The Assessment of Physical and Mechanical Property Variability in a New Generation of Low Inclusion NiTi Alloy

SMST 2022: Extended Abstracts from the International Conference on Shape Memory and Superelastic Technologies Pub Date : 2022-05-16 DOI:10.31399/asm.cp.smst2022p0091

W. Yin, F. Sczerzenie, R. Lafond

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Abstract

There is an increasing demand for high quality Nitinol medical devices and implants to accommodate to the rapid growth in the biomedical market. Extensive studies have confirmed the significant impact of micro-cleanliness of Nitinol on fatigue life. Ultra-clean Nitinol material is required for most critical medical applications such as cardiovascular and neurovascular devices for which integrity and durability are critical. This poses challenges for upstream manufacturers to consistently produce ultra-low inclusion Nitinol mill products. This work is a comprehensive to evaluate hot rolled bars and coils of a new commercial scale ultra-clean Nitinol alloy. The robustness of the alloy production process and stability of product properties was confirmed by examining a large number of mill products manufactured in different campaigns. Extensive characterization and multiple approaches of inclusion analysis demonstrated the consistent ultra-high cleanliness of the products.

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新一代低夹杂物NiTi合金物理力学性能变化的评价

为了适应生物医学市场的快速增长，对高质量镍钛诺医疗器械和植入物的需求不断增加。大量的研究证实了镍钛诺微清洁度对疲劳寿命的重要影响。对于大多数关键的医疗应用，如心血管和神经血管设备，需要超清洁镍钛诺材料，其完整性和耐用性至关重要。这给上游制造商持续生产超低夹杂物镍钛诺轧机产品带来了挑战。本文对一种新型工业规模超净镍钛诺合金热轧棒材和卷板进行了综合评价。通过对不同生产周期生产的大量产品的检验，证实了合金生产工艺的稳健性和产品性能的稳定性。广泛的表征和多种夹杂物分析方法证明了产品的超高清洁度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SMST 2022: Extended Abstracts from the International Conference on Shape Memory and Superelastic Technologies

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