A review on electroactive polymers development for aerospace applications

Bashir, Musavir; Rajendran, Parvathy

doi:10.1177/1045389x18798951

Cited by 57 publications

(17 citation statements)

References 143 publications

(187 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The work of adhesion of a liquid to a solid, W A , can be described by the Young–Dupré equation (Equation (1)). It is composed by two measurable parameters; the surface tension of the liquid and the contact angle between the liquid and the surface [33,34]. WA=γLGfalse(1+cosθfalse).…”

Section: Fundamentals Of Adhesionmentioning

confidence: 99%

Brief Overview on Bio-Based Adhesives and Sealants

et al. 2019

View full text Add to dashboard Cite

Adhesives and sealants (AS) are materials with excellent properties, versatility, and simple curing mechanisms, being widely used in different areas ranging from the construction to the medical sectors. Due to the fast-growing demand for petroleum-based products and the consequent negative environmental impact, there is an increasing need to develop novel and more sustainable sources to obtain raw materials (monomers). This reality is particularly relevant for AS industries, which are generally dependent on non-sustainable fossil raw materials. In this respect, biopolymers, such as cellulose, starch, lignin, or proteins, emerge as important alternatives. Nevertheless, substantial improvements and developments are still required in order to simplify the synthetic routes, as well as to improve the biopolymer stability and performance of these new bio-based AS formulations. This environmentally friendly strategy will hopefully lead to the future partial or even total replacement of non-renewable petroleum-based feedstock. In this brief overview, the general features of typical AS are reviewed and critically discussed regarding their drawbacks and advantages. Moreover, the challenges faced by novel and more ecological alternatives, in particular lignocellulose-based solutions, are highlighted.

show abstract

Section: Fundamentals Of Adhesionmentioning

confidence: 99%

Brief Overview on Bio-Based Adhesives and Sealants

et al. 2019

View full text Add to dashboard Cite

show abstract

“…The addition of nanofiller can increase the performance of the SPN (e.g., shape fixity, shape recovery, self-healing ability) due to their high specific surface area, nucleating effects, reinforcing effects, and inherent functionalities (e.g., thermal conductivity, electrical conductivity) [3]. SPNs are widely used in various applications, for example, sensor and actuator [28][29][30][31][32][33], stretchable electronic [34], wearable electronics, and smart textiles [35,36], drug carrier and delivery [37,38], aircraft and aerospace applications [39,40]. Ten years ago, Ratna and Karger-Kocsis [41] has documented a review on shape memory polymers and composites.…”

Section: Introductionmentioning

confidence: 99%

Smart polymer nanocomposites: A review

Chow¹,

Ishak²

2020

Express Polym. Lett.

View full text Add to dashboard Cite

The development of smart polymer nanocomposites (SPN) has been an area of high scientific and industrial interest in recent years, due to fantastic improvements achieved in these materials. SPN found potential applications in shape memory, self-healing, self-sensing, self-heating, self-cleaning, and energy harvesting. This mini-review highlights the current research and development on SPN, specifically on shape memory polymer (SMP) and self-healing polymer (SHP) nanocomposites. The processing techniques for SPN nanocomposites, for example, polymerization, melt-compounding, solution mixing, electrospinning, and thermoset-curing are discussed. Some of the potential strategies to modify the properties of SMP and SHP nanocomposites are highlighted. The future perspective and recommended works for the SPN nanocomposites are shared in this mini-review.

show abstract

“…Multistimuli-responsive nanocomposites can react to one or more stimuli, and their properties depend on the characteristics of the polymer matrix and the type of nanofiller used [9]. In recent years, there has been a notable increase in the use of multistimuliresponsive PNCs for various types of biomedical [10], automotive [11], aerospace [12], and biotechnological applications [13], which is reflected in the rise in the number of publications in the last ten years (see Figure 2). This mini-review aims to provide an update on the most recent and significant applications in stimuli-responsive PNCs.…”

Section: Introductionmentioning

confidence: 99%

Smart Polymer Nanocomposites: Recent Advances and Perspectives

Vera¹,

Mella²,

Urbano³

2020

J. Chil. Chem. Soc.

View full text Add to dashboard Cite

Nanocomposite polymers have received considerable interest in research for the last three decades. Those nanocomposite polymers that are sensitive to a stimulus such as pH, temperature, magnetism, and electricity, among others, called smart or intelligent nanocomposite polymers had received even greater attention due to their potential technological applications. Applications of these polymers include flexible electronic devices, sensors, self-healing polymers, shape-memory materials, etc. The sensitivity of the material can come from both the polymer that acts as a matrix and the nanofiller, resulting in a material that combines properties of each of its components and that each one will not have separately. This mini-review aims to provide an update on the most recent and significant applications in the area of stimuli-responsive polymer nanocomposites, emphasizing the most innovative applications in biomedicine and catalysis developed in the last three years.

show abstract

A review on electroactive polymers development for aerospace applications

Cited by 57 publications

References 143 publications

Brief Overview on Bio-Based Adhesives and Sealants

Brief Overview on Bio-Based Adhesives and Sealants

Smart polymer nanocomposites: A review

Smart Polymer Nanocomposites: Recent Advances and Perspectives

Contact Info

Product

Resources

About