A 7-mg miniature catalytic-combustion engine for millimeter-scale robotic actuation

[Display omitted] •7-Milligram miniature engine using shape-memory alloy wires coated with platinum.•Engine operates at 6 Hz, lifts 650 times its weight, generates 39.5 μW average power,•Chemical fuels and catalytic combustion for energy dense microrobotic actuation.•Thermal and dynamic modeling pre...

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Published inSensors and actuators. A. Physical. Vol. 341; p. 112818
Main Authors Maimani, Fares, Calderón, Ariel A., Yang, Xiufeng, Rigo, Alberto, Ge, Joey Z., Pérez-Arancibia, Néstor O.
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.07.2022
Elsevier BV
Subjects
Actuation
Alloys
Catalysts
Catalytic combustion
Chemical fuels
Combustion
Energy sources
Feedback control
Heat engine
Heat transfer
Intermetallic compounds
Leaf springs
Mechanism design
Microrobot
Microrobots
Nickel base alloys
Nickel compounds
Nickel titanides
Platinum
Robots
Shape memory alloys
Shape-memory alloy
Task complexity
Titanium compounds
Wire
Microrobot
Actuation
Catalytic combustion
Heat engine
Mechanism design
Shape-memory alloy
Online AccessGet full text
ISSN0924-4247
1873-3069
DOI10.1016/j.sna.2021.112818

