[1] N. A. Kudryashov. Seven common errors in finding exact solutions of nonlinear differential equations. Communications in Nonlinear Science and Numerical Simulation , 14(9-10):3507-3529, 2009.
[2] N. A. Kudryashov. On “new travelling wave solutions” of the KdV and the KdV–Burgers equations. Communications in Nonlinear Science and Numerical Simulation , 14(5):1891-1900, 2009.
[3] N. A. Kudryashov, N. B. Loginova. Be careful with the Exp-function method. Communications in Nonlinear Science and Numerical Simulation , 14(5):1881-1891, 2009.
[4] N. A. Kudryashov, M. V. Demina. Traveling wave solutions of the generalized nonlinear evolution equations. Applied Mathematics and Computation , 210(2):551-557, 2009.
[5] N. A. Kudryashov. Comment on: “A novel approach for solving the Fisher equation using Exp-function method” [Phys. Lett. A 372 (2008) 3836]. Physics Letters A , 373(12-13):1196-1197, 2009.
[6] N. A. Kudryashov. Special polynomials associated with rational solutions of some hierarchies. Chaos, Solitons & Fractals , 14(3):1447-11462, 2009.
[7] N. A. Kudryashov,M. B. Soukharev Popular ansatz methods and solitary wave solutions of the Kuramoto-Sivashinsky Equation. Regular and Chotic Dynamics , 14(3):408-420, 2009.
[8] Н. А. Кудряшов,Н. А. Тетерев. Численное моделирование распространения уединенной волны давления в жидкости, содержащей пузырьковую область. Матем. моделирование , 21(3):3-17, 2009.
[9] N. A. Kudryashov, N. B. Loginova. Extended simplest equation method for nonlinear differential equations. Applied Mathematics and Computation , 205(1):396-402, 2008.
[10] N. A. Kudryashov, M. V. Demina. The generalized Yablonskii–Vorob'ev polynomials and their properties. Physics Letters A , 372(29):4885-4890, 2008.
[11] N. A. Kudryashov. Special polynomials associated with some hierarchies. Physics Letters A , 372(12):1945-1956, 2008.
[12] N. A. Kudryashov. Solitary and periodical solutions of the generalized Kuramoto – Sivashinsky equation. Regular and Chaotic Dynamics , 13(3):234-269, 2008.
[13] I. L. Chernyavsky,N. A. Kudryashov. A Mathematical model for autoregulation of the arterial lumen by endothelium—derived relaxing factor. Advanced Science Letters A , 1(2):1-5, 2008.
[14] N. A. Kudryashov,I. L. Chernyavsky. Numerical simulation of the process of autoregulation of the arterial blood flow. Fluid Dynamics , 1:32-48, 2008.
[15] Н. А. Кудряшов,В. Минаев. Влияние дисперсных частиц при всплывании термика. Математическое моделирование , 20(3):48-58, 2008.
[16] N. A. Kudryashov, D. I. Sinelschikov, I. L. Chernyavsky. Nonlinear Evolution Equations for Description of Perturbation in Tube. J. Nonlin. Dyn. , 4(3):69-86, 2008(in russian).
[17] M. V. Demina, N. A. Kudryashov, D. I. Sinelschikov. The polygonal method for constructing exact solutions to certain nonlinear differential equations describing water waves . Computational Mathematics and Mathematical Physics , 48(12):2182-2193, 2008.
[18] N. A. Kudryashov, N. A. Teterev. Numerical modelling of nonlinear waves process in a liquid with bubble channel . Nonlinear world , No. 5-6:2008.
[19] M. V. Demina, N. A. Kudryashov. Special polynomials and rational solutions of the hierarchy of the second Painleve equation. Theoretical and Mathematical Physics (Historical Archive), 153(1):1398-1406, 2007.
[20] N. A. Kudryashov, M. V. Demina. Relations between zeros of special polynomials associated with the Painleve equations. Physics Letters, Section A: General, Atomic and Solid State Physics (Historical Archive), 368(3-4):227-234, 2007.
[21] N. A. Kudryashov, M. V. Demina. Polygons of differential equations for finding exact solutions. Chaos, Solitons and Fractals (Historical Archive), 33(5):1480-1496, 2007.
[22] N. A. Kudryashov, A. V. Migita. Periodic structures developing with account for dispersion in a turbulence model. Fluid Dynamics (Historical Archive), 42(3):463-471, 2007.
