Surface energetics, dispersion, and nanotribomechanical behavior of POSS/PP hybrid nanocomposites

Misra, Rahul; Fu, Bruce X.; Morgan, Sarah E.

doi:10.1002/polb.21261

Cited by 107 publications

(77 citation statements)

References 51 publications

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“…Alternatively, large ∆θ values have been attributed to an energy dissipation mechanism associated with thermodynamically irreversible molecular rearrangements on the solid surface that follows wetting [45][46][47]. A12MPOSS has both the highest θ a and ∆θ values (140 and 110 o respectively), a behavior that has been previously reported for other POSS-containing hybrids [39].…”

Section: Surface Characterizationmentioning

confidence: 59%

“…The surface of the neat copolymer A12M is enriched with PDMS, as evidenced by the increased concentration of silicon and the reduced concentration of carbon (the stoichiometric ratio of carbon is higher for the hard segments (Figure 4) reveal extensive migration of the low surface energy POSS nanoparticles to the surface, where they form large aggregates [37][38][39]. Similarly, the SEM image of the A12M surface also shows extensive phase segregation.…”

Section: Surface Characterizationmentioning

confidence: 95%

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Fouling release nanostructured coatings based on PDMS-polyurea segmented copolymers

Fang

Kelarakis

Wang

et al. 2010

Polymer

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The bulk and surface characteristics of a series of coatings based on PDMS-polyurea segmented copolymers were correlated to their fouling release performance. Incorporation of polyurea segments to PDMS backbone gives rise to phase separation with the extensively hydrogen bonded hard domains creating an interconnected network that imparts mechanical rigidity.Increasing the compositional complexity of the system by including fluorinated or POSS functionalized chain extenders or through nanoclay intercalation, confers further thermomechanical improvements. In analogy to the bulk morphology, the surface topography also reflects the compositional complexity of the materials, displaying a wide range of motifs.Investigations on settlement and subsequent removal of Ulva sporelings on those nanostructured surfaces indicate that the work required to remove the microorganisms is significantly lower compared to coatings based on standard PDMS homopolymer. All in all, the series of materials considered in this study demonstrate advanced fouling release properties, while exhibiting superior mechanical properties and, thus, long term durability.

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Section: Surface Characterizationmentioning

confidence: 59%

Section: Surface Characterizationmentioning

confidence: 95%

Fouling release nanostructured coatings based on PDMS-polyurea segmented copolymers

Fang

Kelarakis

Wang

et al. 2010

Polymer

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“…The organic groups allow POSS compounds to be easily incorporated into organic polymers [23,24]. POSS has recently been used in thermoplastics and improve several properties of the materials [25][26][27][28][29][30][31][32][33]. In our previous work, small amounts of bio-POSS octa-(ethyl octadeca 10,13-dienoamide silsesquioxanes) was added to polyethylene (PE) and laminated with paperboard.…”

Section: Introductionmentioning

confidence: 99%

Thermal Oxidation of Polyolefins by Mild Pro-Oxidant Additives Based on Iron Carboxylates and Lipophilic Amines: Degradability in the Absence of Light and Effect on the Adhesion to Paperboard

2015

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Marine and inland pollution by non-degradable plastic bags and other plastic articles is a topic of great concern. Natural degradation processes based on oxidation of plastic pollutants could possibly contribute to limit the extent of pollution. Thermal degradation of polyolefins in the absence of light by non-polluting pro-oxidants has not been presented before. In this study, we show that two amines, stearyl amine and [(3-(11-aminoundecanoyl) amino) propane-1-] silsesquioxane (amino-POSS) in combination with ferric stearate (FeSt 3 ) tremendously accelerate the thermal oxidation of polyolefins compared with reference samples. Both amines and FeSt 3 are to a large extent based on renewable resources. Polyethylene and polypropylene samples containing less than 100 ppm of iron and 1% of amine were extremely brittle after 10 days in a circulation oven in the absence of light. No significant degradation could be seen with samples containing iron but no amine. In a different application, the initial oxidation of polyethylene can be used in order to increase its adhesion to cardboard. Excellent adhesion between polyethylene and cardboard is important for liquid packaging based on renewable resources. Amino-POSS has been chosen for food packaging applications due to its expected lower leakage from polyethylene (PE) compared with stearyl amine. Film samples of PE/amino-POSS/FeSt 3 blends were partly oxidized in a circulation oven. The oxidation was documented by Polymers 2015, 7 1523 increased carbonyl index (CI) and melt flow index (MFI). The limited extent of oxidation has been proved by unchanged tensile strength and only moderate changes in elongation at break when compared to reference polyethylene films containing no FeSt 3 or amino-POSS. The PE/amino-POSS/FeSt 3 blends were compression moulded to paperboard. The adhesion of non-aged blends to paperboard decreased with increasing amino-POSS content which is in good compliance with an earlier reported lubricant effect of high amounts of POSS in PE. Thermal ageing of PE/amino-POSS/FeSt 3 films prior to coating however led to a significant increase in adhesion. Improved physical interlocking due to increased MFI and interaction between C=O of the blends and OH of paperboard can explain the adhesion improvement. The films were not brittle after thermal ageing, which makes their use in industrial packaging feasible. A mechanism explaining the role of amines during thermal oxidation of polyolefins in the presence of iron is proposed.

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“…Adding POSS to polymers can bring about significant improvements in the bulk properties of these polymers such as increased thermal stability, hardness, wear resistance, oxidative resistance, mechanical properties and decreased flammability and viscosity during processing [9][10][11][12][13][14][15][16][17][18][19][20]. There are also some limited studies on the surface hydrophobicity of POSS-based polymer nanocomposites [9,10,14,15,[18][19][20][21][22][23].…”

Section: Introductionmentioning

confidence: 96%

Role of interface in dispersion and surface energetics of polymer nanocomposites containing hydrophilic POSS and layered silicates

Zhou

Pramoda

Lee

et al. 2011

Journal of Colloid and Interface Science

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Surface energetics, dispersion, and nanotribomechanical behavior of POSS/PP hybrid nanocomposites

Cited by 107 publications

References 51 publications

Fouling release nanostructured coatings based on PDMS-polyurea segmented copolymers

Fouling release nanostructured coatings based on PDMS-polyurea segmented copolymers

Thermal Oxidation of Polyolefins by Mild Pro-Oxidant Additives Based on Iron Carboxylates and Lipophilic Amines: Degradability in the Absence of Light and Effect on the Adhesion to Paperboard

Role of interface in dispersion and surface energetics of polymer nanocomposites containing hydrophilic POSS and layered silicates

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