Thermomechanical data of polyurethane shape memory polymer: Considering varying compositions

Fisher, Hailey; Woolard, Payton; Ross, Colton J.; Kunkel, Robert; Bohnstedt, Bradley N.; Liu, Yingtao; Lee, Chung‐Hao

doi:10.1016/j.dib.2020.106294

Cited by 9 publications

(10 citation statements)

References 3 publications

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“…A similar behavior is shown from the plot of temperature, strain %, and load ( Figure 8 ) where it can be seen, while the load was constant for each cycle (0 to 0.9 N), the first cycle resulted in a higher deformation of the sample. This result is consistent with other thermomechanical tests of shape memory polymers [ 35 , 39 , 40 ]. While the shape recovery decreased and converged to a value with subsequent thermal cycles, the shape retention ratio remained constant with each thermal cycle.…”

Section: Resultssupporting

confidence: 93%

3D Printed Shape Memory Polymers Produced via Direct Pellet Extrusion

et al. 2021

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Shape memory polymers (SMPs) are materials capable of changing their structural configuration from a fixed shape to a temporary shape, and vice versa when subjected to a thermal stimulus. The present work has investigated the 3D printing process of a shape memory polymer (SMP)-based polyurethane using a material extrusion technology. Here, SMP pellets were fed into a printing unit, and actuating coupons were manufactured. In contrast to the conventional film-casting manufacturing processes of SMPs, the use of 3D printing allows the production of complex parts for smart electronics and morphing structures. In the present work, the memory performance of the actuating structure was investigated, and their fundamental recovery and mechanical properties were characterized. The preliminary results show that the assembled structures were able to recover their original conformation following a thermal input. The printed parts were also stamped with a QR code on the surface to include an unclonable pattern for addressing counterfeit features. The stamped coupons were subjected to a deformation-recovery shape process, and it was observed that the QR code was recognized after the parts returned to their original shape. The combination of shape memory effect with authentication features allows for a new dimension of counterfeit thwarting. The 3D-printed SMP parts in this work were also combined with shape memory alloys to create a smart actuator to act as a two-way switch to control data collection of a microcontroller.

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Section: Resultssupporting

confidence: 93%

3D Printed Shape Memory Polymers Produced via Direct Pellet Extrusion

et al. 2021

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“…Our previous studies on the thermomechanical properties of aliphatic polyurethane SMPs were performed for nonporous specimens. [ 25 ] Thus, we first used differential scanning calorimetry (DSC) to determine how the sugar leaching and CNT infiltration processes influence the material's T g . The measured T g of the pristine sugar‐leached SMP foams was found to be significantly lower than the glass transition temperature of solid pristine SMPs (Mann–Whitney U ‐test:

p = 0.02

, Figure a), together with the finding of a reduction in T g as the CNT/POR concentration increased (Figure 3b).…”

Section: Resultsmentioning

confidence: 99%

“…To address the current limitations of endovascular coil embolization, shape memory polymer (SMP) foams have arisen as a promising alternative owing to their tunable thermomechanical properties and their potential for the occlusion of patient‐specific aneurysm geometries. [ 24–30 ] Specifically, subject to temperature changes, polyurethane SMPs possess the ability to transition between different thermomechanical states. When heated above their glass transition temperature (

T_{normalg}

), SMPs are deformed and cooled down into a programmable shape.…”

Section: Introductionmentioning

confidence: 99%

“…To design and develop SMP‐based embolic devices for patient‐specific brain aneurysm therapeutics, we have previously investigated the thermomechanical properties of pristine aliphatic polyurethane SMPs with tunable

T_{normalg}

[ 24,25 ] and porous matrices, [ 44,45 ] whereas the objective of this study is to advance our design of a Joule‐heating‐activated SMP embolic device. Specifically, we first infiltrated carbon nanotubes (CNTs) into the SMP foams and characterized their thermomechanical properties and Joule‐heating behaviors.…”

