THERMOMECHANICAL BEHAVIOUR OF SHORT GLASS FIBRE REINFORCED POLYAMIDE
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1 THERMOMECHANICAL BEHAVIOUR OF SHORT GLASS FIBRE REINFORCED POLYAMIDE A. Ayadi a,b, F. Roger a*, H. Nouri a, H. Maitournam c and I. Raoult d a Mines Douai, Department of Polymers and Composites Technology and Mechanical Engineering, 941 rue Charles Bourseul, CS 10838, F Douai Cedex, France. b University of Lille Nord de France, F Lille, France. c ENSTA ParisTech, Unité de Mécanique, Palaiseau, France. d PSA Peugeot Citroën, Direction Scientifique et des Technologies futures, Route de Gisy, Vélizy-Villacoublay, cedex, France. *Frederic.roger@mines-douai.fr Keywords: Short glass fibre reinforced thermoplastics, thermomechanics, IR thermography, Fibre distribution, X-Ray tomography. Abstract Short Glass Fibre Reinforced Polyamide 6.6 composites are increasingly used in structural automotive applications. The resulting fibre distribution within injection-moulded components has a major impact on their mechanical properties due to the complex flow path taking place while filling the mould. Even for simple structural geometries, resulting mechanical fields are heterogeneous. Moreover, the mechanical behaviour of polyamide composites is sensitive to mechanical loads and especially to environmental hygrothermal conditions. In this work, we propose to use Infrared Thermography to monitor heterogeneous energy dissipation during tensile tests for different PA66GF35 specimens with non uniform fibre distributions. In addition, Launay s thermoelasto-viscoplastic constitutive model was used to simulate temperature evolution during the tests. It is shown that particular attention must be paid to improve filling particles distribution considerations for a right prediction of thermoelastic coupling. 1. Introduction In the recent years, ecological production context has incited automotive industrials to increasingly use Short Glass Fibre Reinforced Polymers (SGFRP) for saving cars weight. Because of their mechanical performance and chemical resistance, polyamide 6.6 (PA66) composites are used as stressed functional automotive parts like intake manifolds, fuel injection rails, and oil pans [1,2,3]. SGFRP components with complex shapes are easily obtained by injection moulding process. However, modeling their resulting mechanical properties is more difficult. In fact, the reinforcing fibres dispersed within the melted matrix, are distributed according to the fluid dynamic processes taking place inside the mould. During the cavity filling, shear effects are induced by the velocity profile over the mould thickness. Even for simple geometries like thin plates for example this process leads to a layered skin/shell/core structure [4,5] as depicted in figure 1. In the shell layers, fibres are mainly oriented parallel to mould flow direction (MFD) while they are generally orientated orthogonally to the flow direction, in the core layer. In the external skin layers, the melted material enters in contact with the cold mould walls resulting in random distribution. 1
2 Figure 1.Representative scheme of a layered structure (1) skin/ (2) shell / (3) core, the arrow indicates the MFD. To analyze filler orientation distribution within reinforced polymers a number of techniques are used. Among those we can state light microscopy, confocal laser scanning microscopy and Micro-Computed Tomography (µ-ct) [6]. The latter technique is adopted in our case since it provides a 3D reconstruction of fibres within the different composite layers based on X-ray absorption difference between the matrix and glass fibres. On the other hand, to analyze the effect of fibre distribution on the mechanical behaviour of SGFP, Infrared (IR) thermography was used to monitor temperature variations at the surface of the samples during mechanical charging. Volume variation taking place with the elastic field deformation is responsible of reversible temperature variation that occurs in a solid. This phenomenon is known as the thermoelastic effect. In anisotropic materials, thermal variations do not only occur for thermoelastic effect but also for irreversible transformations [8,9]. In this study, our work is organized as follows: in section 2, the thermomechanical equations governing dissipation during the mechanical tests are presented. In the following section, an appropriate samples preparation protocol for studying the effect of fibre distribution heterogeneity on the thermomechanical behavior is described. The monitoring of thermoelastic effects by a combination between IR thermography and DIC techniques is highlighted. In section 4, we are exposing and discussing the obtained results. 