Trevor Toman scite author profile

Trevor Toman

3Publications

0Citation Statements Received

16Citation Statements Given

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Coventry University

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Investigation in optimisation of accuracy with non-contact systems by influencing variable processes

Matharu

Sadler

Gashi

et al. 2019

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The use of 3D scanning systems is becoming increasingly popular and an essential tool for manufacturers for inspection and measurement. With such systems being utilised on the manufacturing shop floor due to their portability and ease of use, it is no doubt that such systems are designed to address a variety of users whom, with minimal training can operate the equipment. Due to continuing demands of high-quality products there is the need for manufacturers of 3D scanning systems to develop technologies that deliver fast and accurate information. However, one of the key challenges lies not in the training of people to use the equipment, but to develop engineers who can produce traceable, accurate and precise results with a declared statement of confidence quantifying the quality of the measurement. This statement of the quality of the output results relies on employing a set of workflow actions that involve planning, capture, processing and analysis, and finally output. This paper sets out to show how the results from a set of workflow actions from different categories of 3D scanning devices affects the quality of output.

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Task‐specific measurement uncertainty budget of Curvic‐coupling using analytical methods

Gashi¹,

Toman²,

Matharu³

2019

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A number of Industrial reference components manufactured by grinding to achieve tight dimensional tolerances. In this paper, we present an uncertainty budget of a reference forty-tooth #Curvic measured using an accurate Coordinate Measuring Machine (CMM) in a temperature-controlled laboratory. A number of measurements conducted on Curvicto assess measurement repeatability and reproducibility. Expanded uncertainty budget evaluated from twenty-one Influencing factors, giving8.7 µm (7.1 µm from Type A) and 11 µm (9.6 µm from Type A), respectively, for repeatability and reproducibility test (k >2). Measurement uncertainty due to steady-state thermal effects is 2.2 µm. An adaptable model is presented to evaluate transient thermal effects, a factor often neglected in measurement uncertainty. Thermal time constant uncertainty associated with transient thermal effects is evaluated u(τ)= ±398 s, which corresponds to ±15 % of thermal time constant expanded uncertainty, u(τ)= ±2570 s. #Curvic® (Curvic is a trademark of The Gleason Works, 1000 University Avenue, Rochester, NY, 14603, USA)

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Confidence and traceability in beverage can dimensional measurements using non-contact techniques

Khafaga

Matharu

Sadler

et al. 2021

Measurement: Sensors

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Trevor Toman

Investigation in optimisation of accuracy with non-contact systems by influencing variable processes

Task‐specific measurement uncertainty budget of Curvic‐coupling using analytical methods

Confidence and traceability in beverage can dimensional measurements using non-contact techniques

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