Thermo-Electro-Mechanical Aging and Degradation of Conductive 3d Printed Polymers

Crespo-Miguel, J.; García-González, Daniel; Robles-Muñoz, Guillermo; Hossain, Mokarram; Martínez-Tarifa, Juan Manuel; Árias, A.

doi:10.2139/ssrn.4094535

Cited by 4 publications

(4 citation statements)

References 34 publications

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“…Meanwhile, PNCs have been fabricated with enhanced thermal and electrical conductivity, improved mechanical and thermal expansion, and increased fire retardancy for automotive, oil and gas, and other versatile applications 137–207 . Finally, it is emphasized that 3‐DPT and 4‐DPT are innovative processing technologies, presenting the future route of the manufacturing sector 208–244 …”

Section: Discussionmentioning

confidence: 99%

Novel advancements in additive manufacturing of PLA: A review

Odera,

Idumah

2023

Polymer Engineering & Sci

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Three‐dimensional (3‐D) printing technology (3‐DPT) also referred to as additive manufacturing (AM) has advanced rapidly and is vastly used in varying manufacturing fields because of the minimization of waste materials and the ability to form complex geometrical shapes from micro‐ to macroscale. Nowadays, additive manufacturing (AM) has emerged extensively in varying engineering, architectural, medical, industrial, and manufacturing fields. Four‐dimensional (4‐D) printing technology (4‐DPT) synergizes 3‐DPT with stimuli‐sensitive materials and has garnered wide attention for smart additive fabrication. More so, 4‐DPT has displayed great prospects in numerous engineering applications including origami actuators, drug transport, robotics, smart clothing, and adaptive metamaterials. Hence, this elucidation presents recent advances in PLA additive manufacturing (3‐DPT) and applications. Insight into 4‐DPT is also presented.

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Section: Discussionmentioning

confidence: 99%

Novel advancements in additive manufacturing of PLA: A review

Odera,

Idumah

2023

Polymer Engineering & Sci

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“…which resulted in 4 papers. Thermo‐electro‐mechanical aging and degradation of conductive 3D printed polylactide/carbon black composite are presented in one of the resulting four articles [22]. Note that this article falls into the broad scope of this paper: it deals with thermo‐electrical aging/degradation effects on the mechanical behavior.…”

Section: Literature Analysis In the Web Of Science Core Collectionmentioning

confidence: 99%

“…Hence, it would be nice to have an explicit expression for resistivity. Derived expressions from measurements of thermo‐electrical aging/degradation affect resistivity [22].…”

Section: Numerical Examplesmentioning

confidence: 99%

Properties degradation of 3D printed insulators in maritime and indoor environments

Kuzmanić,

Vujović,

Petković

et al. 2024

Materialwissenschaft Werkst

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With the advances in additive manufacturing, there is the idea of using 3D printers to produce spare parts in isolated systems such as ships, oceangoing vessels, warships, spacecraft, isolated stations, and so on. However, it raises the question of the reliability of such spare parts. One area that has not been explored much is the aging of electrical and dielectric properties, which could reveal weaknesses of 3D‐printed spare parts for use in electrical and automation systems. Therefore, the paper aims to investigate the change in resistance and dielectric constant. The results show that these changes could increase the probability of discharge and have serious consequences for electrical and automation systems.

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“…Furthermore, temperature changes during mechanical testing reveal significant shifts in stiffness and ductility linked to polymer phase transitions indicating their role in material degradation and altered mechanical behavior under thermo‐electric loading. [ 172 ] Not only wearable batteries, but also wearable supercapacitors and fuel cells with customized and optimized designs are possible. Supercapacitors are highly desirable for applications requiring rapid charging and discharging, making them suitable for short‐duration and high‐power density scenarios.…”

Section: Applications Of Am‐based Eesdsmentioning

confidence: 99%

Advances in Additive Manufacturing Techniques for Electrochemical Energy Storage

De,

Ramasubramian,

Ramakrishna

et al. 2023

Adv Materials Technologies

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The increasing adoption of additive manufacturing (AM), also known as 3D printing, is revolutionizing the production of wearable electronics and energy storage devices (ESD) such as batteries, supercapacitors, and fuel cells. This surge can be attributed to its outstanding process versatility, precise control over geometrical aspects, and potential to reduce costs and material waste. In this comprehensive review, major AM processes like inkjet printing, direct ink writing, fused deposition modeling, and selective laser sintering/melting along with possible configurations and architectures, are elaborately discussed for each bespoke ESD. The application of 3D‐printed energy storage devices in wearable electronics, Internet of Things (IoT)‐based devices, and electric vehicles are also mentioned in the review. The role of AM in facilitating the production of solid‐state batteries has also revolutionized the electric vehicle (EV) industry. Recent progress in the field of AM of energy systems with solid electrolytes and potential future directions such as 4D printing to incorporate stimuli‐responsive behavior in 3D‐printed materials, biomimetic design optimization, and additive manufacturing of ESD in a micro‐gravity environment have also been highlighted. Extensive research and continuous progress in this field are expected to enhance the longetivity, industrial scalability, and electrochemical performance of 3D‐printed energy storage devices in future.

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Thermo-Electro-Mechanical Aging and Degradation of Conductive 3d Printed Polymers

Cited by 4 publications

References 34 publications

Novel advancements in additive manufacturing of PLA: A review

Novel advancements in additive manufacturing of PLA: A review

Properties degradation of 3D printed insulators in maritime and indoor environments

Advances in Additive Manufacturing Techniques for Electrochemical Energy Storage

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