2. Thermomechanical modeling 2.1. Launay s nonlinear anisotropic model To study the highly nonlinear thermomechanical response of PA66GF35, Launay et al.[9] developed an elasto-viscoplastic constitutive model adapted for wide load ranges. In fact, at low stress levels, the viscoelastic component is active and it is only for higher stress levels that viscoplasticity becomes active. The proposed model was also tested for various environmental conditions. Among its other characteristics, we can emphasize on the fact that softening is considered via an internal variable β that was implemented into a decreasing function affecting the initial anisotropic stiffness tensor. For sake of simplicity, only the uniaxial formulation is described here. The corresponding unidimentional rheological representation with the appropriate parameters is shown in figure 2. A more detailed description can be found elsewhere in [10,11,12]. Figure 2.One-dimensional rheological representation of Launay s model. 2
3 According to the formulation adopted for the elasto-viscoplastic model, the total strain ε can be written as follows: = ε el + ε v1 + ε v2 ε vp (1) ε + Where ε el is the elastic strain, ε v1, ε v2 are respectively the long term and short term viscoelastic strains and ε vp is the viscoplastic strain. Only the viscoplastic evolution equation describing the evolution of plastic state variable as a function of the corresponding state variables is given: ε vp 3 σ X 2 3 = A sinh sign σ X H 2 m (2) Where X is the back-stress tensor corresponding to the center of the pseudo-viscoplastic surface and which is associated to hardening Thermomechanical coupling Intrinsic dissipation can be written as the product of thermodynamical forces with corresponding fluxes. D int A ε + A : ε + A : ε + X : α A. β = (3) v 1 : v1 v2 v2 vp vp + Considering the following assumptions: (i) the external heat supply or loss is timeindependent, (ii) the heat capacity C ε is independent of internal state and (iii) the heat convection term is neglected, the local heat equation during thermomechanical loading can be expressed by: β C ρ ε (4) θ λ θ = D t int 2 ψ + ρt : ε el ε T el Where λ is the thermal conductivity, θ=t-t 0 is the temperature variation. The last term in equation (4) corresponds to thermoplastic coupling. This equation, has been developed for thermoelastic conditions for orthotropic materials [12].In the following section we will present the experimental configuration where the IR thermography will be conducted. 3. Material and experimental procedures 3.1. Material and samples The totality of work was carried out on a 35 weight% short glass fibre reinforced PA66 that is typically used for highly loaded plastic components as presented in section 1. The trade name of the used PA66GF35 grade is Zytel 70G35 HSLX, a product of DuPont TM, kindly provided in the form of 100x100x3 mm 3 injection moulded plates by PSA Peugeot Citroën, Vélizy, France. This material is characterized by a fibre fraction of 19.5% and an average aspect ratio 3
4 of 25 (Fibres have a nominal diameter of 10 µm and an average fibre length of 250 µm). Conventional material data are compiled in table 1. Matrix (PA6.6) E-glass fibre Young Modulus (MPa) ,000 Poisson coef. (-) Density (g/cm 3 ) Table 1.Elastic properties of polyamide 6.6 matrix and glass fibre [13]. To study the effect of fibre orientation on the thermomechanical behavior, the provided plates were moulded in a way that a non-uniform fibre alignment is obtained in the center of each one of them. In fact, at the entrance into the mould cavity the molten mass is forced to flow through a divergent injection gate. Figure 3 illustrates the prediction of the average fibre orientation over the thickness according to a Moldflow simulation previously done by A.Launay et al[10]. This simulation shows a high variability of fibre distribution even for a simple planar geometry. Figure 3.Average fibre orientation over the thickness as a result of an injection simulation of the plate with MOLDFLOW[10]. In a following step, ISO A samples were milled at three different orientations (0, 45 and 90 ) using an abrasive water jet. The orientation angle α is defined as the angle between the MFD and the specimen longitudinal axis. The chosen directions and dimensions of the obtained specimens are depicted in figures 4a and 4b. We note that the samples were not subjected to any thermal conditioning and that only the relative humidity of the matrix that is around 1.2 wt% was measured using Karl Fisher technique. (a) Figure 4.(a) Specimen orientation on the injection molded plate. (b) ISO A specimen dimensions [mm]. (b) 3.2. Tomography for fiber distribution analysis The UltraTom X-Ray micro-tomography system illustrated in figure 5 was used in this study. X-ray images were collected by a pixels CCD camera focused on a scintillating material using 160keV source energy. An in-plane pixel resolution of 800nm was attended. To collect shadow images an angular increment of 0.25 was chosen. According to spatial 4
