A micromachined thin-film gas flow sensor for microchemical reactors

Shin, Wonchul; Besser, R.S.

doi:10.1088/0960-1317/16/4/009

Cited by 47 publications

(31 citation statements)

References 28 publications

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“…From the recorded values of change in resistance, the temperature co-efficient of resistance (TCR) was calculated for 10 thermal loading cycles. The average TCR value was found to be 0.0039 • C −1 , which is in accordance with the value found in the literature (Shin and Besser, 2006). The quadratic term of the TCR has been neglected.…”

Section: Characterization and Calibrationsupporting

confidence: 89%

Measuring strain during a cylindrical grinding process using embedded sensors in a workpiece

Sarma¹,

Borchers

Dumstorff³

et al. 2017

J. Sens. Sens. Syst.

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Abstract. This paper presents the results of using a sensor-integrated workpiece for in situ measurement of strain during an outer-diameter cylindrical grinding process. The motivation of this work is to measure in situ process parameters using integrated sensors in a workpiece in order to characterize the manufacturing process. Resistive sensors that operate on the same principle as conventional strain gauges were fabricated on wafers made of steel using standard microtechnology and later the wafers were diced to form unique sensor-integrated steel components (sensor inlays). These inlays are embedded into a groove on the top surface of a cylindrical workpiece using epoxy adhesive. The workpiece is also made of the same steel as the sensor wafers and has similar properties due to a heat treatment process, thereby maintaining the homogeneity of the material over the whole contact area. The sensor-integrated workpiece was used to perform experiments in a Studer S41 highperformance cylindrical grinding machine. The sensor response to the internal strain was recorded during every grinding step starting from a depth of 1 mm down to 2 mm from the top surface. Such an application of sensor integration in materials for in situ process monitoring can be used in other manufacturing processes as well and this can help to observe internal loads (mechanical or thermal) in manufacturing processes.

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Section: Characterization and Calibrationsupporting

confidence: 89%

Measuring strain during a cylindrical grinding process using embedded sensors in a workpiece

Sarma¹,

Borchers

Dumstorff³

et al. 2017

J. Sens. Sens. Syst.

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show abstract

“…Application field of thermal flow microsensors are: automobile [3,4], chemical [5] and electronic industries [6], medical [7], aerospace applications [8], air conditioning and ventilation [9] as well as other fields. Thermal flow microsensors are used in Micro Total Analysis S which recently has been significantly developed [10].…”

Section: Introductionmentioning

confidence: 99%

Prototype of calorimetric flow microsensor

Sazhin¹

2012

AIP Conference Proceedings

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“…The time-of-flight (TOF) flow sensors (Ashauer, 1999;Shin 2006) have the similar configurations to those of anemometric sensors, but the operation mode is not to measure the power of the microheater. The upstream thermistor sends out continuous pulses while the downstream thermistor measures the time of the heat that the pulse carried from the upstream to downstream.…”

Section: Mems Mass Flow Sensing Technologymentioning

confidence: 99%

City Natural Gas Metering

Huang¹

2012

Natural Gas - Extraction to End Use

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A micromachined thin-film gas flow sensor for microchemical reactors

Cited by 47 publications

References 28 publications

Measuring strain during a cylindrical grinding process using embedded sensors in a workpiece

Measuring strain during a cylindrical grinding process using embedded sensors in a workpiece

Prototype of calorimetric flow microsensor

City Natural Gas Metering

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