daniel t. buckley manager of r&d american gfm · directed fiber oldest method p4/p3 and variations...
TRANSCRIPT
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Daniel T. Buckley Manager of R&D American GFM
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Preforming goes back about 75 years Invented by Ivan Brenner All Liquid Composite Molding Processes “Closed Mold Processes” RTM, SRIM, VARTM, High Pressure RTM, ETC. RTM Lite, Resin Infusion, RFI Wet Compression Molding Mid to High Volume Structural, Semi-Structural and non Structural
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Reduce Cost Repeatable and Accurate Laminate Schedules Reduction of Manual Labor Faster Molding Cycle Use of Hot Molds Use of Closed Molds to eliminate VOCs Efficient use of expensive Molding tooling Compression Molding Mid to High Volume Predictable Molding Process
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Directed Fiber Oldest method P4/P3 and variations Slurry Rimfire Bentley Magnetic Carbon Fibre CompForm and MatForm
Thermo/Thermal Forming Many Variations on Theme Powdered Binders
Thermoplastic or Thermoset Binders
Factory supplied preformable mats and fabrics
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CompForm Visable Light or UV Light Cure Carbon Fiber Specific Processes
Single Bladder, Double Bladder Diaphragm, Vacuum forming, Pressure/presser
foot/roller, etc. Binders Liquid, Powder/Melt and String Thermoset Binders Epoxy, Urea, Resol, Acrylate, UP, Epoxy Acrylate, etc.
UV and Visible light curable Thermoplastic Binders PBT, PET, Epoxy, etc.
Tackifiers Staples and Tape
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Oldest Preforming Method Variations
P4, P3, Powdered and String Binders
Brenner/CompForm
Budd Slurry
Dow Flame Spray
RIMFIRE
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Complements of MFG
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Complements of MFG
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Complements of MFG
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Complements of MFG
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Complements of MFG
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Brenner/CompForm
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Brenner/CompForm
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Brenner/CompForm
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Courtesy OCF
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Courtesy OCF
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Courtesy OCF
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Pre weighed
chopped fibers are
dispersed in water.
Air is bubbled up
from bottom to
keep fibers
dispersed. weighed chopped fibers are
dispersed in water.
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Chopped fibers
are collected by
perforated screen
as it is moved
vertically through
water until screen
is above water
and can be
removed for
drying.
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Spare Tire Well
Preform
Courtesy of Bentley
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Molded Spare
Tire Well
Courtesy of Bentley
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Low cost input materials-Rovings Isotropic Properties P3,4 etc. capable of some Anisotropy Very low trim scrap Low to Mid Volume Fractions/Slurry Low to High Volume Fractions/P’s Deep draw possible, male tooling In Mold—Rimfire, onto Gelcoat In Mold-Bentley Magnetic Carbon Fibre In Mold-Various flame/hot melt binder Preform and mold in same tool Relatively Fast Deposition Rates
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Isotropic Properties Difficulty getting Anisotropy High Energy Use Mid to High Volume Fractions difficult Large Volume Fraction Variations Randomized Process High loft and loft control, Inside Radii Bridging, Outside Radii Blocking Rimfire, Fast Loft increases with thickness Deposition Rates can be slow
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Poor Shape Definition on side away from screen
Thickness/Weight/Volume Fractions limited by Air Movement
Some Binders Systems Non Compatible with Matrix Resins
Some Binder Systems Migrate during Molding
Some Binder Systems foul the Preforming Equipment and ducting
Can be messy around equipment
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Heat/Form/Cool process
Heating Typically IR Ovens
Binder releases when heated above Melt Temperature
Thermoformable Continuous Strand Mats typically use Thermoplastic Binders (PBT)
Various NCF Fabrics supplied with various Thermo Process capable Binders
Typically Binder applied during Weaving/Stitching
Some Carbon fabrics with Epoxy based Binder
Binders can be applied at Molders Location
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Courtesy OCF
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Courtesy OCF
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Standard Materials Available Some Thermal Forming NCF Fabrics Available Some Woven Fabrics Available Isotropic Properties with Continuous Strand
Mats Relatively Fast Processing Times Relatively Low Cost Equipment Glass and Carbon manual preforming
possible Different Types of Binders can be Used
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Courtesy of Plasan
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BMW i3
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BMW i3
