Magnetic Force Microscopy Application in Steel Structure and Milling Process Parameters Evaluation
Само за регистроване кориснике
2009
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
Application of scanning probe microscopy techniques in evaluating process quality is presented. We conducted a surface characterization and comparison of topographical and magnetic features for three steel plate samples that were processed with the same milling parameters. The topographical features have presented an interesting discourse with magnetic features leading us to propose the magnetic fingerprint of matter on the nanometer level as a possible guideline in early crack detection and process parameter optimization.
Кључне речи:
Process parameters / Magnetic force microscopy (MFM) / End milling / Crack initiation / Atomic force microscopy (AFM)Извор:
Materials and Manufacturing Processes, 2009, 24, 10-11, 1168-1172Издавач:
- Taylor & Francis Inc, Philadelphia
Финансирање / пројекти:
- Развој метода и техника за карактеризацију биоматеријала, биомолекула и ткива помоћу Наноскопа и биоимпенданце (RS-MESTD-MPN2006-2010-19056)
- Истраживање метода и приступа повећању радног века и поузданости машинских система (RS-MESTD-MPN2006-2010-14033)
DOI: 10.1080/10426910903031800
ISSN: 1042-6914
WoS: 000274699700022
Scopus: 2-s2.0-77949556399
Колекције
Институција/група
Mašinski fakultetTY - JOUR AU - Kojić, Dušan AU - Mitrović, Radivoje AU - Matija, Lidija AU - Koruga, Đuro PY - 2009 UR - https://machinery.mas.bg.ac.rs/handle/123456789/961 AB - Application of scanning probe microscopy techniques in evaluating process quality is presented. We conducted a surface characterization and comparison of topographical and magnetic features for three steel plate samples that were processed with the same milling parameters. The topographical features have presented an interesting discourse with magnetic features leading us to propose the magnetic fingerprint of matter on the nanometer level as a possible guideline in early crack detection and process parameter optimization. PB - Taylor & Francis Inc, Philadelphia T2 - Materials and Manufacturing Processes T1 - Magnetic Force Microscopy Application in Steel Structure and Milling Process Parameters Evaluation EP - 1172 IS - 10-11 SP - 1168 VL - 24 DO - 10.1080/10426910903031800 ER -
@article{ author = "Kojić, Dušan and Mitrović, Radivoje and Matija, Lidija and Koruga, Đuro", year = "2009", abstract = "Application of scanning probe microscopy techniques in evaluating process quality is presented. We conducted a surface characterization and comparison of topographical and magnetic features for three steel plate samples that were processed with the same milling parameters. The topographical features have presented an interesting discourse with magnetic features leading us to propose the magnetic fingerprint of matter on the nanometer level as a possible guideline in early crack detection and process parameter optimization.", publisher = "Taylor & Francis Inc, Philadelphia", journal = "Materials and Manufacturing Processes", title = "Magnetic Force Microscopy Application in Steel Structure and Milling Process Parameters Evaluation", pages = "1172-1168", number = "10-11", volume = "24", doi = "10.1080/10426910903031800" }
Kojić, D., Mitrović, R., Matija, L.,& Koruga, Đ.. (2009). Magnetic Force Microscopy Application in Steel Structure and Milling Process Parameters Evaluation. in Materials and Manufacturing Processes Taylor & Francis Inc, Philadelphia., 24(10-11), 1168-1172. https://doi.org/10.1080/10426910903031800
Kojić D, Mitrović R, Matija L, Koruga Đ. Magnetic Force Microscopy Application in Steel Structure and Milling Process Parameters Evaluation. in Materials and Manufacturing Processes. 2009;24(10-11):1168-1172. doi:10.1080/10426910903031800 .
Kojić, Dušan, Mitrović, Radivoje, Matija, Lidija, Koruga, Đuro, "Magnetic Force Microscopy Application in Steel Structure and Milling Process Parameters Evaluation" in Materials and Manufacturing Processes, 24, no. 10-11 (2009):1168-1172, https://doi.org/10.1080/10426910903031800 . .