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Quality of Samples in Adhesive Joint Testing

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Języki publikacji
EN
Abstrakty
EN
The study attempts to assess the quality of various types of samples used in the adhesive joint testing. One great weakness of the scientific research conducted on this type of joints is that the published papers generally do not include an analysis of the samples quality. Although the standards define the tolerances of individual dimensions, detailed reports are in fact rarely presented. Above all, it is very important to control the thickness of the adhesive, which significantly affects the strength of adhesive bonds. It was found that obtaining high quality samples depends mainly on observing the technological discipline and using appropriate instrumentation. The paper presents the standards that should be a reliable model for the scientific research on adhesive joints.
Twórcy
  • Department of Production Engineering, Faculty of Mechanical Engineering, Lublin University of Technology, Nadbystrzycka 36, 20-618 Lublin, Poland
  • Department of Production Engineering, Faculty of Mechanical Engineering, Lublin University of Technology, Nadbystrzycka 36, 20-618 Lublin, Poland
Bibliografia
  • 1. Anasiewicz K., Kuczmaszewski J. Effect of Abrasive Waterjet Peening Surface Treatment of Steel Plates on the Strength of Single–Lap Adhesive Joints. Advances in Science and Technology Research Journal, 11(3), 2017, 270–276.
  • 2. Barnes I T.A., Pashby I.R. Joining techniques for aluminium spaceframes used in automobiles: Part II - adhesive bonding and mechanical fasteners. Journal of Materials Processing Technology, 99(1- 3), 2000, 72–79.
  • 3. Bartczak B., Mucha J., Trzepieciński T. Stress distribution in adhesively-bonded joints and the loading capacity of hybrid joints of car body steels for the automotive industry. International Journal of Adhesion and Adhesives, 45, 2013, 42–52.
  • 4. Bożek M., Kujawińska A., Rogalewicz M., Diering M., Gościniak P., Hamrol A. Improvement of catheter quality inspection process. MATEC Web of Conferences, 121, 2017, 1–8.
  • 5. Brotherhood C.J., Drinkwater B.W., Dixon S. The detectability of kissing bonds in adhesive joints using ultrasonic techniques. Ultrasonics, 41(7), 2003, 521–529.
  • 6. Ciardiello R., Belingardi G., Martorana B., Brunella V. Physical and mechanical properties of a reversible adhesive for automotive applications. International Journal of Adhesion and Adhesives, 89, 2019, 117–128.
  • 7. Da Silva L.F.M., Rodrigues T.N.S.S., Figueiredo M.A.V., de Moura M.F.S.F., Chousal J.A.G. Effect of Adhesive Type and Thickness on the Lap Shear Strength, Journal of Adhesion, 82(11), 2006, 1091–1115.
  • 8. Ghumatkar A., Budhe S., Sekhar R., Banea M.D., De Barros S. Influence of adherend surface roughness on the adhesive bond strength. Latin American Journal of Solids and Structures, 13(13), 2016, 2356–2370.
  • 9. Godzimirski J. Problemy klejenia konstrukcyjnego. Technologia i Automatyzacja Montażu, 1, 2009, 25–31.
  • 10. Hamrol A. Zarządzanie jakością z przykładami. Wydawnictwo Naukowe PWN, Warszawa, 2008.
  • 11. Hamrol A., Mantura W. Zarządzanie jakością. Teoria i praktyka. Wydawnictwo Naukowe PWN, Warszawa, 2005.
  • 12. Hennemann K.K., Lenz D.M. Structural methacrylate/epoxy based adhesives for aluminium joints. International Journal of Adhesion and Adhesives, 89, 2019,11–18.
  • 13. Higgins A. Adhesive bonding of aircraft structures. International Journal of Adhesion and Adhesives, 20, 2000, 367–376.
  • 14. Hulimka J., Kałuża M. Preliminary Tests of Steelto-steel Adhesive Joints. Procedia Engineering, 172, 2017, 385–392.
