TY - GEN
T1 - Discharge Characteristics and Dynamic Process of Directional Spraying Binary and Ternary Alloy Coating via Electrical Explosion Method
AU - Li, Chen
AU - Feng, Juan
AU - Yuan, Wei
AU - Cao, Yuchen
AU - Han, Ruoyu
N1 - Publisher Copyright:
© 2023, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
PY - 2023
Y1 - 2023
N2 - Electrical explosion spraying, due to its high reaction temperature and intense mechanical effect, like strong shock wave and high-speed expanded explosive products, is a kind of satisfactory thermal spraying method. It had used to prepare single- or multi-element wire coating; however, the investigation of middle physical process was lacked, which was not beneficial to deeply understand the coating formation characteristics with the explosive process. In this study, a directional electrical explosion device was designed, which was available for synthesizing dense and homogeneous coating. Experiments were performed with intertwined Cu-Ni wire, and intertwined Cu-Ni-Al wire. Electrical and radiational diagnoses including current/voltage waveforms and self-emission images were used to investigate the explosive characteristics. SEM and XRD characterizations were used to study the morphology and crystallography of the produced coating. For intertwined two-wire (Cu-Ni) explosion, the parameters were measured separately to explore more details according to the corresponding dynamic high-speed images. The results indicated that the multi-wire explosion was non-synchronously with different explosive behaviors of wires; therefore, the discharge product channel showed a mixture of plasma, un-ionized metal vapor, and un-vaporized metal drops. Accordingly, the sprayed coating was composed by μm-scaled chunks or plates with some nanoparticles adhering on them.
AB - Electrical explosion spraying, due to its high reaction temperature and intense mechanical effect, like strong shock wave and high-speed expanded explosive products, is a kind of satisfactory thermal spraying method. It had used to prepare single- or multi-element wire coating; however, the investigation of middle physical process was lacked, which was not beneficial to deeply understand the coating formation characteristics with the explosive process. In this study, a directional electrical explosion device was designed, which was available for synthesizing dense and homogeneous coating. Experiments were performed with intertwined Cu-Ni wire, and intertwined Cu-Ni-Al wire. Electrical and radiational diagnoses including current/voltage waveforms and self-emission images were used to investigate the explosive characteristics. SEM and XRD characterizations were used to study the morphology and crystallography of the produced coating. For intertwined two-wire (Cu-Ni) explosion, the parameters were measured separately to explore more details according to the corresponding dynamic high-speed images. The results indicated that the multi-wire explosion was non-synchronously with different explosive behaviors of wires; therefore, the discharge product channel showed a mixture of plasma, un-ionized metal vapor, and un-vaporized metal drops. Accordingly, the sprayed coating was composed by μm-scaled chunks or plates with some nanoparticles adhering on them.
KW - Electrical explosion
KW - Explosive spraying
KW - Multi-principal-element alloy
KW - Nanoparticles and coating
UR - http://www.scopus.com/inward/record.url?scp=85161394099&partnerID=8YFLogxK
U2 - 10.1007/978-981-99-1576-7_29
DO - 10.1007/978-981-99-1576-7_29
M3 - Conference contribution
AN - SCOPUS:85161394099
SN - 9789819915750
T3 - Springer Proceedings in Physics
SP - 302
EP - 311
BT - Proceedings of the 4th International Symposium on Plasma and Energy Conversion, ISPEC 2022
A2 - Dai, Dong
A2 - Zhang, Cheng
A2 - Fang, Zhi
A2 - Lu, Xinpei
PB - Springer Science and Business Media Deutschland GmbH
T2 - 4th International Symposium on Plasma and Energy Convention, ISPEC 2022
Y2 - 14 October 2022 through 16 October 2022
ER -