TY  - CONF
AU  - Alil, Ana
AU  - Lazarević, Miloš
AU  - Bajić, Danica
AU  - Nada, Ilić
AU  - Kovačević, Tihomir M.
AU  - Nedić, Bogdan
PY  - 2023
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/6861
AB  - Explosively welded metal plates of large surfaces or specific geometries are used in equipment for 
the production of electricity from renewable sources. In explosive welding, the energy of a 
controlled detonation is used to create a joint, when one metal part collides with another at high 
speed forming a weavy bonded interface. Explosive welding is used in the production of specialized 
components for renewable energy sources, such as parts of wind farms or turbines, because enables 
strong and secure connections between different types of metal or material. This technique can also 
be applied in the production of specific components for solar industry, such as solar panel supports 
that require strong and reliable connections, often between dissimilar materials that are difficult to 
weld with conventional methods. In addition, explosive welding can be useful in the production of 
batteries for renewable energy storage, where it is crucial to ensure that the connections are 
mechanical and electrically reliable. For such structures it is important to be able to perform in situ 
monitoring using nondestructive techniques to check the success of the performed welding on the 
whole pieces or products made this way. This work considers the application of non-destructive and 
destructive techniques to examine the quality of explosively welded joints of two different sets of 
metal plates: aluminum alloy-steel and carbon steel- highly wear resistant alloy steel, with two 
explosives, Amonex and Demex. Inspection of the joints was carried out using surface methods and 
non-destructive volumetric methods. The following techniques were applied: visual method, liquid 
penetrant testing, X-ray and ultrasound defectoscopy. To confirm the results of non-destructive 
techniques, a microstructural analysis of the cross-section of the welded joint was performed. The 
application of non-destructive testing techniques in testing the quality of explosively welded joints 
contributes to the reduction of costs that would be caused by destructive tests, since these 
techniques can be used to monitor the success of the process itself and thus improve the 
technological process of producing bimetallic joints by explosive welding.
AB  - Eksplozivno zavarene metalne ploče velikih površina ili specifične geometrije nalaze primenu u 
opremi za proizvodnju električne energije iz obnovljivih izvora. U eksplozivnom zavarivanju koristi 
se energija kontrolisane detonacije da bi se ostvario spoj, kada se jedan metalni deo sudara sa 
drugim velikom brzinom formirajući spoj talasastog profila. Eksplozivno zavarivanje se koristi u 
proizvodnji specijalnih komponenti za obnovljive izvore energije, kao što su delovi vetroelektrana 
ili turbina, jer omogućava čvrste i sigurne spojeve između različitih vrsta metala. Ova tehnika se 
može primeniti i u izradi specifičnih komponenti za solarnu industriju, kao što su nosači solarnih 
panela koji zahtevaju snažne i pouzdane veze, neretko između raznorodnih materijala koje je teško 
zavariti konvencionalnim postupcima. Osim toga, eksplozivno zavarivanje može biti korisno u 
proizvodnji baterija za skladištenje obnovljive energije, gde je ključno osigurati da su spojevi 
mehanički i električki pouzdani. Za primenu u takvim konstrukcijama važno je da se može vršiti in 
situ kontrola primenom nedestruktivnih tehnika kako bi se proverila uspešnost izvršenog 
zavarivanja celih komada ili proizvoda dobijenih na ovaj način. U ovom radu prikazana je primena 
nedestruktivnih i destruktivnih tehnika za ispitivanje kvaliteta eksplozivno zavarenih spojeva dva 
različita seta metalnih ploča: aluminijumska legura-čelik i ugljenični čelik-alatni čelik, sa dva 
eksploziva, Amonex i Demex. Ispitivanje kvaliteta ostvarenih spojeva vršeno je površinskim 
metodama i zapreminskim metodama bez razaranja i sa razaranjem. Primenjene su sledeće tehnike 
bez razaranja: vizuelna metoda, ispitivanje tečnim penetrantima, radiografija i ultrazvučno 
ispitivanje. Kako bi se rezultati nedestruktivnih tehnika potvrdili, izvšena je i mikrostrukturna 
analiza poprečnog preseka zavarenog spoja. Primena tehnika ispitivanja bez razaranja u 
ispitivanju kvaliteta eksplozivno zavarenih spojeva doprinosi smanjenju troškova kada se vrše 
destruktivna ispitivanja. Ovim tehnikama može pratiti uspešnost samog procesa i na taj način 
poboljšati tehnološki proces izrade bimetalnih spojeva eksplozivnim zavarivanjem.
PB  - Union of Mechanical and  Electrotechnical Engineers and  Technicians of Serbia (SMEITS)
C3  - Proceedings - 11th International Conference  on Renewable Electrical Power Sources, Belgrade, November 2 and 3, 2023, Chamber of Commerce and Industry of Serbia
T1  - Testing the quality of explosively welded joints of dissimilar metals potentially applicable in renewable energy sources
SP  - 23
EP  - 34
UR  - https://hdl.handle.net/21.15107/rcub_cer_6861
ER  - 