5 variations in composition and density within the sample the X-rays passing through are absorbed, providing the necessary contrast. Collected individual cross-sections through the sample are then reconstructed by applying back projection principle using X-Act the commercial software of Rx-Solutions. Figure 5.Ultra-Tom X-Ray tomography system Mechanical testing Monotonic tensile tests were carried out on an Instron 8501 hydraulic testing machine. Tests were performed at room temperature (23 C). The machine was equipped with a 100kN load cell. Tests were carried out at a crosshead stress rate of 2.5 MPa/s Combination of IR thermography and D I C investigation techniques IR thermography was used to monitor real time temperature evolution during the mechanical tests. A CEDIP Jade III (Flir system) IR-thermal camera occupied with a G1-50mm objective and a 320 x 240 Focal Plane Array (FPA) sensor was used in this study. The acquisition frequency was set up to 50Hz. A previous thermal resolution calibration took place using an extended black body. For more measurement accuracy, the detection system took into account the variation of the internal temperature of the camera. The calibration setup was then introduced into the commercial software Altair (CEDIP Commercial Systems) to link each pixel s digital level of the FPA with the appropriate temperature. In parallel, a high resolution camera was used to monitor the local displacement field evolution using digital image correlation. Vic 2D software was then used to analyze the corresponding strain fields. It is expected that IR thermography and DIC used together can monitor the heterogeneity of mechanical field during tensile test on samples with heterogeneous fibre distributions. 4. Results and discussion 4.1. Micro-Computed Tomography The obtained raw data were processed using a home developed protocol on the open source software ImageJ. Successive smoothing operations were applied followed by an automatic thresholding to each image of the volume stack was imposed. The resulting data was binarized then segmented. As shown in figure 6, the central zone is easily distinguished from the whole volume while random fibre distribution is observed in the shell layers. Figure 6.3D reconstruction of the fibres within the PA66 matrix. 5
6 From tomography data, we deduced the real fibre orientation distribution across the whole thickness. The obtained result can be considered more accurate than the 2D averaged orientation tensor Thermal evolution during tensile tests for various fibre distributions The prepared specimens in section 3.1 were submitted to monotonic tensile test up to failure. Due to the specific cut orientation angle, the local stiffness matrix field is heterogeneous. For 0 angle, the highest fraction of fibres is oriented in the load direction. As a consequence, the mechanical strength (ultimate stress) is the highest. For the other tested directions, the higher is the angular deviation from the MFD, the lower is the stiffness. To enrich our study, the mechanical results of the previous samples are compared to those of directly injected ISO A specimens. In this last case, the stiffness is maximal. It is clearly seen that the higher the fraction of fibre is oriented in the loading direction, the higher is the ultimate stress. In the opposite, plasticity occurs early for transverse specimens where the fraction of MFD oriented fibres is weak and then the stiffness is weak. The strength of the injected specimen (figure 4b) is higher compared to the sample cut in the MFD in the plates. Thus, the identification of material s mechanical parameters on directly injected specimens induces a poor estimation of the behavior of plates and complex mechanical components. During the mechanical tests, Infrared thermography monitored the temperature evolution at the specimen surface. After a thermoelastic stage where the temperature decreases, plasticity occurs and the local temperature variation becomes positive up to failure. Figures 7a and 7b show respectively the applied nominal stress-global strain evolution during monotonic tensile tests and the corresponding temperature variation in the critical zone of the specimen which corresponds to the bottom of the plate. (a) (b) (c) Figure 7.