Neov, D.Beskrovnyi, A.I.Abiyev, A.S.Mirzayeva, D.M.Demir, E.Valizade, A.H.Hlatshwayo, Thulani ThokozaniThabethe, Thabsile TheodoraSamedov, O.A.Mehdiyeva, R.N.Hasanov, K.Sharipov, Z.A.Doroskevich, A.S.Mamedov, F.2023-10-042023-10-042023-06-23Neov, D., Beskrovnyi, A.I., Abiyev, A.S. et al. 2023, 'Effects of helium ion irradiation on tungsten-based composites : neutron diffraction; as a real-time diffractometer', Advanced Physical Research, vol. 5, no. 2, pp. 95-102.2663-8436http://hdl.handle.net/2263/92685The weight ratio 6% was formed for this paper by B4C-2% (99.5% purity, 20 µm particle size), TiC-1% (99.5% purity, 15 µm particle size), C (99.5% purity, 21 µm particle size) and the remaining part is tungsten W (99.5% purity, 17 µm particle size) structure had been established. In order to get homogeneous sinter, it was subjected to a temperature gradient of up to 1750 °C for 2 hours with a temperature step of 5 °C per minute. In the study, neutron diffraction (ND) was performed using the timeof-flight technique (TOF) in the IBR-2M research reactor. The obtained data were refined with the FULLPROF Rietveld suite. The results convey that it is different from the results obtained by X-Ray diffraction.en© Jomard Publishing 2023. All rights are reserved. This work is licensed under a Creative Commons Attribution 4.0 International License.Tungsten compositesHelium irradiationNeutron diffractionLattice parametersArticle