Modification of the mechanical properties of polyamide 6 multifilaments in high-speed melt spinning with nano silicates

High-speed melt spinning of thermotropic liquid crystalline polymer (TLCP) resin composed of 4-hydroxybenzoic acid (HBA) and 2-hydroxy-6-napthoic acid (HNA) monomers in a molar ratio of 73/27 was conducted to investigate the characteristic structure development of the fibers under industrial spinning conditions, and the obtained as-spun TLCP fibers were analyzed in detail. The tensile strength and modulus of the fibers increased with shear rate in nozzle hole, draft in spin-line and spinning temperature and exhibited the high values of approximately 1.1 and 63 GPa, respectively, comparable to those of industrial as-spun TLCP fibers, at a shear rate of 70,000 s−1 and a draft of 25. X-ray diffraction demonstrated that the mechanical properties of the fibers increased with the crystalline orientation factor (fc) and the fractions of highly oriented crystalline and non-crystalline anisotropic phases. The results of structure analysis indicated that a characteristic skin–core structure developed at high drafts (i.e., spinning velocity) and low spinning temperatures, which contributed to weakening the mechanical properties of the TLCP fibers. It is supposed that this heterogeneous structure in the cross-section of the fibers was induced by differences in the cooling rates of the skin and core of the fiber in the spin-line.

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Thermoplastic Reaction Injection Pultrusion for Continuous Glass Fiber-Reinforced Polyamide-6 Composites

Materials ◽

10.3390/ma12030463 ◽

2019 ◽

Vol 12 (3) ◽

pp. 463 ◽

Cited By ~ 9

Author(s):

Ke Chen ◽

Mingyin Jia ◽

Hua Sun ◽

Ping Xue

Keyword(s):

Mechanical Properties ◽

Glass Fiber ◽

High Speed ◽

Flexural Modulus ◽

Polyamide 6 ◽

Thermoplastic Composites ◽

Fiber Reinforced ◽

Pultrusion Process ◽

Glass Fiber Reinforced ◽

Pultruded Composites

In this paper, glass fiber-reinforced polyamide-6 (PA-6) composites with up to 70 wt% fiber contents were successfully manufactured using a pultrusion process, utilizing the anionic polymerization of caprolactam (a monomer of PA-6). A novel thermoplastic reaction injection pultrusion test line was developed with a specifically designed injection chamber to achieve complete impregnation of fiber bundles and high speed pultrusion. Process parameters like temperature of injection chamber, temperature of pultrusion die, and pultrusion speed were studied and optimized. The effects of die temperature on the crystallinity, melting point, and mechanical properties of the pultruded composites were also evaluated. The pultruded composites exhibited the highest flexural strength and flexural modulus, reaching 1061 MPa and 38,384 MPa, respectively. Then, effects of fiber contents on the density, heat distortion temperature, and mechanical properties of the composites were analyzed. The scanning electron microscope analysis showed the great interfacial adhesion between fibers and matrix at 180 °C, which greatly improved the mechanical properties of the composites. The thermoplastic reaction injection pultrusion in this paper provided an alternative for the preparation of thermoplastic composites with high fiber content.

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The influence of resin characteristics on the high speed melt spinning of isotactic polypropylene. I. Effect of molecular weight and its distribution on structure and mechanical properties of as-spun filaments

Journal of Applied Polymer Science ◽

10.1002/app.1987.070340415 ◽

1987 ◽

Vol 34 (4) ◽

pp. 1521-1539 ◽

Cited By ~ 35

Author(s):

Fu-Min Lu ◽

Joseph E. Spruiell

Keyword(s):

Mechanical Properties ◽

Molecular Weight ◽

Isotactic Polypropylene ◽

High Speed ◽

Melt Spinning

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Fiber Structure Formation in High-Speed Melt Spinning of Polyamide 6/Clay Hybrid Nanocomposite

Journal of Macromolecular Science Part B ◽

10.1081/mb-100100403 ◽

2000 ◽

Vol 39 (4) ◽

pp. 545-559 ◽

Cited By ~ 37

Author(s):

EMIL GIZA ◽

HIROSHI ITO ◽

TAKESHI KIKUTANI ◽

NORIMASA OKUI

Keyword(s):

Structure Formation ◽

High Speed ◽

Melt Spinning ◽

Polyamide 6 ◽

Hybrid Nanocomposite ◽

Fiber Structure

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Improvement of mechanical properties of biodegradable PHBH fibers through high-speed melt spinning process equipped with a liquid isothermal bath

10.1063/5.0028686 ◽

2020 ◽

Author(s):

Yuki Miyao ◽

Wataru Takarada ◽

Takeshi Kikutani

Keyword(s):

