Possibilities for preform production using the open … for preform production using the open reed...
Transcript of Possibilities for preform production using the open … for preform production using the open reed...
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Possibilities for preform production
using the open reed weaving technology
Christopher Lenz, Benedikt Wendland, Thomas Gries
Institut für Textiltechnik der RWTH Aachen University (ITA), Aachen, Germany
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ITA @ RWTH Aachen University
Motivation
Mechanical evaluation
Method for economical evaluation
Summary & future outlook
Overview
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ITA @ RWTH Aachen University
Motivation
Mechanical evaluation
Method for economical evaluation
Summary & future outlook
Overview
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Source: RWTH Aachen University,
Photos Peter Winandy
38.000 Students in 130 courses of study
260 Institutes with 496 professorships
6900 Employees (thereof 65% scientists)
788 Mio € Total budget, thereof:
315 Mio € Third party funding
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Ap
pli
ca
tio
nfi
eld
s
The unique position of ITA
mobility
building &
living
health
energy
Comprehensive textile
process chains
technology and
competence fields
raw
mate
rials
:
natu
ralfi
bers
, p
oly
mers
,...
sem
i-fi
nis
hed
tex
tile
s &
pro
du
cts
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ITA – Facts and Figures
Budget: ca. 14,3 Mio. €
Staff:
100 Scientists
55 Service personnel
190 Graduate research assistants
50 Students majoring in textile
technology each year
Research and development
Publicity and third party
funded research
Academic and industrial education
Development and transfer
Direct industrial research
Further education
partially publicpublic
Str
ictly c
onfidentialFundamental
Research
ca. 30%
Industrial Funding
ca. 31%
Industry-Related
Public Funding
ca. 35%
Subsidy
ca. 4%
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ITA @ RWTH Aachen University
Motivation
Mechanical evaluation
Summary & future outlook
Overview
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Approach
Application of “tailored” textiles
Examples
Tailored NCF
Cetex
Tailored fiber placement
3D weaving
Tailored braiding
Process technologies for tailored textiles
Source: ITA, CETEX Chemnitz
Tailored NCFCetex NCF
3D weaving Tailored braiding
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Production of FRP parts cost intensive
Complex structures
Multiple process steps
High amounts of waste
Motivation
Source: ITA, AVK
Automotive hood
Car underbodyDoor panel
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Approach
Application of “tailored” textiles
Local adaption of textile’s properties
Near net shape
Advantages
Reduction of waste
Less cutting, handling and joining
Examples
NCF with warp yarn shifting
Tailored NCF
Tailored fiber placement
Motivation
Source: ITA, CETEX Chemnitz
Tailored NCFNCF with shifted
warp yarns
Tailored fiber placement
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New approach: Open Reed Weaving
Introduction of two additional yarn systems
Possibility of local reinforcements
Example: Tailored Open Reed Weaving
Source: Lindauer Dornier GmbH, Lindau
Needle bars
Special reed
Open reed gaps
Basic warp system
Weft Insertion
Reinforcement yarns
Lower bar Fabric take-off
Local reinforcement
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Open Reed Weaving - Limitations
Technology very new (developed in 2011)
Lack of research:
Design possibilities
Mechanical potential of local reinforcements
Integration in preforming process chains
Applications
Objective
Evaluation of mechanical potential for local
reinforcements
Method for economical evaluation in part design
processes
Motivation
Source: ITA
Combinatorics and
integration in process
planning
Textile structure
45°
+45°
90°0°
Biaxiale Gelege 3D-Geflechte
AbstandsgewebeAbstandsgewirke
Binderverfestigte Gelege
Biaxialgestrick Multiaxialgestrick
45°
+45°
90°0°
Biaxialgestrick Multiaxialgestrick
45°
+45°90°
0°
Biaxiale Gewirke Multiaxiale Gewirke 3D-Abstandsgewirk mit Dickensprung
3D-AbstandsgewirkDrehergewebeBiaxiale Gestricke Multiaxiale Gestricke
45°
+45°
90°0°
Biaxiale Gelege 3D-Geflechte
AbstandsgewebeAbstandsgewirke
Binderverfestigte Gelege
Biaxialgestrick Multiaxialgestrick
45°
+45°
90°0°
Biaxialgestrick Multiaxialgestrick
45°
+45°90°
0°
Biaxiale Gewirke Multiaxiale Gewirke 3D-Abstandsgewirk mit Dickensprung
3D-AbstandsgewirkDrehergewebeBiaxiale Gestricke Multiaxiale Gestricke
Mechanical
properties
Applications
Lokal
reinforcementsComponent
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ITA @ RWTH Aachen University
Motivation
Mechanical evaluation
Summary & future outlook
Overview
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Approach
Measuring effects of reinforcements on hole bearing resistance
Two general reinforcement patterns
Knot-hole
X-Shape
Additional variants of knot-hole
Reference: sample without reinforcement
Mechanical evaluation
Knot-hole X-shape
Knot-hole variants
Standard Round Distant Double yarn
Source: ITA
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Samples preparation
Mechanical evaluation
Geometry
Weaving Infusion
Cutting
Drilling
Source: ITA
Reinforced fabric Sample
Reinforcement
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Hole bearing tests
according ISO 12815
Mechanical evaluation - Testing of hole bearing resistance
Distance plate
Testing device
Screwing
Testing pin
Upper
clamp
Sample
Lower clamp
Source: ITA
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Mechanical evaluation - Result analysis
Hole
Crack propagation
Dislocated
reinforcements
Tested sample
Typical testing curve
Source: ITA
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Mechanical evaluation - Results – maximum bearable strength
Source: ITA
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Highest influence can be measured for energy absorption (up to 191 % enhancement)
Improvement in bearable forces up to 110 %
Knot-hole pattern leads to loop-like reinforcement in weft direction
Avoiding of small radius to increase mechanical performance (notch effects)
Increasing the number of reinforcing yarns leads to average improvement of 30 %
Fiber crossing in X-shape pattern improves mechanical performance in warp direction
significantly
Combination of X-shape and knot-hole promises best results
Mechanical evaluation - Conclusions test results
Weft direction
Warp direction
Source: ITA
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Motivation
ORW offers a high potential for enhancing profitability of preforming process
Cutting, handling and joining steps and waste can be reduced
Existing cost calculation tools only cover preforming out of conventional textiles
Economic potential can not be evaluated so far!
Approach
Method for designing fabrics with multiple local reinforcements, including
Cost calculation
Combination tool based on technological boundary conditions
Decision tool
Method for economical evaluation
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Principle
Identifying possible combinations of reinforcements
Comparison to conventionally reinforced fabric
Method for economical evaluation
(1)
(4)
(2)
(3)
(5)
Reference preform: basic fabric + patches Locally reinforced fabric
Source: ITA
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ITA @ RWTH Aachen University
Motivation
Mechanical evaluation
Summary & future outlook
Overview
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Summary
Potential for cost reduction by ORW
No experience available for application of ORW for FRP
Evaluating mechanical performance of local
reinforcements by hole bearing tests
Investigation of different reinforcement patterns
Improvements up to 191 % in absorbed energy measured
Method for economical evaluation developed
Decision tool for best combination of reinforcements
Cost calculation and comparison
Future outlook
Investigation of further load cases
FEA simulation of reinforcements
Summary & future outlook
Source: Lindauer Dornier GmbH, Lindau; ITA
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Das Inst i tu t für Text i l technik
der RWTH Aachen Univers i ty
Christopher Lenz
Head of research group “2D reinforcement fabrics”
Benedikt Wendland
Head of department “composites – fabric production”