Search Results

1 - 4 of 4 items :

  • Materials Sciences x
Clear All
Computer-Assisted Design of Sheet Metal Component Formed from Stainless Steel

References [1] Shafaat, M.A., Abbasi, M., Ketabchi, M. (2011): Investigation into wall wrinkling in deep drawing process of conical cups. Journal of Materials Processing Technology, 211(11), pp. 1783-1795, doi: 10.1016/j.jmatprotec.2011.05.026. [2] Neto, D.M., Oliveira, M.C., Santos, A.D., Alves, J.L., Menezes, L.F. (2017): Influence of boundary conditions on the prediction of springback and wrinkling in sheet metal forming. International Journal of Mechanical Sciences, 122, pp. 244-254. [3] Nan, L., He, Y

Open access
Obtaining a new kind of organic fertilizer on the basis of low-grade phosphorite of Central Kyzylkum

.E., Zhiltsova, D.F., Nikondrov, I.S. (1970): Method for purification of natural phosphorus-containing raw materials from impurities of magnesium compounds. The patent of the USSR Cl. From 05 to 9/00.-No. 283243.- Published on 18.12.70. [13] Wengeler, W., Volstein, F., Hoffmann, E. (1977): Preparation of phosphate ores (for processing). The patent of Germany Cl. C 01 to 25/22.-No. 2531519.-Published on -20.01.77. [14] Petersen A.W. (1973): Process of processing phosphate ore. US Patent. Cl. 423-320, С 01 в 25/16.-No. 3717702.-pub.20

Open access
Environmental life cycle assessment of railway bridge materials using UHPFRC

. 895–902. [9] Denarié, E. & Brühwiler, E. (2006a): Structural rehabilitations with Ultra High Performance Fibre Reinforced Concretes, International Journal for Restoration of Buildings and Monuments , Aedificatio; 12(5 and 6), 453–467. [10] Denarié et al. (2006b): Full scale application of UHPFRC for the rehabilitation of bridges – from the lab to the field, Deliverable SAMARIS D22 http://samaris.zag.si/ . [11] Denarié et al. (2006c): Guidance for the use of UHPFRC for rehabilitation of concrete highway structures, Deliverable SAMARIS D25b

Open access
Geochemical assessment of claystone deposits from the Patti Formation, Southern Bida Basin, Nigeria

Press Balkema,13, pp. 71–197. [26] Fagbohun, B.J., Adeoti, B., Aladejana, O.O. (2017): Litho-structural analysis of eastern part of Ilesha schist belt, Southwestern Nigeria. Journal of African Earth Sciences , 133 p. Available on: < http://doi.org/10.1016/j.jafrearsci.2017.05.017 >. [27] Nton, M.E. (1999): Sedimentology and depositional environment of Awi Formation, Calabar Flank, southeastern Nigeria. Journal of Mining and Geology , 35(1), pp. 23–36. [28] David, J.W., Roger, M.S. (1977): Late Quarternary and clay-minerals distribution on the

Open access