Investigations on hot tearing of Mg-Al binary alloys by using a new quantitative method
Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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Linking Science and Technology for Global Solution - Proceedings of Symposia held during TMS 2009 Annual Meeting and Exhibition. The Minerals, Metals & Materials Society, 2009. p. 105-110 (TMS Annual Meeting).
Research output: Contributions to collected editions/works › Article in conference proceedings › Research › peer-review
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TY - CHAP
T1 - Investigations on hot tearing of Mg-Al binary alloys by using a new quantitative method
AU - Zhen, Zisheng
AU - Hort, Norbert
AU - Utke, Oliver
AU - Huang, Yuanding
AU - Petri, Nikoli
AU - Ulrich Kainer, Karl
PY - 2009
Y1 - 2009
N2 - Hot tearing, also referred as hot cracking, is a commonly encountered solidification defect during castings. Although it has been extensively investigated for decades, most contributions are still based on qualitative characterizations. In this work, a quantitative method to investigate hot tearing has been developed, based on the measurement of contraction force. The advantage of the present evaluation system, which is mainly different from previous apparatus, is to eliminate the influence of friction between the mould and casting rod., The results obtained using this system demonstrate good repeatability and reliability. The measured contraction force has been proved to be able to evaluate the hot tearing susceptibility as a more straightforward and quantitative index. By analyzing the contraction force curve, both the initiation and propagation of hot tear can be detected. With this method, the hot tearing of Mg-Al binary alloys has been investigated. The results show that increasing the mould temperature decreases the hot tearing susceptibility, meanwhile increases the temperature of the hot tearing initiation. The contraction force curves also indicate that the liquid refilling plays an important role in the formation of hot tearing. With a lower cooling rate, the remained liquid possibly refills the initiated hot crack, and consequently partially or completely heals the cracks.
AB - Hot tearing, also referred as hot cracking, is a commonly encountered solidification defect during castings. Although it has been extensively investigated for decades, most contributions are still based on qualitative characterizations. In this work, a quantitative method to investigate hot tearing has been developed, based on the measurement of contraction force. The advantage of the present evaluation system, which is mainly different from previous apparatus, is to eliminate the influence of friction between the mould and casting rod., The results obtained using this system demonstrate good repeatability and reliability. The measured contraction force has been proved to be able to evaluate the hot tearing susceptibility as a more straightforward and quantitative index. By analyzing the contraction force curve, both the initiation and propagation of hot tear can be detected. With this method, the hot tearing of Mg-Al binary alloys has been investigated. The results show that increasing the mould temperature decreases the hot tearing susceptibility, meanwhile increases the temperature of the hot tearing initiation. The contraction force curves also indicate that the liquid refilling plays an important role in the formation of hot tearing. With a lower cooling rate, the remained liquid possibly refills the initiated hot crack, and consequently partially or completely heals the cracks.
KW - Castability
KW - Crack formation
KW - Hot tearing
KW - Magnesium alloys
KW - Engineering
UR - http://www.scopus.com/inward/record.url?scp=67449124368&partnerID=8YFLogxK
M3 - Article in conference proceedings
AN - SCOPUS:67449124368
SN - 9780873397353
T3 - TMS Annual Meeting
SP - 105
EP - 110
BT - Linking Science and Technology for Global Solution - Proceedings of Symposia held during TMS 2009 Annual Meeting and Exhibition
PB - The Minerals, Metals & Materials Society
T2 - Annual Meeting and Exhibition TMS 2009
Y2 - 16 February 2009 through 19 February 2009
ER -