Mechanical Properties ◽

High Speed ◽

Melt Spinning ◽

Spinning Process

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An analysis of the transport properties and mechanical stability of rapidly solidified Al-Sb alloy

JOURNAL OF ADVANCES IN PHYSICS ◽

10.24297/jap.v10i2.1336 ◽

2015 ◽

Vol 10 (2) ◽

pp. 2663-2681

Author(s):

Rizk El- Sayed ◽

Mustafa Kamal ◽

Abu-Bakr El-Bediwi ◽

Qutaiba Rasheed Solaiman

Keyword(s):

Mechanical Properties ◽

Thermal Conductivity ◽

Melt Spinning ◽

Elastic Moduli ◽

Mechanical Stability ◽

Microstructural Analysis ◽

Alloy System ◽

Antimony Content ◽

The Stability ◽

Rapidly Solidified

The structure of a series of AlSb alloys prepared by melt spinning have been studied in the as meltâ€“spun ribbons Â as a function of antimony content .The stabilityÂ of these structures hasÂ beenÂ related to that of the transport and mechanical properties of the alloy ribbons. Microstructural analysis was performed and it was found that only Al and AlSb phases formed for different composition. Â The electrical, thermal and the stability of the mechanical properties are related indirectly through the influence of the antimony content. The results are interpreted in terms of the phase change occurring to alloy system. Electrical resistivity, thermal conductivity, elastic moduli and the values of microhardness are found to be more sensitive than the internal friction to the phase changes.Â

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Influence of ageing treatment on microstructure, mechanical properties and adhesive wear behaviour of 6063 aluminium alloy

Industrial Lubrication and Tribology ◽

10.1108/ilt-01-2012-0007 ◽

2014 ◽

Vol 66 (4) ◽

pp. 520-524 ◽

Cited By ~ 1

Author(s):

Serkan Büyükdoğan ◽

Süleyman Gündüz ◽

Mustafa Türkmen

Keyword(s):

Mechanical Properties ◽

Wear Resistance ◽

High Speed ◽

Al Alloys ◽

Wear Behaviour ◽

Al Alloy ◽

Strain Ageing ◽

Content Type ◽

Static Strain ◽

Structural Applications

Purpose – The paper aims to provide new observations about static strain ageing in aluminium (Al) alloys which are widely used in structural applications. Design/methodology/approach – The present work aims to provide theoretical and practical information to industries or researchers who may be interested in the effect of static strain ageing on mechanical properties of Al alloys. The data are sorted into the following sections: introduction, materials and experimental procedure, results and discussion and conclusions. Findings – Tensile strength, proof strength (0.2 per cent) and percentage elongation measurement were used to investigate the effect of strain ageing on the mechanical properties. Wear tests were performed by sliding the pin specimens, which were prepared from as-received, solution heat-treated, deformed and undeformed specimens after ageing, on high-speed tool steel (64 HRC). It is concluded that the variations in ageing time improved the strength and wear resistance of the 6063 Al alloy; however, a plastically deformed solution-treated alloy has higher strength and wear resistance than undeformed specimens for different ageing times at 180°C. Practical implications – A very useful source of information for industries using or planning to produce Al alloys. Originality/value – This paper fulfils an identified resource need and offers practical help to the industries.

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Enhanced electrical conductivity and mechanical properties in thermally stable fine-grained copper wire

Communications Materials ◽

10.1038/s43246-021-00150-1 ◽

2021 ◽

Vol 2 (1) ◽

Author(s):

Qingzhong Mao ◽

Yusheng Zhang ◽

Yazhou Guo ◽

Yonghao Zhao

Keyword(s):

Mechanical Properties ◽

Thermal Stability ◽

Electrical Conductivity ◽

Yield Strength ◽

High Speed ◽

Copper Wire ◽

Rapid Development ◽

Dislocation Slip ◽

Ultrafine Grains ◽

The Wire

AbstractThe rapid development of high-speed rail requires copper contact wire that simultaneously possesses excellent electrical conductivity, thermal stability and mechanical properties. Unfortunately, these are generally mutually exclusive properties. Here, we demonstrate directional optimization of microstructure and overcome the strength-conductivity tradeoff in copper wire. We use rotary swaging to prepare copper wire with a fiber texture and long ultrafine grains aligned along the wire axis. The wire exhibits a high electrical conductivity of 97% of the international annealed copper standard (IACS), a yield strength of over 450 MPa, high impact and wear resistances, and thermal stability of up to 573 K for 1 h. Subsequent annealing enhances the conductivity to 103 % of IACS while maintaining a yield strength above 380 MPa. The long grains provide a channel for free electrons, while the low-angle grain boundaries between ultrafine grains block dislocation slip and crack propagation, and lower the ability for boundary migration.

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