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Limited Material Selection but getting Better Volume Fractions Energy due to Heating/Cooling Very Thick or Very Thin Preforms Isotropic Properties with mats Draw or Depth Thinning During Draw Springback
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Conformability/Drapability
Wrinkling, Folding and Bunching
High Cost of Material
With High Temp Molding the Binder can release and not hold fibers in Place during infusion
Thermoformable CSM Expensive for Properties
Supply of Thermoformable Mat is Limited
Can be Very High Trim Scrap
Sometimes Binder Migrates during elevated Temperature Molding Processing
Binder Compatibility
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Courtesy of Fiber Innovations
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Custom braided sleeve products and Some Standardized Products
Historically Both are relatively expensive Historically, Typically for Low Volume Great Physical Properties Various Anisotropy All different kinds of Fibers and hybrids Z Direction Reinforcing Tailored Fiber Placement is very Material efficient
and getting faster with new technology Tailored Fiber Placement can be combined with
larger preforms made from NCF Fabrics Not rigid preforms but can be
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Fiber Orientation and Geometry
Optimized for Product Properties
Tailored Fiber Placement
LayStitch Fiber Printer
www.LayStitch.com
www.TailoredFiberPla
cement.com Phone: +1 (248) 346
5146 - e-mail:
http://www.laystitch.com/http://www.laystitch.com/http://www.laystitch.com/http://www.laystitch.com/http://www.laystitch.com/http://www.tailoredfiberplacement.com/http://www.tailoredfiberplacement.com/
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Needle
Thread
LayStitch Fiber Printer
www.LayStitch.com
www.TailoredFiberPlacement.com
Phone: +1 (248) 346 5146
e-mail: [email protected]
http://www.laystitch.com/http://www.laystitch.com/http://www.laystitch.com/http://www.laystitch.com/http://www.laystitch.com/http://www.tailoredfiberplacement.com/
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Material Optimization
Topological Optimization
LayStitch Fiber Printer
www.LayStitch.com
www.TailoredFiberPlacemen
t.com
Phone: +1 (248) 346 5146
e-mail:
http://www.laystitch.com/http://www.laystitch.com/http://www.laystitch.com/http://www.laystitch.com/http://www.laystitch.com/http://www.tailoredfiberplacement.com/http://www.tailoredfiberplacement.com/
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Uses Light cure for Fiberglass Materials
Special Matrix Resin Specific Binders for Carbon Fiber Very thick preforms and Opaque Materials
Target Markets are Automotive and Higher Volume Applications
Very High degree of Process Flexibility
Process easily Automated
Process can provide Net Shape Preforms
Infusion Stable Binders
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From AGFM
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From AGFM
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Light Cure is Very fast Cure is maximum of 18 to 20 seconds Cure can be in 1-3 second range
Very Energy Efficient No lights used except during cure step
No Heating required in Process Therefore Low Cost Composite Tooling
Works on all Fiberglass Materials Engineering Fabrics Continuous and Chopped Strand Mats All Veils
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Energetic Stitching Complex Preforms Lighting can be on Tooling Surface Eliminates High Intensity Lights Single side or Two side Lighting Lighting can come on with Tooling Closed
Flexible Cell Designs Binders are Compatible with all common
Matrix Resins Can Preform behind and onto skins Works with Directed Fiber Preforming
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From AGFM
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From AGFM
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Extremely Fast cure Cycles Possible Typically User Determines Binder % Liquid Binder is 100% Solids, no VOCs User can Determine Binder Location Matrix Resin BinderCompatibility Complex Preforms Selective Curing Complex Shapes Low Energy Cure
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Virtually any Reinforcing Material
Conformability of Certain Materials
High Volume Fractions
Cores and Fasteners
Anisotropy determined by Material Selection and Laminate Schedule
Preform Assembly for very Difficult Shapes or Impossible Shapes
Preforms to any Thickness
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Single Step Thickness Limited
Anything Opaque
Liquid Binder Application
Cost of High Intensity Lighting
Very Deep Draws can be slower or require Male Preforming tooling
or require Separate preforms
Binder Cost Relatively High
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Net Shape is when the Preform fits the Molding Tool with no material outside the Mold Cavity
Net Shape fits the molding tool such that the parting line is closed
Net Shape provides molded parts that do not have to be trimmed except for flash
Net Shape provides parts that are essentially ready to be used
Net Shape eliminates most or all secondary operations
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Net Shape virtually Mandatory for High Volume
Net Shape Yields High Degree of Accuracy in the Molded Part
Net Shape Keeps the Parting Line Sealed
Net Shape allows High Molding Pressure and Closed parting lines
Net Shape allows High Resin Holding Pressures
Net Shape allows Control over Mold Vacuum
