New software aids composite processing and QC.
Meet the Puck Criterion
The Institute for Plastics Processing (IKV) at the University of Aachen, Germany, was the first to develop software using the so-called Puck Criterion to analyze the load-bearing strength of composite structures. Strength analysis is complicated by the fact that the fibers and matrix resin fail at different points on the stress/strain curve.
The Puck Criterion analytical model is the first that can analyze the strength of fibers separately from the matrix polymer and calculate the inclination angle of a crack in the matrix. This allows a designer to change fiber orientation to correct a weakness. Before now, the Tsai/Wu Criterion has been the traditional analytical model, but it doesn't distinguish between fiber and matrix failure. Introduced 18 months ago, the IKV's software, called Compositor, is based on Microsoft's Excel spreadsheet program. It costs a little over $1000, including a two-day training workshop.
Commercial software companies have implemented the Puck Criterion, too. Material SA in Zaventem, Belgium (represented in the U.S. by The Green Sales Guy Inc.), last year introduced similar software called Composite Star. It also analyzes the strength and stiffness of laminates and can predict the breaking point of different plies while distinguishing between fiber and matrix failure and the type of load causing failure--i.e., compression or shear. It also lets users decide whether a failure is critical or noncritical.
Composite Star complements finite-element analysis (FEA), looking in extreme detail at one point in a laminate structure. Typical FEA programs analyze the whole structure but are weak in identifying failure criteria within the laminate, according to Material SA. Composite Star costs around $1800.
Componeering Inc. in Helsinki, Finland, a four-year-old spinoff from the Helsinki University of Technology, also offers software to calculate composite strength with interfaces to FEA. The latest version of its ESAComp software introduces new formulations of the Puck Criterion. ESAComp starts at around $3600.
Fiber orientation analysis
Last year, MSC.Software Corp., maker of MSC.Nastran and MSC.Patran FEA software, introduced MSC.Robust Design software, which is believed to be the only stochastic design software on the market for composites. This means it allows random variations in ply thickness and angle to simulate real life tolerances and performance. Other software employing Design of Experiments (DOE) simulations can vary only one parameter at a time. Robust Design also includes a "Decision Tree" function that indicates which variables are more important.
This month, Vistagy is announcing a major upgrade: Version 5.0 of its FiberSIM software for composite lay-up. It integrates with commercial CAD programs, allowing engineers to design composite parts and simulate their manufacturability, showing how prepreg fabric conforms to curves and where splices and darts need to be inserted in the fabric to avoid wrinkles. The 5.0 upgrade is the first software anywhere that can create "variable laminate surface offsets," Vistagy says, which means it can automatically stagger the overlap of different plies of fabric over complex curves by a variable amount. Previously engineers had to define each layer of fabric individually or the offsets had to be uniform.
VIP & RTM simulation
Polyworx, a seven-year-old software company in the Netherlands, brought out RTM-Worx software for simulating resin flow in RTM and vacuum infusion processes. It models resin flow in large parts like boat hulls, accounting for the effects of fiber orientation, permeability of the fabric stack, and the effects of gravity on resin flow. It predicts what will happen with specific locations of distribution channels and vacuum lines, allowing on-screen-trials. It also predicts how much resin is needed.
The Univ. of Delaware's Center for Composite Materials commercialized its SMARTMolding software and hardware for controlling the SCRIMP vacuum infusion process with very large parts and multiple infusion lines. The new software is said to be the only program that can open and close infusion lines at the right time in the right order. Lines are typically opened and closed manually, but because infusion fabric fills quickly on the surface and more slowly underneath, adjusting flow by eye can be deceiving.
SMARTmolding automates parts of the infusion process, making it more repeatable--checking the vacuum bag for leaks, identifying fabric inserts with barcodes, verifying resin mixing, controlling infusion, and guiding an operator through the processing steps. Hardware includes valving, flow and vacuum sensors, and PLC touchscreen controls. Software and hardware together cost about $140,000.
The Ultran Group (formerly Ultran Laboratories and SecondWave Systems) has a new ultrasonic array system called iPASS for quality control of composite parts. It uses patented non-contact transducers in an array that conforms to the part shape. This reportedly provides more detail and faster calculations when scanning a part to measure its thickness and detect porosity, delamination, holes, or cracks. It even senses fiber orientation. The iPASS system was introduced last year in prototype and was commercialized this year.
Assembly Guidance Systems introduced a hand-held automatic ply-verification (APV) device last year, called the High Accuracy Manually Positioned Inspector or HAMPI. It's a camera-based system that inspects the top layer of fibers as a part is laid up, verifying orientation and creating a record of the inspection. HAMPI is used with the company's laser guide system, which eliminates a physical template for positioning the plies. An operator clicks the laser-guide remote control and three laser dots appear on the part. The operator lines HAMPI up on those three dots and takes a picture. The dots align the picture with the stored CAD data on how the fiber plies should be oriented. HAMPI costs about $50,000 for the first unit and $20,000 for additional handheld units.
NEED TO KNOW MORE?
For more information, enter PT Direct code at www.plasticstechnology.com
Assembly Guidance Systems, Chelmsford, Mass.
(978) 244-1166 * PT Direct: 891AX
Componeering Inc., Helsinki, Finland
+358 (9) 4342 2550 * PT Direct: 757VX
The Breen Sales Buy Inc., Sandy, Utah
(801) 561-3584 * PT Direct: 777ED
IKV (Institut fur Kunststoffverarbeitung), Aachen, Germany
+49 (241) 80 23 884 * PT Direct: 665AR
Material SA, Zaventuem, BelGium
+32 (2) 715-9494 * PT Direct: 796NK
MSC.Software Corp., Santa Ana, Calif.
(714) 784-4056 * PT Direct: 559HD
Polyworx, Ammerstol, Netherlands
+31 (182) 357-042 * PT Direct: 825WR
The Ultran Group, Boalsburg, Pa.
(814) 466-6200 * PT Direct: 311RT
Univ. of Delaware Center for Composite Materials, Newark, Del.
(302) 831-8349 * PT Direct: 845EX
Vistagy Inc., Waltham, Mass.
(781) 290-0506 * PT Direct: 524HF
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|Author:||Schut, Jan H.|
|Date:||Oct 1, 2004|
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