Modelling of the Monolithic Stiffener Forming Process from a Paek Thermoplastic Composite Matrix Using Pam-Form Software

[1] Dutta, A., Niemeyer, M. and Cakmak, M. “Thermoforming of Advanced Thermoplastic Composites. I: Single Curvature Elements.” Polymer Composites Vol. 12 (1991): pp. 257–272. DOI 10.1002/pc.750120407. Dutta A. Niemeyer M. Cakmak M. “ Thermoforming of Advanced Thermoplastic Composites. I: Single Curvature Elements .” Polymer Composites Vol. 12 ( 1991 ): pp. 257 – 272 . DOI 10.1002/pc.750120407 . Open DOISearch in Google Scholar

[2] Muzzy, J.D., Wu, X. and Colton, J.S. “Thermoforming of High Performance Thermoplastic Composites.” Polymer Composites Vol. 11 (1990): pp. 280–285. DOI 10.1002/pc.750110505. Muzzy J.D. Wu X. Colton J.S. “ Thermoforming of High Performance Thermoplastic Composites .” Polymer Composites Vol. 11 ( 1990 ): pp. 280 – 285 . DOI 10.1002/pc.750110505 . Open DOISearch in Google Scholar

[3] Polański, W. and Dobrzeński, P. “Wdrożenie oprogramowania PAM-FORM do modelowania formowania kompozytów termoplastycznych z użyciem prasy.” 30/KZPP/2018. Instytut Lotnictwa, Warszawa. 2018. Polański W. Dobrzeński P. “ Wdrożenie oprogramowania PAM-FORM do modelowania formowania kompozytów termoplastycznych z użyciem prasy .” 30/KZPP/2018 . Instytut Lotnictwa , Warszawa . 2018 . Search in Google Scholar

[4] Waśniewski, B. “Duroplasty oraz termoplasty wysokotemperaturowe w prepregach jako osnowy kompozytów węglowych do wytwarzania struktur lotniczych.” Prace Instytutu Lotnictwa Vol. 2 nr 243 (2016): ss. 28–39. Waśniewski B. “ Duroplasty oraz termoplasty wysokotemperaturowe w prepregach jako osnowy kompozytów węglowych do wytwarzania struktur lotniczych .” Prace Instytutu Lotnictwa Vol. 2 nr 243 ( 2016 ): ss. 28 – 39 . Search in Google Scholar

[5] Toray Cetex® TC1200, Product Data Sheet”. Available at: https://www.toraytac.com/product-explorer/products/ovl4/Toray-Cetex-TC1200 Toray Cetex® TC1200, Product Data Sheet ”. Available at: https://www.toraytac.com/product-explorer/products/ovl4/Toray-Cetex-TC1200 Search in Google Scholar

[6] Dobrzański, P. “Process Specification for Fabric Panel Manufacturing”. IL.S2.WP2.R.1.1.2_F. Instytut Lotnictwa, Warszawa. 2017. Dobrzański P. “ Process Specification for Fabric Panel Manufacturing ”. IL.S2.WP2.R.1.1.2_F . Instytut Lotnictwa , Warszawa . 2017 . Search in Google Scholar

[7] Michel, Biron. Thermoplastics and Thermoplastic Composites. 3rd edn. Elsevier, US (2018). Michel Biron. Thermoplastics and Thermoplastic Composites . 3rd edn. Elsevier, US ( 2018 ). Search in Google Scholar

[8] Harris, J.E., Winslow, P.A., Botkin, J.H., Maresca, L.M., Clendinning, R.A., Cotter, R.J., Matzner, M. and Kwiatkowski, G.T. “Poly(aryl ether ketone) (PAEK) Block and Chain-Extended Copolymers. 2. Preparation and Characterization of Chain-Extended PAEK Copolymers and Poly(ether ketone ketone)/Poly(ether ether ketone) Block Copolymers.” Macromolecules Vol. 26 No. 9 (1993): pp. 2366–2371. DOI 10.1021/ma00061a032. Harris J.E. Winslow P.A. Botkin J.H. Maresca L.M. Clendinning R.A. Cotter R.J. Matzner M. Kwiatkowski G.T. “ Poly(aryl ether ketone) (PAEK) Block and Chain-Extended Copolymers. 2. Preparation and Characterization of Chain-Extended PAEK Copolymers and Poly(ether ketone ketone)/Poly(ether ether ketone) Block Copolymers .” Macromolecules Vol. 26 No. 9 ( 1993 ): pp. 2366 – 2371 . DOI 10.1021/ma00061a032 . Open DOISearch in Google Scholar