  • 15. Kafkalidis M.S., Thouless M.D. The effects of geometry and material properties on the fracture of single lap-shear joints. International Journal of Solids and Structures, 39(17), 2002, 4367–4383.
  • 16. Kłonica M. Analysis of the effect of selected factors on the strength of adhesive joints. IOP Conference Series: Materials Science and Engineering, 2018, 393.
  • 17. Komorek A., Godzimirski J., Pietras A. Numerical Analysis of Impact Loading of Adhesive Joints. Advances in Materials Science and Engineering, 2017, 1-10.
  • 18. Kuczmaszewski J. Fundamentals of metal-metal adhesive joint design. Politechnika Lubelska, Lublin, 2006.
  • 19. Kuczmaszewski J., Domińczuk J. Modelling of adhesive joints and predicting their strength with the use of neural networks. Computational Materials Science, 43(1), 2008, 165–170.
  • 20. Łubkowski D. Badania wytrzymałości na odrywanie połączeń klejowych: tworzywo polimero-we/metal. Przetwórstwo Tworzyw, 15(4), 2009, 156–160.
  • 21. Machado J.J.M., Nunes P.D.P., Marques E.A.S., da Silva L.F.M. Adhesive joints using aluminium and CFRP substrates tested at low and high temperatures under quasi-static and impact conditions for the automotive industry. Composites Part B: Engi-neering, 158, 2019, 102–116.
  • 22. Mascaro B., Budzik M.K., Castaings M., Jumel J., Shanahan M.E.R. Evaluation of adhesive bond Young’s modulus during crosslinking using a mechanical method and an ultrasound method. Journal of Physics: Conference Series, 2012, 353.
  • 23. Mirski Z., Piwowarczyk T. Podstawy klejenia, kleje i ich właściwości. Przegląd Spawalnictwa: Klejenie, 8, 2008, 12–21.
  • 24. Mirski Z., Piwowarczyk T. Wybrane aspekty technologii klejenia w produkcji autobusów. Przegląd Spawalnictwa: Klejenie, 8, 2008, 44–45.
  • 25. Rośkowicz M. Wybrane problem długotrwałej eksploatacji połączeń klejowych. Problemy Eksploatacji, 3, 2006, 91–106.
  • 26. Rudawska A. Przygotowanie powierzchni do klejenia wybranych materiałów konstrukcyjnych. Politechnika Lubelska, Lublin, 2017.
  • 27. Sadowski T., Nowicki M., Pietras D., Golewski P. Gradual degradation of a thin-walled aluminum adhesive joint with omega cross section under bending. International Journal of Adhesion and Adhesives, 89, 2019, 72–81.
  • 28.Scarselli G., Corcione C., Nicassio F., Maffezzoli A. Adhesive joints with improved mechanical properties for aerospace applications. International Journal of Adhesion and Adhesives, 75, 2017, 174–180.
  • 29. Song J.H., Lim J.K. Bonding Strength in Structural Adhesive Bonded Joint. Metals and Materials International, 7(5), 2001, 467–470.
  • 30. Xu L., Peng X., Pavur R., Prybutok V. Quality management theory development via meta-analysis. International Journal of Production Economics, 229, 2020, 1–16.
  • 31. ISO 8402:1994 Quality management and quality assurance – Vocabulary.
  • 32. ASTM D1002-10 Standard Test Method for Apparent Shear Strength of Single-Lap-Joint Adhesively Bonded Metal Specimens by Tension Loading (Metal-to-Metal).
  • 33. ASTM D1876-08 Standard Test Method for Peel Resistance of Adhesives (T-Peel Test).
  • 34. ASTM D3528-96 Standard Test Method for Strength Properties of Double Lap Shear Adhesive Joints by Tension Loading.
  • 35. ASTM D5656-10 Standard Test Method for Thick Adherend Metal Lap-Shear Joints for Determination of the Stress-Strain Behavior of Adhesives in Shear by Tension Loading.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b1640170-98c6-46e5-8ad7-0d6a28c29929
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