Development of a Simple Morphing Wing Using Elastomeric Composites as Skins and Actuators

Peel, Larry D.; Mejia, James; Narvaez, Ben; Thompson, Kyle; Lingala, Madhuri

doi:10.1115/smasis2008-544

Cited by 18 publications

(20 citation statements)

References 6 publications

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“…The enhancement in the E% property for all CFRP/NBR composites is due to the high elongation to failure of elastomers 12 . NBR has high strain capability and elastic recovery that enable it to undergo more elastic deformations under stress than fibers [20][21] . Thus, NBR grants the CFRP elastic and flexibility behavior that permit it to undergo more strain before failure than F1 composite.…”

Section: Tensile Propertiesmentioning

confidence: 99%

Effect of Epoxy Resin Concentration on Some Mechanical Properties of Carbon Fabric/ Nitrile Rubber Reinforced Composites

Halim¹,

Kholy²,

Naguib³

et al. 2019

JCCS

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Carbon fiber reinforced polymer composites (CFRP) are widely used in variety of applications such as flexible aerodynamic surfaces on aircraft, under water flexible vehicles, flexible robotic skeletons and engineering applications. Epoxy resins (ER) are usually employed as the polymeric matrix, in which the fabric laminates are embedded. Although Carbon fabric/resin composites possess outstanding mechanical performance and good process-ability, however, ER are relatively brittle which causes a major problem for the performance of the final structure. In our present study, a woven carbon fiber reinforced polymer composite, with nitrile-butadiene rubber (NBR) as the polymeric matrix were fabricated by hand layup method followed by compression molding. Different concentrations (5,10,15 and 20 part per hundred, phr) of an ER were added to the NBR formulations and compared with similarly-processed CFRP reference material produced without NBR. Various static and dynamic mechanical properties were examined experimentally. The results revealed that CFRP composite containing 10 phr epoxy resin showed significant improvement in the impact strength and flexural strength due to the good energy absorbing of NBR. In addition, tensile strength decreased while elongation at break percentage increased because of high strain capability and elastic recovery of the nitrile rubber. The dynamic mechanical test results such as tan delta, glass

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Section: Tensile Propertiesmentioning

confidence: 99%

Effect of Epoxy Resin Concentration on Some Mechanical Properties of Carbon Fabric/ Nitrile Rubber Reinforced Composites

Halim¹,

Kholy²,

Naguib³

et al. 2019

JCCS

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show abstract

“…Originally invented in the 1950's by McKibben, 30 they have only recently been introduced into the field of aerospace engineering. 31,32,33 PAMs are made of an air-tight, inflatable bladder surrounded by an expandable sleeve braided from stiff filaments. The bladder and sleeve are initially cylindrical in shape, and the two ends are sealed with end fittings of various designs.…”

Section: A Pneumatic Artificial Muscle Overviewmentioning

confidence: 99%

Advanced Kinematic Tailoring for Morphing Aircraft Actuation

2014

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Morphing aircraft concepts require powerful, compact and lightweight actuation technologies in order to realize the significant changes in shape and aerodynamic properties desired. One source of inefficiency and lost performance common to all types of actuators is the mismatch between the force available versus stroke profile of the actuator and that required by the load. This work investigates a novel spiral spooling pulley mechanism that allows for kinematic tailoring of the actuator load line to better match the load required. To show the impact of kinematic tailoring on actuator efficiency, a representative case study is made of a Pneumatic Artificial Muscle driven morphing camber airfoil employing the Fish Bone Active Camber concept. Pneumatic Artificial Muscles have a decreasing force available with displacement, which is the opposite behavior of the system being driven since the aerodynamic and structural loads on the active camber mechanism increase with deflection. This results in inefficient usage of the energy in the actuator, and reduced system performance. By using an advanced spiral pulley kinematic mechanism, the actuator force profile is successfully tailored to match that required, with an additional torque margin added to account for any unmodeled effects. Genetic algorithm optimization is used to select the geometric parameters of the spiral pulley that maximize energy efficiency of the actuator while ensuring it is able to produce the required torque levels. The performance of the optimized spiral pulley is compared to a baseline case employing an optimized circular pulley which does not alter the shape of the actuator force profile to show the performance improvement provided by the kinematic tailoring.

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“…The flap system is also tested under full scale aerodynamic loading in a wind tunnel. 16 Peel et al 17 developed inexpensive morphing wing concepts using pneumatic rubber muscle actuators. The actuators are located inside of an airfoil connecting the leading and trailing edges.…”

Section: Introductionmentioning

confidence: 99%

Morphing Trailing Edge Control Using Flexible Matrix Composite Actuators

Kim¹,

Capps²,

Philen³

2012

53rd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference

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Controllable morphing spoiler concept is designed and fabricated using flexible matrix composite (FMC) actuators. In the FMC actuated spoiler concept, extensional actuators are embedded under top surface and contracting actuators are integrated under bottom surface to bend the spoiler tip downward. Both FMC actuators are fabricated using a custom designed filament winding system and also with braided sleeves to find appropriate actuator types for the spoiler concept. Three different spoiler prototypes with two actuators are fabricated and tested under different loading conditions to examine their performance capabilities. After analyzing the test results for these prototypes, a final spoiler model with ten FMC actuators is design, fabricated, and evaluated under various testing conditions. The test results show that the final spoiler model performs well under various pseudo aerodynamic loading conditions.

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Development of a Simple Morphing Wing Using Elastomeric Composites as Skins and Actuators

Cited by 18 publications

References 6 publications

Effect of Epoxy Resin Concentration on Some Mechanical Properties of Carbon Fabric/ Nitrile Rubber Reinforced Composites

Effect of Epoxy Resin Concentration on Some Mechanical Properties of Carbon Fabric/ Nitrile Rubber Reinforced Composites

Advanced Kinematic Tailoring for Morphing Aircraft Actuation

Morphing Trailing Edge Control Using Flexible Matrix Composite Actuators

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