Section: Introductionmentioning

confidence: 99%

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Effects of Carbon Nanotube Infiltration on a Shape Memory Polymer‐Based Device for Brain Aneurysm Therapeutics: Design and Characterization of a Joule‐Heating Triggering Mechanism

et al. 2021

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Current endovascular therapies for intracranial aneurysms face limitations that include aneurysm recurrence and incomplete occlusion. These challenges can potentially be addressed by occluding the aneurysm space with shape memory polymers (SMPs) that are tailorable to patient‐specific aneurysm geometries to improve the suboptimal treatment outcomes associated with coil embolization. However, deployment of the SMP‐based device into the aneurysm requires external stimuli to trigger shape recovery. Thus, herein, the infiltration of carbon nanotubes (CNTs) in a polyurethane SMP foam is investigated, and Joule‐heating triggering for SMP shape recovery in endovascular therapy applications is demonstrated. The results show that CNTs can be successfully infiltrated in the SMP foam, providing tunable resistivity and shape recovery time, and that CNT infiltration reduces the glass transition temperature of the SMP and alters its mechanical properties, which is evidenced with a cumulative stress reduction in cyclic compression tests. Finally, the Joule‐heating capability of the SMP material is examined using a proof‐of‐concept in vitro occlusion experiment of an idealized saccular aneurysm model. Collectively, this study indicates that CNT infiltration of SMP foams is a promising approach in the design of electrically triggered embolic devices for individualized treatment of intracranial aneurysms.

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“…[35] Our findings in this modified protocol will be applied to the development of a novel coil-free endovascular device. We have developed a shape memory polymer (SMP) for endovascular embolization of patient-specific aneurysm geometries, [36][37][38][39] and we believe that this elastase-induced aneurysm formation protocol can aid in the translation of our material to the pre-clinical setting. We plan to test our material with a statistically powerful sample size, to determine the pre-clinical safety and effectiveness of our SMP device (measured using RROC scale, Fig.…”

Section: Applications For Endovascular Device Testingmentioning

confidence: 99%

A protocol for the reduction of applied torque on parent vessel during elastase-induced aneurysm formation using rabbit animal models

Pineda-Castillo

Laurence

Homburg

et al. 2021

Preprint

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Endovascular therapies for intracranial aneurysms requires animal models for testing the safety andeffectiveness prior to translation to the clinic. Rabbits combined with the elastase and right commoncarotid artery (RCCA) ligation methods is currently a widely used animal model for endovascular de-vice testing. However, the injection of elastase utilizing angiocatheters may potentially exerts adversetorque to the parent vessel and the optimal aneurysm creation period has not been well investigated.In this study, we present a modification to the elastase/RCCA-ligation method by replacing the angio-catheter with a butterfly catheter. Formation of saccular aneurysms was introduced in New Zealandwhite rabbits (n=6), and were maintained for 2, 4 and 6 weeks. The formed aneurysms exhibitedan elongated geometry and were stable during the study period. We found that the modification inthe animal surgery procedure provides improved manipulation of the surgical area, prolonged injec-tion of elastase, and effective degradation of the vascular elastic lamina. Compared to the traditionalelastase/RCCA-ligation method, the present technique can more effectively reduce unwanted injury tothe parent vessel and, therefore, improved stability of the vasculature for testing the efficacy of newlydeveloped endovascular embolization devices.

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Thermomechanical data of polyurethane shape memory polymer: Considering varying compositions

Cited by 9 publications

References 3 publications

3D Printed Shape Memory Polymers Produced via Direct Pellet Extrusion

3D Printed Shape Memory Polymers Produced via Direct Pellet Extrusion

Effects of Carbon Nanotube Infiltration on a Shape Memory Polymer‐Based Device for Brain Aneurysm Therapeutics: Design and Characterization of a Joule‐Heating Triggering Mechanism

A protocol for the reduction of applied torque on parent vessel during elastase-induced aneurysm formation using rabbit animal models

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