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Abstract [Display omitted] •7-Milligram miniature engine using shape-memory alloy wires coated with platinum.•Engine operates at 6 Hz, lifts 650 times its weight, generates 39.5 μW average power,•Chemical fuels and catalytic combustion for energy dense microrobotic actuation.•Thermal and dynamic modeling predict engine frequency and actuation output.•Fast custom-built fuel delivery system demonstrates engine's applicability. Microrobots at the subcentimeter scale have the potential to perform useful complex tasks if they were to become energy independent and could operate autonomously. The vast majority of current microrobotic systems lack the ability to carry sufficient onboard power to operate and, therefore, remain tethered to stationary sources of energy in laboratory environments. Recent published work demonstrated that chemical fuels can react under feedback control on the surfaces of tensioned shape-memory alloy (SMA) nickel-titanium (NiTi) wires coated with platinum (Pt) catalyst. Combining catalytic combustion of fuels with high energy densities with the high work densities of SMA wires is a promising approach to provide onboard power to microrobots. In this article, we present a novel 7-mg SMA-based miniature catalytic-combustion engine for millimeter-scale robotic actuation that is composed of a looped NiTi-Pt composite wire with a core diameter of 38 μm and a flat carbon-fiber beam with a length of 13 mm. This beam acts as a leaf spring during operation. The proposed design of the engine has a flat and narrow geometry, functions according to a periodic-unimorph actuation mode, and can operate at frequencies as high as 6 Hz and lift 650 times its own weight while functioning at 1 Hz, thus producing 39.5 μW of average power in the process. For the purposes of design and analysis, we derived a model of the heat transfer processes involved during actuation, which combined with a Preisach-model-based description of the SMA wire dynamics, enabled us to numerically simulate the response of the miniature system, and thus predict its performance in terms of frequency and actuation output. The suitability for microrobotics and functionality of the proposed approach is demonstrated through experimental results using a custom-built fast-response high-precision system of fuel delivery.
AbstractList Microrobots at the subcentimeter scale have the potential to perform useful complex tasks if they were to become energy independent and could operate autonomously. The vast majority of current microrobotic systems lack the ability to carry sufficient onboard power to operate and, therefore, remain tethered to stationary sources of energy in laboratory environments. Recent published work demonstrated that chemical fuels can react under feedback control on the surfaces of tensioned shape-memory alloy (SMA) nickel-titanium (NiTi) wires coated with platinum (Pt) catalyst. Combining catalytic combustion of fuels with high energy densities with the high work densities of SMA wires is a promising approach to provide onboard power to microrobots. In this article, we present a novel 7-mg SMA-based miniature catalytic-combustion engine for millimeter-scale robotic actuation that is composed of a looped NiTi-Pt composite wire with a core diameter of 38 μm and a flat carbon-fiber beam with a length of 13 mm. This beam acts as a leaf spring during operation. The proposed design of the engine has a flat and narrow geometry, functions according to a periodic-unimorph actuation mode, and can operate at frequencies as high as 6 Hz and lift 650 times its own weight while functioning at 1 Hz, thus producing 39.5 μW of average power in the process. For the purposes of design and analysis, we derived a model of the heat transfer processes involved during actuation, which combined with a Preisach-model-based description of the SMA wire dynamics, enabled us to numerically simulate the response of the miniature system, and thus predict its performance in terms of frequency and actuation output. The suitability for microrobotics and functionality of the proposed approach is demonstrated through experimental results using a custom-built fast-response high-precision system of fuel delivery.
[Display omitted] •7-Milligram miniature engine using shape-memory alloy wires coated with platinum.•Engine operates at 6 Hz, lifts 650 times its weight, generates 39.5 μW average power,•Chemical fuels and catalytic combustion for energy dense microrobotic actuation.•Thermal and dynamic modeling predict engine frequency and actuation output.•Fast custom-built fuel delivery system demonstrates engine's applicability. Microrobots at the subcentimeter scale have the potential to perform useful complex tasks if they were to become energy independent and could operate autonomously. The vast majority of current microrobotic systems lack the ability to carry sufficient onboard power to operate and, therefore, remain tethered to stationary sources of energy in laboratory environments. Recent published work demonstrated that chemical fuels can react under feedback control on the surfaces of tensioned shape-memory alloy (SMA) nickel-titanium (NiTi) wires coated with platinum (Pt) catalyst. Combining catalytic combustion of fuels with high energy densities with the high work densities of SMA wires is a promising approach to provide onboard power to microrobots. In this article, we present a novel 7-mg SMA-based miniature catalytic-combustion engine for millimeter-scale robotic actuation that is composed of a looped NiTi-Pt composite wire with a core diameter of 38 μm and a flat carbon-fiber beam with a length of 13 mm. This beam acts as a leaf spring during operation. The proposed design of the engine has a flat and narrow geometry, functions according to a periodic-unimorph actuation mode, and can operate at frequencies as high as 6 Hz and lift 650 times its own weight while functioning at 1 Hz, thus producing 39.5 μW of average power in the process. For the purposes of design and analysis, we derived a model of the heat transfer processes involved during actuation, which combined with a Preisach-model-based description of the SMA wire dynamics, enabled us to numerically simulate the response of the miniature system, and thus predict its performance in terms of frequency and actuation output. The suitability for microrobotics and functionality of the proposed approach is demonstrated through experimental results using a custom-built fast-response high-precision system of fuel delivery.
ArticleNumber 112818
Author Maimani, Fares
Rigo, Alberto
Pérez-Arancibia, Néstor O.
Ge, Joey Z.
Calderón, Ariel A.
Yang, Xiufeng
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  email: perezara@usc.edu
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Keywords Microrobot
Actuation
Catalytic combustion
Heat engine
Mechanism design
Shape-memory alloy
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Snippet [Display omitted] •7-Milligram miniature engine using shape-memory alloy wires coated with platinum.•Engine operates at 6 Hz, lifts 650 times its weight,...
Microrobots at the subcentimeter scale have the potential to perform useful complex tasks if they were to become energy independent and could operate...
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StartPage 112818
SubjectTerms Actuation
Alloys
Catalysts
Catalytic combustion
Chemical fuels
Combustion
Energy sources
Feedback control
Heat engine
Heat transfer
Intermetallic compounds
Leaf springs
Mechanism design
Microrobot
Microrobots
Nickel base alloys
Nickel compounds
Nickel titanides
Platinum
Robots
Shape memory alloys
Shape-memory alloy
Task complexity
Titanium compounds
Wire
Title A 7-mg miniature catalytic-combustion engine for millimeter-scale robotic actuation
URI https://dx.doi.org/10.1016/j.sna.2021.112818
https://www.proquest.com/docview/2685588712
Volume 341
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