[9] Toray Cetex® TC1225, “Product Data Sheet”. Available at: https://www.toraytac.com/product-explorer/products/gXuK/Toray-Cetex-TC1225. Toray Cetex® TC1225 , “ Product Data Sheet ”. Available at: https://www.toraytac.com/product-explorer/products/gXuK/Toray-Cetex-TC1225 . Search in Google Scholar

[10] Andrulonis, R., Lovingfoss, R., Tanoto, V. and John, Tomblin. NCAMP Material Specification-“Formerly TenCate) Cetex® TC1225 Low Melt (LM) Polyaryletherketone (PAEK)”, NMS 122 Rev C. Wichita State University – National Institute for Aviation Research, Witchita, USA (2020). Andrulonis R. Lovingfoss R. Tanoto V. John Tomblin. NCAMP Material Specification-“Formerly TenCate) Cetex® TC1225 Low Melt (LM) Polyaryletherketone (PAEK)” , NMS 122 Rev C. Wichita State University – National Institute for Aviation Research , Witchita, USA ( 2020 ). Search in Google Scholar

[11] Polański, W. “Opracowanie technologii wytwarzania elementów drzwi inspekcyjnych i łączenia bezadhezyj-nego.” 12/CKTP/2019. Instytut Lotnictwa, Warszawa. 2019. Polański W. “ Opracowanie technologii wytwarzania elementów drzwi inspekcyjnych i łączenia bezadhezyj-nego .” 12/CKTP/2019 . Instytut Lotnictwa , Warszawa . 2019 . Search in Google Scholar

[12] Gardiner, G. “PEEK vs. PEKK vs. PAEK and Continuous Compression Molding” (2018). Available at: https://www.compositesworld.com/articles/peek-vs-pekk-vs-paek-and-continuous-compression-molding Gardiner G. “ PEEK vs. PEKK vs. PAEK and Continuous Compression Molding ” ( 2018 ). Available at: https://www.compositesworld.com/articles/peek-vs-pekk-vs-paek-and-continuous-compression-molding Search in Google Scholar

[13] Dobrzański, P. “Elaboration of the Hot Press Technology for Two Selected Materials.” IL.S2.WP2.R.1.1.2. Instytut Lotnictwa, Warszawa. 2017. Dobrzański P. “ Elaboration of the Hot Press Technology for Two Selected Materials .” IL.S2.WP2.R.1.1.2 . Instytut Lotnictwa , Warszawa . 2017 . Search in Google Scholar

[14] Boisse, P., Hamila, N. and Madeo, A. “Modelling the Development of Defects during Composite Reinforcements and Prepreg Forming” (2016). DOI 10.1098/rsta.2015.0269#d3e1371. Boisse P. Hamila N. Madeo A. “ Modelling the Development of Defects during Composite Reinforcements and Prepreg Forming ” ( 2016 ). DOI 10.1098/rsta.2015.0269#d3e1371 . Open DOISearch in Google Scholar

[15] Wang, P., Hamila, N. and Boisse, P. “Intraply Shearing Characterization of Thermoplastic Composite Materials in Thermoforming Processes”. Key Engineering Materials Vol. 504–506 (2012): pp. 243–248. Wang P. Hamila N. Boisse P. “ Intraply Shearing Characterization of Thermoplastic Composite Materials in Thermoforming Processes ”. Key Engineering Materials Vol. 504–506 ( 2012 ): pp. 243 – 248 . Search in Google Scholar

