The Effect of Droplet Sizes on Overspray in Aerosol‐Jet Printing

Guang, Chen; Gu, Yuan; Tsang, Harvey; Hines, D. R.; Das, Siddhartha

doi:10.1002/adem.201701084

Cited by 80 publications

(81 citation statements)

References 29 publications

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“…Improving edge definition and overall line quality by minimising overspray is currently achieved through empirical optimisation. Analytical models aiming to increase understanding of the deposition mechanism are starting to be developed, which will lead to a greater appreciation of the interdependence of process parameters and accelerate the development of robust print recipes [24,26].…”

Section: Factors Affecting Depositionmentioning

confidence: 99%

A review of aerosol jet printing—a non-traditional hybrid process for micro-manufacturing

Wilkinson

Smith

Kay

et al. 2019

Int J Adv Manuf Technol

295

235

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Aerosol Jet Printing (AJP) is an emerging contactless direct write approach aimed at the production of fine features on a wide range of substrates. Originally developed for the manufacture of electronic circuitry, the technology has been explored for a range of applications, including, active and passive electronic components, actuators, sensors, as well as a variety of selective chemical and biological responses. Freeform deposition, coupled with a relatively large stand-off distance, is enabling researchers to produce devices with increased geometric complexity compared to conventional manufacturing or more commonly used direct write approaches. Wide material compatibility, high resolution and independence of orientation have provided novelty in a number of applications when AJP is conducted as a digitally driven approach for integrated manufacture. This overview of the technology will summarise the underlying principles of AJP, review applications of the technology and discuss the hurdles to more widespread industry adoption. Finally, this paper will hypothesise where gains may be realised through this assistive manufacturing process.

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Section: Factors Affecting Depositionmentioning

confidence: 99%

A review of aerosol jet printing—a non-traditional hybrid process for micro-manufacturing

Wilkinson

Smith

Kay

et al. 2019

Int J Adv Manuf Technol

295

235

View full text Add to dashboard Cite

show abstract

“…[ 208 ] This method first aerosolizes a functional liquid into aerosol cloud with a diameter of 2–5 µm. [ 209 ] The carrier gas then transfers the aerosol to a printhead, where a coflowing sheath gas focuses the droplets onto the jet with a diameter of 10–100 µm. The droplets are focused into a collimated beam as small as 10 µm in diameter, and the aerosol beam is emitted with a velocity of ≈80 m s −1 .…”

Section: Techniques For Direct Fabrication Of Curved Electronicsmentioning

confidence: 99%

Fabrication Techniques for Curved Electronics on Arbitrary Surfaces

Tian

Luo

et al. 2020

Adv Materials Technologies

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Curved electronics, which are better coordinated and blended with the natural world due to the characteristics of large contact area, high space adaptability, etc., have been widely used in a quantity of areas ranging from conformal curved antennas and sensors in detection and measurement, to artificial smart skin of aerospace. Recent developments in curved electronics have made an increasing progress to the historic drawbacks of conventional planar electronics, however significant challenges still exist. Here, the main kinds of conformal fabrication technologies, including transfer printing, assembly techniques, curved lithography, conformal inkjet printing, 3D printing, and laser direct writing, are reviewed to realize manufacturing deformable/undeformable electronics on curved or arbitrary surfaces. The processes and features of each technology are comprehensively summarized together with their progress and potential values. Finally, the challenges and opportunities for fabricating conformal electronics on arbitrary surfaces are also discussed.

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“…2a-e where the electrode structure with trailing ends associated with overspray is observed in addition to a porous structure. Overspray is caused by the smallest droplets within the aerosol, and can be minimized to some extent by varying the sheath, exhaust, or atomizer flow rates 35,36 . However, overspray, like void formation, is an inherent feature of aerosol jet printed devices and was found to contribute between 5 and 25 µm of additional width to the digits.…”

Section: Printed Csg Designmentioning

confidence: 99%

Aerosol jet printed capacitive strain gauge for soft structural materials

et al. 2020

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Soft structural textiles, or softgoods, are used within the space industry for inflatable habitats, parachutes and decelerator systems. Evaluating the safety and structural integrity of these systems occurs through structural health monitoring systems (SHM), which integrate non-invasive/non-destructive testing methods to detect, diagnose, and locate damage. Strain/load monitoring of these systems is limited while utilizing traditional strain gauges as these gauges are typically stiff, operate at low temperatures, and fail when subjected to high strain that is a result of high loading classifying them as unsuitable for SHM of soft structural textiles. For this work, a capacitance based strain gauge (CSG) was fabricated via aerosol jet printing (AJP) using silver nanoparticle ink on a flexible polymer substrate. Printed strain gauges were then compared to a commercially available high elongation resistance-based strain gauge (HE-RSG) for their ability to monitor strained Kevlar straps having a 26.7 kN (6 klbf) load. Dynamic, static and cyclic loads were used to characterize both types of strain monitoring devices. Printed CSGs demonstrated superior performance for high elongation strain measurements when compared to commonly used HE-RSGs, and were observed to operate with a gauge factor of 5.2 when the electrode arrangement was perpendicular to the direction of strain.

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The Effect of Droplet Sizes on Overspray in Aerosol‐Jet Printing

Cited by 80 publications

References 29 publications

A review of aerosol jet printing—a non-traditional hybrid process for micro-manufacturing

A review of aerosol jet printing—a non-traditional hybrid process for micro-manufacturing

Fabrication Techniques for Curved Electronics on Arbitrary Surfaces

Aerosol jet printed capacitive strain gauge for soft structural materials

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