Analysis of a Process Approach for Production of Triaxial Braids with Locally Customized Filler Yarn Count

Eric Eschler; Julius Hüls; Swen Zaremba; Klaus Drechsler

doi:10.4028/www.scientific.net/KEM.809.360

Paper Titles

Influence of Composition on Mechanical Properties of Additively Manufactured Composites Reinforced with Endless Carbon Fibers
p.335

Surface Topography Influences on the Fatigue Behavior of Composite Joints
p.341

Deflection Sheaves for Elevator Application in Lightweight Design
p.347

Generating Permanent and Temporary Material Compounds in FLM Processes
p.353

Analysis of a Process Approach for Production of Triaxial Braids with Locally Customized Filler Yarn Count
p.360

Comparison of Electroplated Ni and PVD Ni Coating Layers after Soft Soldering Process
p.367

Manufacturing CFRP-Parts Using a Modified Co-Curing Method – Fundamental Experimental Analysis
p.372

Temperature- and Time-Dependent Penetration of Surface Structures in Thermal Joining of Plastics to Metals
p.378

Quasi-Static Characterization of Polyamide-Based Discontinuous CFRP Manufactured by Additive Manufacturing and Injection Molding
p.386

HomeKey Engineering MaterialsKey Engineering Materials Vol. 809Analysis of a Process Approach for Production of...

Analysis of a Process Approach for Production of Triaxial Braids with Locally Customized Filler Yarn Count

Abstract:

In order to enhance lightweight potential and fabrication efficiency of structural parts from carbon fiber-reinforced plastics, the approach of locally tailored component properties has proven effective. For braided hollow profiles, however, technical possibilities to achieve process integrated adaption of a components’ mechanical properties are limited. Therefore, a novel braiding process approach for cycle-time-neutral adjustment of a triaxial braids filler yarn count is examined and its advantages for component design are illustrated. The main objective of this study is to evaluate the approaches applicability with regard to process stability and disturbance of product quality. Two consecutive test series are carried out to identify the most influential process variables and to link the variation of these variables with multiple criteria of process quality. A clear dependency between quality and braid angle, braid yarn tension as well as the number of filler yarns the approach is applied on is derived. On that basis a set of process variables for faultless application of the concept is pointed out.

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Periodical:

Key Engineering Materials (Volume 809)

Pages:

360-366

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.809.360

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Online since:

June 2019

Authors:

Eric Eschler*, Julius Hüls, Swen Zaremba, Klaus Drechsler

Keywords:

Braiding, Hollow Profile, Local Reinforcement, Preforming, Production Processes, Tailored Properties, Triaxial Braiding

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