(a)Mechanical response of the ISO A samples submitted to monotonic tensile test (b)temperature variation during the tensile tests response of the ISO A samples (c)samples positions *The dashed curves correcpond to the data relative to an ISO A specimen taken from [9] Monitoring heterogeneous thermomechanical fields IR thermography gives temperature variation at the surface. We have seen in section 2 that temperature variation is correlated to stress state. DIC estimates the surface strain field during the tensile test. It is expected that both techniques are reliable to monitor thermomechanical field heterogeneity. We consider a tensile test specimen cut transversally to the MFD close to the injection gate as illustrated in figure 7c (top sample). Temperature variation in its critical zone is plotted in figure 8a. Figures 8a1, 8b1 and 8c1 show the temperature variation at three 6
7 specific loading times respectively at the thermoelastic stage, at the end of the thermoelastic stage and before failure. It is seen that even during the thermoelastic stage, the critical zone can be identified. This shows that the critical zone is related to the heterogeneous stiffness in this area. The same conclusion can be drawn with DICwith strain field analysis in loading direction (figures 8a2, 8b3 and 8b4) and transverse direction (figures 8a3, 8b3 and 8c3). a1 b1 c1 a2 b2 c2 a3 b3 c3 Figure 8.Summary of the IR thermography and DIC results. 7
8 Acknowledgement The authors gratefully acknowledge the International Campus on Safety and Intermodality in Transportation (CISIT), the Nord-Pas-de-Calais Region and the European Community (FEDER funds) for partly funding the X-ray tomography equipment. References [1] Crupi V, Guglielmino E. Application of Digital Image Correlation for the effect of glass fibres on the strength and strain to failure of polyamide plastics. CONVEGNO IGF XXII 2013:1 3. [2] Sonsino C, Moosbrugger E. Fatigue design of highly loaded short-glass-fibre reinforced polyamide parts in engine compartments. Int J Fatigue 2008;30: [3] Mouti Z, Westwood K, Long D, Njuguna J. An experimental investigation into localised low-velocity impact loading on glass fibre-reinforced polyamide automotive product. Compos Struct 2013;104: [4] Arif MF, Saintier N, Meraghni F, Fitoussi J, Chemisky Y, Robert G. Multiscale fatigue damage characterization in short glass fiber reinforced polyamide-66. Compos Part B Eng 2014;61: [5] Monte M De, Moosbrugger E, Quaresimin M. Influence of temperature and thickness on the off-axis behaviour of short glass fibre reinforced polyamide 6.6 Quasi-static loading. Compos Part A Appl [6] Eberhardt CN, Clarke a R. Automated reconstruction of curvilinear fibres from 3D datasets acquired by X-ray microtomography. J Microsc 2002;206: [7] Vergani L. A review of thermographic techniques for damage investigation in composites. Frat E Integrita 2014;27:1 12. [8] Ghorbel a., Saintier N, Dhiab a. Investigation of damage evolution in short glass fibers reinforced polyamide 6,6 under tensile loading using infrared thermography. Procedia Eng 2011;10: [9] Launay a., Marco Y, Maitournam MH, Raoult I, Szmytka F. Cyclic behavior of short glass fiber reinforced polyamide for fatigue life prediction of automotive components. Procedia Eng 2010;2: [10] Launay a., Maitournam MH, Marco Y, Raoult I. Multiaxial fatigue models for short glass fiber reinforced polyamide Part I: Nonlinear anisotropic constitutive behavior for cyclic response. Int J Fatigue 2013;47: [11] Marco Y, Le Saux V, Jégou L, Launay a., Serrano L, Raoult I, et al. Dissipation analysis in SFRP structural samples: Thermomechanical analysis and comparison to numerical simulations. Int J Fatigue [12] Haj-Ali R, Wei B-S, Johnson S, El-Hajjar R. Thermoelastic and infrared-thermography methods for surface strains in cracked orthotropic composite materials. Eng Fract Mech 2008;75: [13] Monte M De, Moosbrugger E, Quaresimin M. Influence of temperature and thickness on the off-axis behaviour of short glass fibre reinforced polyamide 6.6 cyclic loading. Compos Part A Appl
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