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Optical Metrology

Optimisation of Imaging Confocal Microscopy for Topography Measurements of Metal Additive Surfaces

Optical Metrology
研究開発エンジニアリングマネージャー、光工学博士、フォトニクス理学修士  at Sensofar Metrology | Other articles

2010年よりSensofarで共焦点法、干渉法、焦点移動法の開発に携わる。2018年より研究開発エンジニアリングマネージャーを務める。光学機械システム設計と画像処理に焦点を当てている。\n光工学におけるその総合的な研究活動は、Sensofarの研究開発グループをイノベーションと高い技術レベルで常に最先端に立つ卓越した位置付けへと導いている。

社長兼CTO、物理学博士(光工学) at Sensofar Metrology | Other articles

光学式表面測定の分野において複数の特許を保持。\nISO 25178の技術委員。\n2001年にSensofarを共同創設。\n1997年よりCentre for Sensors, Instruments and Systems Development (CD6)の光学エンジニア研究員を務める(現任)。2005年よりSensofarの装置開発に適用されるISO25178規格のTG WG16委員を務める(現任)。Sensofar Tech SL社長兼CTO(現任)。\n

Optimisation of Imaging Confocal Microscopy for Topography Measurements of Metal Additive Surfaces
Lewis Newton, Aditi Thanki, Carlos Bermudez, Roger Artigas, Adam Thompson, Han Haitjema and Richard Leach

Abstract

Additive manufactured surfaces, especially metal powder bed fusion surfaces, present unique challenges for measurement because of their complex topographies. To address these measurement challenges, optimisation of the measurement process is required. Using a statistical approach, sensitivity analyses were performed on measurement settings found on a commercial programmable array scanning confocal microscope. The instrument measurement process parameters were compared by their effects on three quality indicators: the areal surface texture parameter Sa, measurement noise, and number of non-measured points. An analysis was performed using a full factorial design of experiments for both the top and side surfaces of test surfaces made from Inconel 718 and Ti-6Al-4V using powder bed fusion. The results indicated that measurements of metal additive surfaces are robust to changes in the measurement control parameters for Sa, with variations within 5% of the mean parameter value for the same objective, surface, and measured area. The number of non-measured points and the measurement noise were more varied and were affected by the choice of measurement control parameters, but such changes could be predicted by the statistical models. The contribution offered by this work is an increased understanding of imaging confocal microscopy measurement of metal additive surfaces, along with the establishment of good practice guidance for measurements.

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