Literature review of High-Density Polyethylene (HDPE) Films

According to the author Grigoriadou, he has presented in detail different nanoparticles that are present on HDPE. In this paper, the author describes properly about HDPE film surface properties. Identifying the future studies there are different studies of HDPE nanocomposites; they are prepared through just melting and mix it on Haake-Buchler Recomixer. They only contain 25% of the particles that are needed to be tested. This article is totally related to research, and there is a proper discussion about the mechanical properties of reduction that is occurred at high Ultra Violet irradiation.

There are some results from previous studies that show that there is a huge effect of silicon dioxide on the HDPE during ultraviolet degradation. In this article different experiments are performed by taking HDPE as the important material. The mechanical properties of this material show that its life only depends upon the retention of mechanical properties. For measuring the contact angle of the HDPE, there is the use of pocket goniometer that shows the accurate result of different contact angle of this material in detail. In this paper there is complete mechanical properties analysis has been performed and its stability is checked according to that. This material is stable when there is no nanoparticles of silicon dioxide are present (Grigoriadou, et al., 2011).

In this article, the author Shu has presented an important discussion on the HDPE composite films in detail. In this article, there is proper information about the mechanical and antibacterial properties of this material in detail. In this article, the experiment has performed that shows the important result for the modification of this article in detail. These HDPE films are presented through just melting and through a hot compression molding process.

 There are some important properties of this material that has been discussed in detail that include UV absorption, antibacterial properties and also mechanical properties. In that paper experiment is performed through the help of nano-Zinc oxide through this there will be no issue of absorption of UV region. The results of this experiment show that through the addition of Nano-ZnO it can be seen that in HDPF material there is a comprehensive enhancement of UV waves can be seen. There is also some improvement can be seen in the HDPE films that their tensile strength by just adding some particles of zinc. For increasing the balancing torque of the HDPE, only little doped of nano-ZnO is required (Li & Li., 2010).

In this article, the author Peyroux has presented comprehensive information about the Enhancement of the surface properties through the help of HDPE material on different surfaces. There are different experiments performed through the help of HDPE material. For conducting these experiments the property of this material is tested is the mechanical property of HDPE material. The surface treatment process is involved in testing it material property in detail. HDPE direct fluorination is performed through the use of fluorine gas for that case different routes are performed. HDPE plasma treatment is one of the most important treatments for its mechanical properties.

Through this treatment, its contact angle is maintained properly through the use of the SCM 600 unit that is carried out at 13.56 MHz frequency. The main aim of this work is to check the different mechanical property of this material. In this article, all results are confirmed through the help of proper calculation about the energy. All of these results are the reflection of the mechanical property of this material. There is still some improvement required for surface roughness. This has been improved at the micrometric scale level only (Peyroux, Dubois, Tomasella, Petit, & Flahaut., 2014). 

In this article, the author Hassan was involved in giving proper study about the surface adhesion study about Lanthanum oxide thin film that is present on the silicon and glass substrate for painting that will be drawn through Flexography ink. In the start part of this article, there is a discussion about the adhesive property, and that has been applied on the surface.  There is a complete explanation of hyperbranched polymers in detail. In the results and discussion section of this article, there is information about different properties of the hyperbranched polymers. There is proper research has been performed on 3 narrow scan region that is C O and La. The results show that, for such ink, there is no need to modify it with the help of silicone and glass substrate (Hassan, Yusof, Embong, & Maksud, 2017).

In this paper, the author describes the Flexographic printing ink in detail. In this article, there is a proper demonstration of the modification of this ink with the help of hyperbranched polymers that are also called Boltorn P1000 and Boltron P500. In this paper, the experiment has been performed that is the adhesion peel test, and that has been done through the use of friction peel tester instrument. This ink has been improved with the help of some hyperbranched polymers. For this experiment, the surface tension of such ink is measured through the help of rheology behavior.

There is a complete explanation of hyperbranched polymers in detail. In the results and discussion section of this article, there is information about different properties of the hyperbranched polymers. The results show that Boltron P500, the polymer has very low viscosity and that a weak point of this material. The results also show that both these polymers can be used as UV-curing hardcoats. The Boltron P1000 polymer has a high viscosity, so this material can be used as for modification of this Flexographic ink. The results of the experiment show that there is not as such change on the behavior of surface tension of Flexographic ink with the addition of these polymers. These results are evaluated through the help of different comparison of their properties (Żołek-Tryznowska & Izdebska, 2012).

References of High-Density Polyethylene (HDPE) Films

Grigoriadou, Paraskevopoulos, K., Chrissafis, K., Pavlidou, E., Stamkopoulos, T.-G., & Bikiaris, D. (2011). Effect of different nanoparticles on HDPE UV stability. Polymer Degradation and Stability.

Hassan, S., Yusof, M. S., Embong, Z., & Maksud, M. I. (2017). Surface adhesion study of La2O3 thin film on Si and glass substrate for micro-flexography printing. In AIP Conference Proceedings.

Li, S.‐C., & Li., Y.‐N. (2010). Mechanical and antibacterial properties of modified nano‐ZnO/high‐density polyethylene composite films with a low doped content of nano‐ZnO. Journal of applied polymer science.

Peyroux, J., Dubois, M., Tomasella, E., Petit, E., & Flahaut., D. (2014). Enhancement of surface properties on commercial polymer packaging films using various surface treatment processe. Applied Surface Science.

Żołek-Tryznowska, Z., & Izdebska, J. (2012). Dyes and Pigments.