Details

Title

Exploration and Improvement of Room Temperature Properties for Organosilicon Slag Riser

Journal title

Archives of Foundry Engineering

Yearbook

2024

Volume

vol. 24

Issue

No 2

Affiliation

Lu, Jljun : School of Mechanical Engineering and Automation, Wuhan Textile University, China ; Zhong, Zhuofan : School of Mechanical Engineering and Automation, Wuhan Textile University, China ; Yongluan Hu : Wuhan Hanyuan Technology Development Co., Ltd, China ; Wu, Di : School of Mechanical Engineering and Automation, Wuhan Textile University, China ; Wang, Huafang : School of Mechanical Engineering and Automation, Wuhan Textile University, China

Authors

Keywords

Organosilicon slag ; Resol resin ; Drying Process ; Compressive Strength ; Air permeability

Divisions of PAS

Nauki Techniczne

Coverage

35-43

Publisher

The Katowice Branch of the Polish Academy of Sciences

Bibliography

[1] Lu, J.J., Qian, J.B., Yang, L. & Wang, H.F. (2023). Preparation and performance optimization of organosilicon slag exothermic insulating riser. Archives of Foundry Engineering. 23(1),75-82. DOI: 10.24425/afe.2023.144283.
[2] Krajewski, P.K., Zovko-Brodarac, Z. & Krajewski, W.K. (2013). Heat exchange in the system mould - Riser - Ambient. Part I: Heat exchange coefficient from mould external surface. Archives of Metallurgy and Materials. 58(3), 833-835. DOI: 10.2478/amm-2013-0081.
[3] Vaskova, I., Conev, M. & Hrubovakova, M. (2017). The influence of using different types of risers or chills on shrinkage production for different wall thickness for material EN-GJS-400-18LT. Archives of Foundry Engineering. 17(2), 131–136. DOI: 10.1515/afe-2017-0064.
[4] Sowa, L., Skrzypczak, T. & Kwiatoń, P. (2022). Numerical evaluation of the impact of riser geometry on the shrinkage defects formation in the solidifying casting. Archives of Metallurgy and Materials. 67(1), 181-187. DOI: 10.24425/amm.2022.137487.
[5] Lu, J.J., He, W., Tan, S.M., Qian, J.B. & Lu, X. (2021). Chinese Patent NO. 202110970771.3. Beijing. China National Intellectual Property Administration.
[6] Wang, E.Z., He, J.Y., Shen, J. & Yan, F.Y. (1993). Permeability of washings for vacuum evapouration-pattern casting. Special Casting & Nonferrous Alloys. 6, 1-3. DOI:10.15980/j.tzzz.1993.06.001. (in Chinese).
[7] Yu, J., Wang, D.D., Mao, L., Li, C.Y., Lu, S.D., Xu, Q.B. & Wang, W.Q. (2008). Application of LYH-3 dextrin binder in exothermic and insulating riser. Foundry Technology. 7, 873-876. (in Chinese).
[8] Zhao, X., Wang, Z.X., Zhang, W.Q., et al. (2022). The Efficacy of magnetization in enhancing flocculation and sedimentation of clay particles. Journal of Irrigation and Drainage. 41(3), 114-124. DOI: 10.13522/j.cnki.ggps.2021300. (in Chinese).
[9] Cai, Y.,Shi, B.,Liu, Z.B.,Tang, C.S. & Wang, B.J. (2005). Experimental study on effect of aggregate size on strength of filled soils. Chinese Journal of Geotechnical Engineering. 12, 1482-1486. (in Chinese).
[10] Kang, M., Wu, Y.L., Wang, W.Q. & Dai, X.Q. (1998). Effects of thermo - rheologic properties of thermo-plastic phenol resin on properties of resin-coated sand. Modern Cast Iron. 2, 11-13. (in Chinese).
[11] Dai, B.Y. (1996). Research on rheological property of phenol-formaldehyde resin for hot process. China Foundry Machinery & Technology. 5, 16-19. (in Chinese).
[12] Tang, L.L., Li, N.N. & Wu, P.X. (2008). High performance phenolic resin and its application technology. Beijing: Chemical Industry Press.
[13] Tong, L.L., Zhou, J.X., Yin, Y.J. & Li, Y.C. (2020). Effects of grain size and resin content on strength of furan resin sand. Special Casting& Nonferrous Alloys. 40(2), 139-142. DOI:10.15980/j.tzzz.2020.02.005. (in Chinese).
[14] Wang, W., Li, X.H., Gao, P.H., Zeng, S.C., Chen, B.Y., Yang, Z., Guo, Y.C. & Li, J.P. (2021). Study on optimization of gas evolution in resin sand moulds. Hot Working Technology. 50(15), 48-50. DOI:10.14158/j.cnki.1001-3814.20192900. (in Chinese).
[15] Li, C.S. (2012). Influence of properties and state of raw sand on properties of self-setting resin sand. Modern Cast Iron. 32(5), 63-68. (in Chinese).
[16] Zhu, Y.L. & Cai, Z.S. (1996). Analysis of the influence of original sand particle size on the strength of resin bonded sand. Foundry. 12, 37-38. (in Chinese).
[17] You, M. & Zheng, X.L. (1999). Theoretical analysis of the influence of original sand particle size on the strength of resin bonded sand. Foundry. 2, 42-44. (in Chinese).

Date

09.05.2024

Type

Article

Identifier

DOI: 10.24425/afe.2024.149269
×