The microstructure of plasma arc cold-hearth melted Ti-48Al-2Mn-2Nb

Johnson, Timothy P.; Jesper, N.E.; Young, J. M.; Ward, Robin; Jacobs, M H

doi:10.1051/jp4:1993758

Cited by 4 publications

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“…Moreover, inert operating conditions of PAM, in conjunction with the transfer of a high energy density, permit alloying of a great number of metallic elements. For over 20 years, industrial PAM furnaces have been employed for the production of reactive, high melting points, refractory metals, and superalloys, as reported in [10][11][12][13][14][15]. Thus, PAM seems particularly suitable for melting ''cleaner,'' near equiatomic NiTi shape memory alloys (SMA), not only on laboratory scale NiTi-based button preparations [16,17], but also for Nitinol industrial production.…”

Section: Introductionmentioning

confidence: 99%

Plasma Arc Melting (PAM) and Corrosion Resistance of Pure NiTi Shape Memory Alloys

Tuissi

Rondelli

Bassani

2015

Shap. Mem. Superelasticity

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Plasma arc melting (PAM) as a suitable noncontaminating melting route for manufacturing high-quality NiTi alloy was successfully examined. The corrosion resistance of PAM Nitinol was evaluated by both potentiodynamic and potentiostatic tests and compared with lower purity NiTi produced by vacuum induction melting (VIM). For the electro-polished surfaces, excellent corrosion resistance of NiTi comparable with the Ti alloys was found with no pitting up to 800 mV versus saturated calomel electrode in simulated body fluid at 37°C. Potentiostatic results of PAM Nitinol indicate slightly better corrosion resistance than the lower quality VIM alloy.

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Section: Introductionmentioning

confidence: 99%

Plasma Arc Melting (PAM) and Corrosion Resistance of Pure NiTi Shape Memory Alloys

Tuissi

Rondelli

Bassani

2015

Shap. Mem. Superelasticity

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Advances in the Systems and Processes for the Production of Gamma Titanium Aluminide Bars and Powder

Haun

2017

JOM

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Plasma melting : intelligent control strategies

et al. 1993

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The closed-loop control of a plasma-arc melting furnace was investigated. The different sub-processes were found to be highly coupled, and the available sensors and actuators were insufficient. Both of these factors increase the difficulty of controlling the process. A control system design is shown which combines groups of sensor readings by using the available knowledge about the process to generate new variables which are more directly relevant to the control of the system. This new information, even if not used in a control system, is useful to the operators. The benefits of closed-loop control are discussed

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The microstructure of plasma arc cold-hearth melted Ti-48Al-2Mn-2Nb

Cited by 4 publications

References 0 publications

Plasma Arc Melting (PAM) and Corrosion Resistance of Pure NiTi Shape Memory Alloys

Plasma Arc Melting (PAM) and Corrosion Resistance of Pure NiTi Shape Memory Alloys

Advances in the Systems and Processes for the Production of Gamma Titanium Aluminide Bars and Powder

Plasma melting : intelligent control strategies

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