Li S.M., Xu K., Wang J.R.: Modern Mechanical Engineering 2018, 8, 192.
Crossref
[2] Sattel M.: Lightweight Design worldwide 2018, 11, 36.
Crossref
[3] Luk J.M., Kim H.C., De Kleine R.D. et al.: Transportation Research Part D: Transport and Environment 2018, 62, 1.
Crossref
[4] Subadra S.P., Yousef S., Griskevicius P., Makarevicius V.: Polymer Testing 2020, 86, 106480.
Crossref
[5] Faruk O ., T jong J ., S ain M .: “ Lightweight a nd Sustainable Materials for Automotive Applications”, CRC Press, Boca Raton 2017, p. 454.
[6] Kühnert I., Maenz T., Rösner J., Schneider K.: “Assembly Injection Molding and Testing of Polymer-Metal-Hybrids”, materials of ANTEC 2012: 70th Annual Technical Conference of the Society of Plastics Engineers, Orlando, Floryda USA, 2–4 April 2012, pp.1388–1393.
[7] Vittinghoff J., Drummer D.: “Investigating the Full- Face Joining of Polymer-Metal Hybrid Structures”, materials of ANTEC 2014: 72th Annual Technical Conference of the Society of Plastics Engineers, Las Vegas, Nevada, USA, 28–30 April 2014, pp. 1795–1800.
[8] Kleffel T., Drummer D.: Journal of Polymer Engineering 2018, 38, 675.
Crossref
[9] Hopmann C., Schild J., Wurzbacher S. et al.: Journal of Polymer Engineering 2018, 38, 583.
Crossref
[10] Hoffmann L., Faißt B., Kose K., Eggers F.: Lightweight Design worldwide 2017, 10, 44.
Crossref
[11] Li L., Sun L., Dai Z. et al.: Journal of Materials Processing Technology 2019, 263, 385.
Crossref
[12] Żenkiewicz M.: „Adhezja i modyfikacja warstwy wierzchniej tworzyw wielkocząsteczkowych”, Wydawnictwa Naukowo-Techniczne, Warszawa 2000.
[13] Awaja F., Gilbert M., Kelly G. et al.: Progress in Polymer Science 2009, 34, 948.
Crossref
[14] Rudawska A.: „Wybrane zagadnienia konstytuowania połączeń adhezyjnych jednorodnych i hybrydowych”, Politechnika Lubelska, Lublin 2013, p. 27.
[15] Barnat-Hunek D.: „Swobodna energia powierzchniowa jako czynnik kształtujący skuteczność hydrofobizacji w ochronie konstrukcji budowlanych”, Politechnika Lubelska, Lublin 2016, pp. 28, 30.
[16] Baldan A.: International Journal of Adhesion and Adhesives 2012, 38, 95.
Crossref
[17] Akram M., Bhowmik S., Jansen K.M.B., Ernst Leo J.: “Surface modification of polyimide by atmospheric pressure plasma for adhesive bonding with titanium and its application to aviation and space”, materials of SAMPE 2010 – New Materials and Processes for a New Economy, Seattle WA, USA, 17–20 May 2010, pp. 326–335.
[18] Żenkiewicz M.: Polimery 2005, 50, 365.
Crossref
[19] Firlik S., Molenda J., Borycki J.: Chemik 2010, 64, 238.
Crossref.
[20] Rogowska R.: Problemy Eksploatacji 2013, 1, 85.
Crossref.
[21] Żenkiewicz M.: Polimery 2007, 52, 760.
Crossref
[22] Bañon F., Sambruno A., Batista M. et al.: Metals 2020, 10, 290.
Crossref
[23] Ghanbari A., Attar M.M.: Surface and Coatings Technology 2014, 246, 26.
Crossref
[24] Li X., Gong N., Yang C. et al.: Journal of Materials Processing Technology 2018, 255, 635.
Crossref
[25]
Crossref (access date 13.04.2020).
[26]
Crossref date 13.04.2020).
[27] Bellon-Fontaine M.N., Mozes N., van der Mei H.C. et al.: Cell Biophysics 1990, 17, 93.
Crossref
[28] Busscher H.J., van Pelt A.W.J., de Boer P. et al.: Colloids and Surfaces 1984, 9 (4), 319.
Crossref
[29] Jie‐Rong C., Wakida T.: Journal of Applied Polymer Science 1997, 63, 1733.
Crossref 02/(SICI)1097-4628(19970328)63:13<1733::AID-APP4>3.0.CO;2-H
Google Scholar