Compatibility of High-Density Polyethylene Grades with Biofuels

Weltschev, Margit; Werner, Jan; Haufe, Manuela; Heyer, Martina

doi:10.1002/pts.2028

Cited by 8 publications

(7 citation statements)

References 5 publications

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“…Most of the biodiesel compatibility studies on polymers other than polyethylene have focused on elastomers, which reported swelling with a corresponding decline in mechanical properties [2,3]. A few recent studies on polyethylene [4][5][6][7][8][9][10][11] have suggested interactions with biodiesel may be quite aggressive.…”

Section: Introductionmentioning

confidence: 99%

Plasticizing effect of oxidized biodiesel on polyethylene observed by nondestructive method

Saad

Gomes

Thompson

2019

Fuel

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Section: Introductionmentioning

confidence: 99%

Plasticizing effect of oxidized biodiesel on polyethylene observed by nondestructive method

Saad

Gomes

Thompson

2019

Fuel

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“…However, the absence of nitrile stretch peak for composites of HDPE/NBR/PPF and HDPE/NBR/PPF treated could be due to the reaction happened between HDPE, NBR and PPF. On the other hand, C–O peak of 1750.50 cm −1 was found for High‐Density Polyethylene (HDPE) is due to the unsaturated fatty acid content .…”

Section: Resultsmentioning

confidence: 99%

The Effect of γ‐APS Coupling Agent on High Density Polyethylene/Acrylonitrile‐Butadiene Rubber/Palm Pressed Fibre Composites

Santiagoo

Norizan

Saad

et al. 2016

Vinyl Additive Technology

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The effect of γ‐aminopropyltriethoxysilane (γ‐APS) as coupling agent on the properties of High‐Density Polyethylene (HDPE)/Acrylonitrile‐butadiene rubber (NBR)/Palm Pressed Fiber (PPF) composite were studied. The composites were melt mixed using heated two roll mill at 180°C and speed of 15 rpm with six different loading (100/0/10, 80/20/10, 70/30/10, 60/40/10, 50/50/10, and 40/60/10). The effects of γ‐APS on mechanical, morphological, and chemical properties were investigated. The results showed that the treatment of γ‐APS has improved the tensile properties, morphological, and chemical properties. This may due to the good adhesion of PPF filler with HDPE/NBR matrices in the presence of γ‐APS coupling agent. Fourier Transform Infra‐red chemical analysis proves formation of Si–O–Si bond between PPF filler and HDPE/NBR matrices were responsible for this improvement. J. VINYL ADDIT. TECHNOL., 24:E71–E76, 2018. © 2016 Society of Plastics Engineers

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“… No noticeable change was observed in the FTIR spectra. [ 160 ] HDPE, PVDF E10(CE10A), 55% butanol (CB55A) 10% Ethanol Duration: 16 weeks. 10% volume change for PVDF and 16% for HDPE was observed.…”

Section: Table A1mentioning

confidence: 99%

Permeation Damage of Polymer Liner in Oil and Gas Pipelines: A Review

2020

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Non-metallic pipe (NMP) materials are used as an internal lining and standalone pipes in the oil and gas industry, constituting an emerging corrosion strategy. The NMP materials are inherently susceptible to gradual damage due to creep, fatigue, permeation, processing defects, and installation blunder. In the presence of acid gases (CO2, H2S), and hydrocarbons under high pressure and temperature, the main damage is due to permeation. The monitoring of possible damage due to permeation is not well defined, which leads to uncertainty in asset integrity management. Assessment of permeation damage is currently performed through mechanical, thermal, chemical, and structural properties, employing Tensile Test, Differential Scanning Calorimetry (DSC), Fourier-transform Infrared Spectroscopy (FTIR), and Scanning Electron Microscopy (SEM)/Transmission Electron Microscopy (TEM), to evaluate the change in tensile strength, elongation, weight loss or gain, crystallinity, chemical properties, and molecular structure. Coupons are commonly used to analyze the degradation of polymers. They are point sensors and did not give real-time information. Polymers are dielectric materials, and this dielectric property can be studied using Impedance Analyzer and Dielectric Spectroscopy. This review presents a brief status report on the failure of polymer liners in pipelines due to the exposure of acid gases, hydrocarbons, and other contaminants. Permeation, liner failures, the importance of monitoring, and new exclusive (dielectric) property are briefly discussed. An inclusive perspective is provided, showing the challenges associated with the monitoring of the polymer liner material in the pipeline as it relates to the life-time prediction requirement.

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Compatibility of High-Density Polyethylene Grades with Biofuels

Cited by 8 publications

References 5 publications

Plasticizing effect of oxidized biodiesel on polyethylene observed by nondestructive method

Plasticizing effect of oxidized biodiesel on polyethylene observed by nondestructive method

The Effect of γ‐APS Coupling Agent on High Density Polyethylene/Acrylonitrile‐Butadiene Rubber/Palm Pressed Fibre Composites

Permeation Damage of Polymer Liner in Oil and Gas Pipelines: A Review

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