Thermoplastic polymers for plain bearings. Classification and designation

In this work, new films containing composite materials based on blends of thermoplastic polymers of the polyurethane (TPU) and polyolefin (TPO) type, in the absence and presence of BaTiO3 nanoparticles (NPs) with the size smaller 100 nm, were prepared. The vibrational properties of the free films depending on the weight ratio of the two thermoplastic polymers were studied. Our results demonstrate that these films are optically active, with strong, broad, and adjustable photoluminescence by varying the amount of TPU. The crystalline structure of BaTiO3 and the influence of thermoplastic polymers on the crystallization process of these inorganic NPs were determined by X-ray diffraction (XRD) studies. The vibrational changes induced in the thermoplastic polymer’s matrix of the BaTiO3 NPs were showcased by Raman scattering and FTIR spectroscopy. The incorporation of BaTiO3 NPs in the matrix of thermoplastic elastomers revealed the shift dependence of the photoluminescence (PL) band depending on the BaTiO3 NP concentration, which was capable of covering a wide visible spectral range. The dependencies of the dielectric relaxation phenomena with the weight of BaTiO3 NPs in thermoplastic polymers blends were also demonstrated.

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Innovation of thermoplastic polymers and metals hybrid structure using friction stir welding technique: challenges and future perspectives

Journal of the Brazilian Society of Mechanical Sciences and Engineering ◽

10.1007/s40430-020-02750-3 ◽

2021 ◽

Vol 43 (1) ◽

Author(s):

Renangi Sandeep ◽

N. Arivazhagan

Keyword(s):

Friction Stir Welding ◽

Hybrid Structure ◽

Future Perspectives ◽

Thermoplastic Polymers ◽

Friction Stir ◽

Welding Technique

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Polymer Crystallization: The Development of Crystalline Order in Thermoplastic Polymers By Jerold M. Schultz (University of Delaware). Oxford University Press: New York. 2001. x + 288 pp. $195.00. ISBN 08412-3669-0

Journal of the American Chemical Society ◽

10.1021/ja015359h ◽

2002 ◽

Vol 124 (24) ◽

pp. 7251-7252 ◽

Cited By ~ 3

Author(s):

Benjamin S. Hsiao

Keyword(s):

New York ◽

Polymer Crystallization ◽

University Of Delaware ◽

Thermoplastic Polymers ◽

Crystalline Order ◽

Oxford University ◽

Oxford University Press

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Metallization of Thermoplastic Polymers and Composites 3D Printed by Fused Filament Fabrication

Technologies ◽

10.3390/technologies9030049 ◽

2021 ◽

Vol 9 (3) ◽

pp. 49

Author(s):

Alessia Romani ◽

Andrea Mantelli ◽

Paolo Tralli ◽

Stefano Turri ◽

Marinella Levi ◽

...

Keyword(s):

Physical Vapor Deposition ◽

Test Sample ◽

Tensile Tests ◽

Layer By Layer ◽

Post Processing ◽

Thermoplastic Polymers ◽

Fused Filament Fabrication ◽

Scanning Calorimetry ◽

3D Printed ◽

Manufacturing Technologies

Fused filament fabrication allows the direct manufacturing of customized and complex products although the layer-by-layer appearance of this process strongly affects the surface quality of the final parts. In recent years, an increasing number of post-processing treatments has been developed for the most used materials. Contrarily to other additive manufacturing technologies, metallization is not a common surface treatment for this process despite the increasing range of high-performing 3D printable materials. The objective of this work is to explore the use of physical vapor deposition sputtering for the chromium metallization of thermoplastic polymers and composites obtained by fused filament fabrication. The thermal and mechanical properties of five materials were firstly evaluated by means of differential scanning calorimetry and tensile tests. Meanwhile, a specific finishing torture test sample was designed and 3D printed to perform the metallization process and evaluate the finishing on different geometrical features. Furthermore, the roughness of the samples was measured before and after the metallization, and a cost analysis was performed to assess the cost-efficiency. To sum up, the metallization of five samples made with different materials was successfully achieved. Although some 3D printing defects worsened after the post-processing treatment, good homogeneity on the finest details was reached. These promising results may encourage further experimentations as well as the development of new applications, i.e., for the automotive and furniture fields.

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A method for the accelerated simulation of micro-embossed topographies in thermoplastic polymers

Journal of Micromechanics and Microengineering ◽

10.1088/0960-1317/20/6/065001 ◽

2010 ◽

Vol 20 (6) ◽

pp. 065001 ◽

Cited By ~ 6

Author(s):

Hayden Taylor ◽

Melinda Hale ◽

Yee Cheong Lam ◽

Duane Boning

Keyword(s):

Thermoplastic Polymers ◽

Accelerated Simulation

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Attribute Based Selection of Thermoplastic Resin for Vacuum Infusion Process

International Journal of Manufacturing Materials and Mechanical Engineering ◽

10.4018/ijmmme.2011070104 ◽

2011 ◽

Vol 1 (3) ◽

pp. 31-52 ◽

Cited By ~ 3

Author(s):

R. T. Durai Prabhakaran ◽

Aage Lystrup ◽

Tom Løgstrup Andersen

Keyword(s):

Material System ◽

Mathematical Tool ◽

Thermoplastic Resin ◽

Thermoplastic Polymers ◽

Vacuum Infusion ◽

Thermosetting Polymers ◽

Current Scenario ◽

New Material ◽

Selection Of ◽

Vacuum Infusion Process

The composite industry looks toward a new material system (resins) based on thermoplastic polymers for the vacuum infusion process, similar to the infusion process using thermosetting polymers. A large number of thermoplastics are available in the market with a variety of properties suitable for different engineering applications, and few of those are available in a not yet polymerised form suitable for resin infusion. The proper selection of a new resin system among these thermoplastic polymers is a concern for manufactures in the current scenario and a special mathematical tool would be beneficial. In this paper, the authors introduce a new decision making tool for resin selection based on significant attributes. This article provides a broad overview of suitable thermoplastic material systems for vacuum infusion process available in today’s market. An illustrative example—resin selection for vacuum infused of a wind turbine blade—is shown to demonstrate the intricacies involved in the proposed methodology for resin selection.

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Polyethylene Nanocomposites for Power Cable Insulations

Polymers ◽

10.3390/polym11010024 ◽

2018 ◽

Vol 11 (1) ◽

pp. 24 ◽

Cited By ~ 23

Author(s):

Ilona Pleşa ◽

Petru Noţingher ◽

Cristina Stancu ◽

Frank Wiesbrock ◽

Sandra Schlögl

Keyword(s):

Electrical Performance ◽

Power Cable ◽

Power Cables ◽

Structure Property ◽

Thermoplastic Polymers ◽

Water Tree ◽

Tree Resistance ◽

Structure Property Relationships ◽

Aging Mechanisms ◽

Comprehensive Study

This review represents a comprehensive study of nanocomposites for power cables insulations based on thermoplastic polymers such as polyethylene congeners like LDPE, HDPE and XLPE, which is complemented by original results. Particular focus lies on the structure-property relationships of nanocomposites and the materials’ design with the corresponding electrical properties. The critical factors, which contribute to the degradation or improvement of the electrical performance of such cable insulations, are discussed in detail; in particular, properties such as electrical conductivity, relative permittivity, dielectric losses, partial discharges, space charge, electrical and water tree resistance behavior and electric breakdown of such nanocomposites based on thermoplastic polymers are described and referred to the composites’ structures. This review is motivated by the fact that the development of polymer nanocomposites for power cables insulation is based on understanding more closely the aging mechanisms and the behavior of nanocomposites under operating stresses.

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