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New coating technique boosts tool durability without damaging steel

Researchers have developed a low-temperature method to apply ultra-hard protective coatings to steel components, solving a decades-old manufacturing constraint. The technique could extend tool life and reduce production costs for industries from automotive to aerospace that rely on precision-machined steel parts.

Originaltitel: Tailoring phase formation and mechanical properties of low-temperature-grown Al-rich CrAlWN films by selective metal-ion bombardment during high-power impulse magnetron sputtering

Abstrakt

<p>Conventional physical vapor deposition of CrAlN coatings on carbon-rich steels (e.g., 100Cr6) is restricted to &lt;similar to 160 degrees C to preclude processes deleterious to the mechanical properties of steel. Here, we present a two-step pulsed substrate-biasing strategy in reactive high-power impulse magnetron sputtering to deposit Al-rich, single-phase cubic Cr1-x-yAlxWyN (x &gt; 0.5, 0 &lt; y &lt; 0.24) films under &lt;similar to 160 degrees C. Pulsed substrate biasing favors selective Al+ ion bombardment during early stages of film growth (&lt; 200 nm) and subsequently enables Al+ and Cr+ bombardment by extending the bias pulse width. This approach stabilizes rocksalt CrAlN by suppressing phase separation without interrupting the deposition process. The resultant films are dense, exhibit similar to 30 GPa indentation hardness, and high residual compressive stress of 4.2 GPa. Introducing W+ ions with Cr+ and Al+ at ion energies of similar to 30-100 eV lowers compressive stress by up to 0.97 GPa while retaining high hardness and increased film density. These attributes cannot be realized by conventional direct current magnetron sputtering at 500 degrees C. Such W alloying combined with two-step substrate biasing do not induce grain coarsening and strain relaxation due to tempering in 100Cr6 substrates. This can be adapted for growing low-temperature nitride films on temperature-sensitive substrates.</p>

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