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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

130 related items for PubMed ID: 38006117

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  • 4. Graphene Nanoplatelet-Reinforced Poly(vinylidene fluoride)/High Density Polyethylene Blend-Based Nanocomposites with Enhanced Thermal and Electrical Properties.
    Behera K, Yadav M, Chiu FC, Rhee KY.
    Nanomaterials (Basel); 2019 Mar 04; 9(3):. PubMed ID: 30836668
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  • 8. Blending of Low-Density Polyethylene and Poly(Butylene Succinate) (LDPE/PBS) with Polyethylene-Graft-Maleic Anhydride (PE-g-MA) as a Compatibilizer on the Phase Morphology, Mechanical and Thermal Properties.
    Arman Alim AA, Baharum A, Mohammad Shirajuddin SS, Anuar FH.
    Polymers (Basel); 2023 Jan 04; 15(2):. PubMed ID: 36679142
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  • 12. Selective Localization of Carbon Black in Bio-Based Poly (Lactic Acid)/Recycled High-Density Polyethylene Co-Continuous Blends to Design Electrical Conductive Composites with a Low Percolation Threshold.
    Lu X, Kang B, Shi S.
    Polymers (Basel); 2019 Sep 27; 11(10):. PubMed ID: 31569802
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  • 13. High density polyethylene/graphite nano-composites for total hip joint replacements: processing and in vitro characterization.
    Fouad H, Elleithy R.
    J Mech Behav Biomed Mater; 2011 Oct 27; 4(7):1376-83. PubMed ID: 21783148
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  • 14. HDPE/UHMWPE hybrid nanocomposites with surface functionalized graphene oxide towards improved strength and cytocompatibility.
    Bhusari SA, Sharma V, Bose S, Basu B.
    J R Soc Interface; 2019 Jan 31; 16(150):20180273. PubMed ID: 30958172
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  • 15. Enhanced Interfacial Adhesion by Reactive Carbon Nanotubes: New Route to High-Performance Immiscible Polymer Blend Nanocomposites with Simultaneously Enhanced Toughness, Tensile Strength, and Electrical Conductivity.
    Zhao X, Wang H, Fu Z, Li Y.
    ACS Appl Mater Interfaces; 2018 Mar 14; 10(10):8411-8416. PubMed ID: 29488745
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  • 16. Comparing carbon nanotubes and graphene nanoplatelets as reinforcements in polyamide 12 composites.
    Chatterjee S, Nüesch FA, Chu BT.
    Nanotechnology; 2011 Jul 08; 22(27):275714. PubMed ID: 21613677
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  • 17. The Distribution of Nanoclay Particles at the Interface and Their Influence on the Microstructure Development and Rheological Properties of Reactively Processed Biodegradable Polylactide/Poly(butylene succinate) Blend Nanocomposites.
    Salehiyan R, Ray SS, Bandyopadhyay J, Ojijo V.
    Polymers (Basel); 2017 Aug 09; 9(8):. PubMed ID: 30971028
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  • 18. Properties of Biodegradable Films Based on Poly(butylene Succinate) (PBS) and Poly(butylene Adipate-co-Terephthalate) (PBAT) Blends †,‡.
    de Matos Costa AR, Crocitti A, Hecker de Carvalho LH, Carroccio SC, Cerruti P, Santagata G.
    Polymers (Basel); 2020 Oct 10; 12(10):. PubMed ID: 33050501
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  • 19. Morphology, Nucleation, and Isothermal Crystallization Kinetics of Poly(Butylene Succinate) Mixed with a Polycarbonate/MWCNT Masterbatch.
    Gumede TP, Luyt AS, Pérez-Camargo RA, Tercjak A, Müller AJ.
    Polymers (Basel); 2018 Apr 10; 10(4):. PubMed ID: 30966459
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  • 20. Morphology, Thermal, Mechanical Properties and Rheological Behavior of Biodegradable Poly(butylene succinate)/poly(lactic acid) In-Situ Submicrofibrillar Composites.
    Zhu Z, He H, Xue B, Zhan Z, Wang G, Chen M.
    Materials (Basel); 2018 Nov 30; 11(12):. PubMed ID: 30513576
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