The fan shaft was deposited onto a pre-machined Al alloy mandrel, which was removed after the Ti-6Al-4V deposition by chemical dissolution. Subsequently, the fan shaft demonstrator underwent dedicated post-treatment processes, in order to achieve the desired mechanical properties – followed by turning to the final outer design and creating the additional features by other conventional subtractive manufacturing processes.

The Ti-6Al-4V alloy is typically used in marine and defence applications, for manufacturing aerospace structural parts, gas turbine components, and biomedical implants and prostheses.

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