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Net Shape requires Accurate Trimming/Cutting
Net Shape Cutting Machinery is Expensive Net Shape Cutting/Trimming adds Step Net Shape requires accurate Near Net Shape
Preforms Net Shape Requires stable Preforms to
prevent fiber distortion during Cutting/Trimming
Net Shape Preforms to be stable during Handling
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Courtesy of Ford
Motor Company
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Courtesy of Ford Motor
Company
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From AGFM
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4 Layers 24 oz Woven Roving
From AGFM
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Saertex,Chomarat, Syncoglass, Owens Corning, Etc
Pros Simple Shapes do not Require Preforming Essentially a Sandwich Construction Different Core Materials Available Easy Infusion
Cons High Cost to Performance Ratio Draw Limits and Thinning Low Volume Fractions High resin content between mats in center
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From AGFM
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Simple Shapes Do not Require Preforming Unless fiber stabilization required for infusion
Numerous Different constructions available Can be Stitched Fabrics or Woven Fabrics Good for Structural Applications Excellent for Preforming using Binders for
Stabilization Varying levels of Conformability Available in all kinds
of Fibers Hybrids Available Available in various fiber orientations Available in multiple axial orientations Excellent Physical Properties
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Can be Expensive
Difficult to Handle Manually
Some Constructions do not conform well
Often Lose fiber alignment during Handling
Can Lose fibers during Handling
Fiber Alignment and Density changes during forming
Density changes can make infusion difficult Dry spots
Racetracking
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Courtesy of Bentley
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Courtesy of Bentley
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From AGFM
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Courtesy of Plasan
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From AGFM
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From AGFM
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From AGFM
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Conformability is the most Important Criteria for Preforming any Roll good Material
During Preforming, Densities and Thickness Change Locally
Failure to conform creates numerous molding and infusion problems
To Model Flow, the Conformability needs to be known
During Preforming Fiber Orientation changes as a function of the shape
To Model Mechanical Properties the Fiber Orientation in 3D needs to be known
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Complements of Textechno
GmbH, contact:
mailto:[email protected]
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Complements of Textechno
GmbH, contact:
m
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Complements of Textechno
GmbH, contact:
mailto:[email protected]
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Non Elastic Reinforcing Materials do not Stretch
Fibers must Move, Shear or Break during Preforming of Roll Good Materials
The above Problems create Dry Spots, Non-Fills, Racetracking and/or integrity Problems in the Molded Part
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From AGFM
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From AGFM
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From AGFM
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Courtesy Citroen
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Material follows the contour created by the through plane forming pressure
Areas of high fiber stress are created
Springback is the tendency to relieve the stress
All fiber reinforcing materials spring back to some degree depending on construction
To Control Race-tracking and resin rich areas the tooling must compensate
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Courtesy of Bentley
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Typically Thermo/Thermal processes are used to melt Binders, thermoset or thermoplastic
Preform can be Stabilized by either Cooling Binder or curing Binder
Tackifiers are often used but do not produce a rigid preform
Light Cure has very limited application with Carbon Fiber Single layer or with Fiberglass
Usually Woven or Stitched Fabrics but can be Directed Fiber
Bentley Developed adding Metal to Fibers and using Magnetic tooling to hold Directed Fibers in Place
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Courtesy of Plasan
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Look at Local and Global Properties Let Properties Drive Decisions Chopped Fibers vs. Continuous Fibers Random Fiber vs. Oriented Fibers Anisotropy vs. Isotropy
Material Selection, 3D Shape and Laminate Schedule drive Preform Process Selection
Model Fabric Conformability to verify material selection
Model Fiber Density and Orientation for correct Flow modeling
Model Flow to verify molding process
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Performance Reinforcing Materials Selection Conformability Net Shape? Cores and fasteners?
Cost Volume Driven Reinforcing Materials Cost Preforming Process Trim scrap
Quality Quality/SPC Capable Process Low Scrap