Effect of acoustic excitation on fiber-reinforced polypropylene and the influence on melt viscosity

Heinrich, Michael; Decker, Ricardo; Reindel, Paul; Böttcher, Katja; Roth-Panke, Isabelle; Kroll, Lothar

doi:10.1007/s00170-021-07158-4

Cited by 3 publications

(2 citation statements)

References 19 publications

(18 reference statements)

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“…Another possible explanation for the varying thickness reduction in the samples with constant frequency could be due to a higher matrix viscosity compared to the samples with varying frequency. Higher frequencies could lead to a higher excitement of the molecular chains and thus reducing the London dispersion forces, which reduces the matrix viscosity [78]. Moreover, a shift in frequency could also leads to a shift in wavelength, which could result in a better absorption of the energy emitted from the light source by the molecules.…”

Section: Micrographsmentioning

confidence: 99%

Effect of Flashlamp Heating System Parameters on the Wedge Peel Strength of Thermoplastic Carbon Fiber Tape in the Automated Tape Placement Process

Legenstein,

Fauster

2024

JMMP

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Laser-assisted automated tape placement systems are currently the state of the art regarding thermoplastic tape placement. Flashlamp heating systems are rather new in this field of application and offer high energy density with low safety requirements and moderate costs compared to laser-assisted automated tape placement systems. In this study, the effect of processing parameters on interlaminar bonding of carbon fiber-reinforced polyamide 6 tapes is investigated using a flashlamp heating system. The temperature during placement is monitored using an infrared camera, and the bonding strength is characterized by a wedge peel test. The bonding quality of the tapes placed between 210 °C and 330 °C at a lay-up speed of 50 mm/s is investigated. Thermogravimetric analysis, differential scanning calorimetry, and micrographs are used to investigate the material properties and effects of the processing conditions on the thermophysical properties and geometric properties of the tape. No significant changes in the thermophysical or geometric properties were found. Moisture within the tapes and staining of the quartz guides of the flashlamp system have significant influence on the bonding strength. The highest wedge peel strength of dried tapes was found at around 330 °C.

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Section: Micrographsmentioning

confidence: 99%

Effect of Flashlamp Heating System Parameters on the Wedge Peel Strength of Thermoplastic Carbon Fiber Tape in the Automated Tape Placement Process

Legenstein,

Fauster

2024

JMMP

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“…In studies devoted to the rheology of polymers [34][35][36][37][38], it is indicated that the vibration excitation application, in the process of casting polymers, significantly reduces the viscosity of the polymer composition, in some cases [36] up to 9.6 times. However, these studies relate to thermoplastic polymers, and additional studies are required for thermosets.…”

Section: Metal-polymer Rheology In Mold Channelsmentioning

confidence: 99%

Justification of the Use of Composite Metal-Metal-Polymer Parts for Functional Structures

et al. 2022

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The additive manufacturing of metal parts takes up an increasing number of areas of mechanical engineering, but it still remains too expensive for mass use. Based on the experience in the production of combined metal-metal-polymer forming parts of molds, a new method for the production of composite parts from a metal shell filled with metal-polymer is proposed. As a basis for the study, strength calculations are given by the finite element method for the details of the exoskeleton and a sample of simplified geometry. Comparison of the strength characteristics of parts made of various materials and their combinations showed high strength characteristics of a composite part made of a metal shell and a metal-polymer filler. The metal-metal polymer composite part is distinguished not only by its high strength but also by a significantly lower cost, due to the reduction in the volume of 3D printing with metal. The problems of obtaining composite structures are also discussed. The main problem is the development of a metal-polymer casting technology. The process of filling a thin-walled shell with a metal-polymer causes difficulty.

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Development of a cost-effective technique for batch production of precision wax patterns using 3D optical inspection and rapid tooling technologies

Kuo

Tasi

Chen

et al. 2021

Int J Adv Manuf Technol

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Effect of acoustic excitation on fiber-reinforced polypropylene and the influence on melt viscosity

Cited by 3 publications

References 19 publications

Effect of Flashlamp Heating System Parameters on the Wedge Peel Strength of Thermoplastic Carbon Fiber Tape in the Automated Tape Placement Process

Effect of Flashlamp Heating System Parameters on the Wedge Peel Strength of Thermoplastic Carbon Fiber Tape in the Automated Tape Placement Process

Justification of the Use of Composite Metal-Metal-Polymer Parts for Functional Structures

Development of a cost-effective technique for batch production of precision wax patterns using 3D optical inspection and rapid tooling technologies

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