[16] Guzman-Maldonado, E., Hamila, N., Boisse, P. and Bikard, J. “Thermomechanical Analysis, Modelling and Simulation of the Forming of Pre-Impregnated Thermoplastics Composites”. Composites: Part A: Applied Science and Manufacturing Vol. 78 (2015): pp. 211–222. Guzman-Maldonado E. Hamila N. Boisse P. Bikard J. “ Thermomechanical Analysis, Modelling and Simulation of the Forming of Pre-Impregnated Thermoplastics Composites ”. Composites: Part A: Applied Science and Manufacturing Vol. 78 ( 2015 ): pp. 211 – 222 . Search in Google Scholar

[17] Altstaedt, V., Werner, P. and Sandler, J. 2003. “Rheological, Mechanical and Tribological Properties of Carbon-Nanofibre Reinforced Poly (ether ether ketone) Composites.” Polímeros Vol. 13 No.4 (2003). DOI 10.1590/S0104-14282003000400005. Altstaedt V. Werner P. Sandler J. 2003 . “ Rheological, Mechanical and Tribological Properties of Carbon-Nanofibre Reinforced Poly (ether ether ketone) Composites .” Polímeros Vol. 13 No. 4 (2003). DOI 10.1590/S0104-14282003000400005 . Open DOISearch in Google Scholar

[18] Boisse, P., Hamila, N., Guzman-Maldonado, E., Madeo, A., Hivet, G. and dell’Isola, F. 2017 “The Bias-Extension Test for the Analysis of In-Plane Shear Properties of Textile Composite Reinforcements and Prepregs: A Review”. International Journal of Material Forming Vol. 10 (2017): pp. 473–492. Boisse P. Hamila N. Guzman-Maldonado E. Madeo A. Hivet G. dell’Isola F. 2017 “ The Bias-Extension Test for the Analysis of In-Plane Shear Properties of Textile Composite Reinforcements and Prepregs: A Review ”. International Journal of Material Forming Vol. 10 ( 2017 ): pp. 473 – 492 . Search in Google Scholar

[19] Pierce, R.S., Falzon, B.G., Thompson, M.C. and Boman, R. “A Low-Cost Digital Image Correlation Technique for Characterising the Shear Deformation of Fabrics for Draping Studies”. Strain Vol. 51 (2015): pp. 180–189. Pierce R.S. Falzon B.G. Thompson M.C. Boman R. “ A Low-Cost Digital Image Correlation Technique for Characterising the Shear Deformation of Fabrics for Draping Studies ”. Strain Vol. 51 ( 2015 ): pp. 180 – 189 . Search in Google Scholar

[20] Wang, P., Hamila, N., Boisse, P., Chaudet, P. and Lesueur, D. “Thermo-Mechanical Behavior of Stretch-Broken Carbon Fiber and Thermoplastic Resin Composites during Manufacturing.” Polymer Composites Vol. 36 (2015): pp. 694–703. Wang P. Hamila N. Boisse P. Chaudet P. Lesueur D. “ Thermo-Mechanical Behavior of Stretch-Broken Carbon Fiber and Thermoplastic Resin Composites during Manufacturing .” Polymer Composites Vol. 36 ( 2015 ): pp. 694 – 703 . Search in Google Scholar

[21] Liang, B., Hamila, N., Peillon, M. and Boisse, P. “Analysis of Thermoplastic Prepreg Bending Stiffness during Manufacturing and of its Influence on Wrinkling Simulations”. Composites: Part A: Applied Science and Manufacturing Vol. 67 (2014): pp. 111–122. Liang B. Hamila N. Peillon M. Boisse P. “ Analysis of Thermoplastic Prepreg Bending Stiffness during Manufacturing and of its Influence on Wrinkling Simulations ”. Composites: Part A: Applied Science and Manufacturing Vol. 67 ( 2014 ): pp. 111 – 122 . Search in Google Scholar

[22] Sachs, U. Friction and Bending in Thermoplastic Composites Forming Processes. University of Twente, Enschede, The Netherlands (2014). Sachs U. Friction and Bending in Thermoplastic Composites Forming Processes . University of Twente, Enschede , The Netherlands ( 2014 ). Search in Google Scholar