Search Results

You are looking at 1 - 10 of 48 items for :

  • Cast Magnesium Alloys x
  • Engineering, other x
Clear All
Open access

M. Kawalec

References [1] Fraś, E. & Guzik, E. (1980). Primary microstructure of the Fe-C-V alloys. Archivess of Metallurgy . 25 (4), 757-772. [2] Fraś, E. (2003). Crystallization of metals . Warsaw: WNT. [3] Kopyciński, D. & Piasny, S. (2012). Influence of tungsten and titanium on the structure of chromium cast iron. Archives of Foundry Engineering . 12(1), 57-60. [4] Kawalec, M. & Fraś, E. (2008). Structure, Mechanical Properties and Wear Resistance of Highvanadium Cast Iron. ISIJ

Open access

K.N. Braszczyńska-Malik and E. Przełożyńska

.F., Li, B., Wang, X.H., Su, W. & Han, H. (2009). Refinement effect of cerium, calcium and strontium in AZ91 magnesium alloy. J. Mater. Proc. Techn. 209, 3999-4004. [5] Sumida, M. (2008). Microstructure development of sand-cast AZ-type magnesium alloys modified by simultaneous addition of calcium and neodymium. J. Alloys Compd. 460, 619-626. [6] Shepeleva, L. & Bamberger, M. (2006). Microstructure of high pressure die cast AZ91D modified with Ca and Ce. Mater. Sci. Eng. A . 425, 312-317. [7] Zhang, J., Liu, S., Leng, Z., Zhang, M., Meng, J. & Wu

Open access

K.N. Braszczyńska-Malik

References [1] Mordike, B.L. & Ebert, T. (2001). Magnesium propertiesapplications- potential. Materials Science and Engineering A . Vol. 302, 37÷45. [2] Wu, D.H. & Chang, M.S. (2004). Use of Taguchi method to develop a robust design for the magnesium alloy die casting process. Mater. Sc. Eng., A379 366-371. [3] El-Mahallawy, N.A, Taha, M.A., Pokora, E. & Klein F. (1998). On the influence of the process variables on the thermal conditions and properties of high pressure die-cast magnesium

Open access

L.A. Dobrzański and M. Król

References [1] Guangyin, Y., Manping, L., Wenjiang, D. & Inoue, A. (2003). Mechanical properties and microstructure of Mg-Al- Zn-Si-base alloy. Materials Transactions. 44(4), 458-462. [2] Watanabe, H., Mukai, T., Kamado, S., Kojima, Y. & Higashi, K. (2003). Mechanical properties of Mg-Y-Zn alloy processed by equal-channel-angular extrusion. Materials Transactions. 44(4), 463-467. [3] Mordike, B. L. (2002). Development of highly creep resistant magnesium alloys. Mater. Sci. Eng. A324, 103

Open access

B. Dybowski, A. Kiełbus and R. Jarosz

of heat treatment on susceptibility to hot cracking of magnesium aloy ENMCMgRE3Zn2Zr. Archives of Metallurgy and Materials. 55(1), 69-78. [4] Mola, R. (2013). Fabrication and microstructure of layers containing intermetallic phases on magnesium. Archives of Foundry Engineering . 13(1), 99-102. DOI: 10.2478/afe-2013-0019. [5] Rzychoń, T., Szala, J. & Kiełbus A. (2012). Microstructure, castability, microstructural stability and mechanical properties of ZRE1 magnesium alloy. Archives of Metallurgy and Materials . 57(1), 245-252, DOI

Open access

R. Mola, T. Bucki and A. Dziadoń

References [1] Zhang, H.T. & Song, J.Q. (2011). Microstructure evolution of aluminum/magnesium lap joints welded using MIG process with zinc foil as interlayer. Mater. Lett. 65, 3292-3294. [2] Borrisutthekul, R., Miyashita, Y. & Mutoh, Y. (2005). Dissimilar material laser welding between magnesium alloy AZ31B and aluminum alloy A5052-O. Sci. Tech. Adv. Mater. 6(2), 199-204 [3] Morishige, T., Kawaguchi, A., Tsujikawa, M., Hino, M., Hirata, T. & Higashi, K. (2008). Dissimilar welding of Al and Mg alloys by FSW

Open access

M. Kawalec and M. Górny

References [1] Fraś, E. & Guzik, E. (1980). Primary microstructure of the Fe-C-V alloys. Archives of Metallurgy . 25 (4), 757-772. [2] Fraś, E. (2003). Crystallization of metals . Warsaw: WNT. (in Polish). [3] Kopyciński, D. & Piasny, S. (2012). Influence of tungsten and titanium on the structure of chromium cast iron. Archivesof Foundry Engineering . 12 (1), 57-60. [4] Kawalec, M. & Fraś, E. (2008). Structure, Mechanical Properties and Wear Resistance of Highvanadium Cast Iron

Open access

D. Kopyciński, E. Guzik, A. Nowak, M. Ronduda and M. Sokolnicki

References Dawson S., Hang F. (2010). Compacted graphite iron - a material solution for modern diesel engine cylinder blocks and heads. Proc. of 69 th Word Foundry Congress, Hangzhou China, 16-20 Oct. 2010, 359-364. Guzik E. (2001). Some selected problems concerning the processes of cast iron improvement. Archives of Foundry Engineering. Polish Academy of Sciences- Katowice, Monograph, No. 1M. Steller D. (2002). Das neue VDG- Merkblatt W 50 Gusseisen mit Vermiculargraphit

Open access

M. Kawalec and E. Olejnik

References Fraś E., Guzik E. (1980). Primary microstructure of the Fe-C-V alloys. Archives of Metallurgy. 25 (4), 757-772. Fraś E. (2003). Crystallization of metals. Warsaw: WNT. (in Polish). Kopyciński D., Piasny S. (2012). Influence of tungsten and titanium on the structure of chromium cast iron. Archives of Foundry Engineering. 12 (1), 57-60. Kawalec M., Fraś E. (2008). Structure, Mechanical Properties and Wear Resistance of Highvanadium Cast Iron

Open access

P. Lichý and M. Cagala

References Drapala J. et al. (2004). Magnesium, its alloys and Mg - admixture binary system. VŠB-TU Ostrava. 172. Mordike B. L. & Ebert T. (2001). Magnesium, properties - application - potential. Materials Science A. 302 , 37-45. Roskosz S., Adamiec J. & Blotnicki M. (2007). Influence of delivery state quality on microstructure and mechanical properties of as cast AZ91 Mg alloy, Archives of Foundry Engineering. 7 (1), 143-146. Bialobrzeski A., Saja K