@conference{
author = "Alil, Ana and Lazarević, Miloš and Bajić, Danica and Nada, Ilić and Kovačević, Tihomir M. and Nedić, Bogdan",
year = "2023",
abstract = "Explosively welded metal plates of large surfaces or specific geometries are used in equipment for 
the production of electricity from renewable sources. In explosive welding, the energy of a 
controlled detonation is used to create a joint, when one metal part collides with another at high 
speed forming a weavy bonded interface. Explosive welding is used in the production of specialized 
components for renewable energy sources, such as parts of wind farms or turbines, because enables 
strong and secure connections between different types of metal or material. This technique can also 
be applied in the production of specific components for solar industry, such as solar panel supports 
that require strong and reliable connections, often between dissimilar materials that are difficult to 
weld with conventional methods. In addition, explosive welding can be useful in the production of 
batteries for renewable energy storage, where it is crucial to ensure that the connections are 
mechanical and electrically reliable. For such structures it is important to be able to perform in situ 
monitoring using nondestructive techniques to check the success of the performed welding on the 
whole pieces or products made this way. This work considers the application of non-destructive and 
destructive techniques to examine the quality of explosively welded joints of two different sets of 
metal plates: aluminum alloy-steel and carbon steel- highly wear resistant alloy steel, with two 
explosives, Amonex and Demex. Inspection of the joints was carried out using surface methods and 
non-destructive volumetric methods. The following techniques were applied: visual method, liquid 
penetrant testing, X-ray and ultrasound defectoscopy. To confirm the results of non-destructive 
techniques, a microstructural analysis of the cross-section of the welded joint was performed. The 
application of non-destructive testing techniques in testing the quality of explosively welded joints 
contributes to the reduction of costs that would be caused by destructive tests, since these 
techniques can be used to monitor the success of the process itself and thus improve the 
technological process of producing bimetallic joints by explosive welding., Eksplozivno zavarene metalne ploče velikih površina ili specifične geometrije nalaze primenu u 
opremi za proizvodnju električne energije iz obnovljivih izvora. U eksplozivnom zavarivanju koristi 
se energija kontrolisane detonacije da bi se ostvario spoj, kada se jedan metalni deo sudara sa 
drugim velikom brzinom formirajući spoj talasastog profila. Eksplozivno zavarivanje se koristi u 
proizvodnji specijalnih komponenti za obnovljive izvore energije, kao što su delovi vetroelektrana 
ili turbina, jer omogućava čvrste i sigurne spojeve između različitih vrsta metala. Ova tehnika se 
može primeniti i u izradi specifičnih komponenti za solarnu industriju, kao što su nosači solarnih 
panela koji zahtevaju snažne i pouzdane veze, neretko između raznorodnih materijala koje je teško 
zavariti konvencionalnim postupcima. Osim toga, eksplozivno zavarivanje može biti korisno u 
proizvodnji baterija za skladištenje obnovljive energije, gde je ključno osigurati da su spojevi 
mehanički i električki pouzdani. Za primenu u takvim konstrukcijama važno je da se može vršiti in 
situ kontrola primenom nedestruktivnih tehnika kako bi se proverila uspešnost izvršenog 
zavarivanja celih komada ili proizvoda dobijenih na ovaj način. U ovom radu prikazana je primena 
nedestruktivnih i destruktivnih tehnika za ispitivanje kvaliteta eksplozivno zavarenih spojeva dva 
različita seta metalnih ploča: aluminijumska legura-čelik i ugljenični čelik-alatni čelik, sa dva 
eksploziva, Amonex i Demex. Ispitivanje kvaliteta ostvarenih spojeva vršeno je površinskim 
metodama i zapreminskim metodama bez razaranja i sa razaranjem. Primenjene su sledeće tehnike 
bez razaranja: vizuelna metoda, ispitivanje tečnim penetrantima, radiografija i ultrazvučno 
ispitivanje. Kako bi se rezultati nedestruktivnih tehnika potvrdili, izvšena je i mikrostrukturna 
analiza poprečnog preseka zavarenog spoja. Primena tehnika ispitivanja bez razaranja u 
ispitivanju kvaliteta eksplozivno zavarenih spojeva doprinosi smanjenju troškova kada se vrše 
destruktivna ispitivanja. Ovim tehnikama može pratiti uspešnost samog procesa i na taj način 
poboljšati tehnološki proces izrade bimetalnih spojeva eksplozivnim zavarivanjem.",
publisher = "Union of Mechanical and  Electrotechnical Engineers and  Technicians of Serbia (SMEITS)",
journal = "Proceedings - 11th International Conference  on Renewable Electrical Power Sources, Belgrade, November 2 and 3, 2023, Chamber of Commerce and Industry of Serbia",
title = "Testing the quality of explosively welded joints of dissimilar metals potentially applicable in renewable energy sources",
pages = "23-34",
url = "https://hdl.handle.net/21.15107/rcub_cer_6861"
}

Alil, A., Lazarević, M., Bajić, D., Nada, I., Kovačević, T. M.,& Nedić, B.. (2023). Testing the quality of explosively welded joints of dissimilar metals potentially applicable in renewable energy sources. in Proceedings - 11th International Conference  on Renewable Electrical Power Sources, Belgrade, November 2 and 3, 2023, Chamber of Commerce and Industry of Serbia
Union of Mechanical and  Electrotechnical Engineers and  Technicians of Serbia (SMEITS)., 23-34.
https://hdl.handle.net/21.15107/rcub_cer_6861

Alil A, Lazarević M, Bajić D, Nada I, Kovačević TM, Nedić B. Testing the quality of explosively welded joints of dissimilar metals potentially applicable in renewable energy sources. in Proceedings - 11th International Conference  on Renewable Electrical Power Sources, Belgrade, November 2 and 3, 2023, Chamber of Commerce and Industry of Serbia. 2023;:23-34.
https://hdl.handle.net/21.15107/rcub_cer_6861 .

Alil, Ana, Lazarević, Miloš, Bajić, Danica, Nada, Ilić, Kovačević, Tihomir M., Nedić, Bogdan, "Testing the quality of explosively welded joints of dissimilar metals potentially applicable in renewable energy sources" in Proceedings - 11th International Conference  on Renewable Electrical Power Sources, Belgrade, November 2 and 3, 2023, Chamber of Commerce and Industry of Serbia (2023):23-34,
https://hdl.handle.net/21.15107/rcub_cer_6861 .