[23] N. A. Kudryashov, M. V. Demina. Special polynomials associated with the fourth order analogue to the Painleve equations. Physics Letters, Section A: General, Atomic and Solid State Physics (Historical Archive), 363(5-6):346-355, 2007.
[24] O. Yu. Efimova, N. A. Kudryashov. Power expansions for the self-similar solutions of the modified Sawada-Kotera equation. Regular and Chaotic Dynamics (Historical Archive), 12(2):198-218, 2007.
[25] M. V. Demina, N. A. Kudryashov. Power and non-power expansions of the solutions for the fourth-order analogue to the second Painleve equation . Chaos, Solitons and Fractals (Historical Archive), 32(1):124-144, 2007.
[26] M. V. Demina, N. A. Kudryashov. The Yablonskii-Vorob'ev polynomials for the second Painleve hierarchy. Chaos, Solitons and Fractals (Historical Archive), 32(2):526-537, 2007.
[27] N. A. Kudryashov, M. A. Chmykhov. Approximate solutions to one-dimensional nonlinear heat conduction problems with a given flux. Computational Mathematics and Mathematical Physics (Historical Archive), 47(1):107-117, 2007.
[28] Н. А. Кудряшов, М. А. Чмыхов. Приближенные решения первой и второй краевых задач нелинейной теплопроводности на полубесконечной прямой. Инженерная физика , (3):12-15, 2007.
[29] Maria V. Demina and Nikolai A. Kudryashov. Power and non-power expansions of the solutions for the fourth-order analogue to the second painleve equation. Chaos, Solitons & Fractals, In Press, Corrected Proof:-, :.
[30] Nikolai A. Kudryashov and Maria V. Demina. Polygons of differential equations for finding exact solutions. Chaos, Solitons & Fractals, In Press, Corrected Proof:-, :.
[31] N. A. Kudryashov and I. L. Chernyavskii. Nonlinear waves in fluid flow through a viscoelastic tube. Fluid Dynamics, 41(1):49-62, January 2006.
[32] Nikolai A. Kudryashov and Olga Yu. Efimova. Power expansions for solution of the fourth-order analog to the first painleve equation. Chaos, Solitons & Fractals, 30(1):110-124, October 2006.
[33] V. Turutina, A. Laskin, N. Kudryashov, K. Skryabin, and E. Korotkov. Identification of latent periodicity in amino acid sequences of protein families. Biochemistry (Moscow), 71(1):18-31, January 2006.
[34] N.A. Kudryashov. First integrals of the equations of non-linear wave dynamics. Journal of Applied Mathematics and Mechanics, 69(2):205-212, 2005.
[35] Nikolai A. Kudryashov. Simplest equation method to look for exact solutions of nonlinear differential equations. Chaos, Solitons & Fractals, 24(5):1217-1231, June 2005.
[36] Nikolai A. Kudryashov. Exact solitary waves of the fisher equation. Physics Letters A, 342(1-2):99-106, July 2005.
[37] Nikolai A. Kudryashov. Fuchs indices and the first integrals of nonlinear differential equations. Chaos, Solitons & Fractals, 26(2):591-603, October 2005.
[38] A. A. Laskin, N. A. Kudryashov, K. G. Skryabin, and E. V. Korotkov. Latent periodicity of serine/threonine and tyrosine protein kinases and other protein families. Molecular Biology, 39(3):372-386, May 2005.
[39] Andrew A. Laskin, Nikolay A. Kudryashov, Konstantin G. Skryabin, and Eugene V. Korotkov. Latent periodicity of serine-threonine and tyrosine protein kinases and other protein families. Computational Biology and Chemistry, 29(3):229-243, June 2005.
[40] N. A. Kudryashov, G. S. Romanov, and M. A. Chmykhov. Numerical simulation of the propagation of a solitary wave over underwater barriers. Journal of Engineering Physics and Thermophysics, 77(4):848-856, July 2004.
[41] O.Yu. Yefimova and N.A. Kudryashov. Exact solutions of the burgers-huxley equation. Journal of Applied Mathematics and Mechanics, 68(3):413-420, 2004.
[42] E. V. Korotkov, M. A. Korotkova, F. E. Frenkel, and N. A. Kudryashov. The informational concept of searching for periodicity in symbol sequences. Molecular Biology, 37(3):372-386, May 2003.
[43] E. V. Korotkov, M. A. Korotkova, and N. A. Kudryashov. Information decomposition method to analyze symbolical sequences. Physics Letters A, 312(3-4):198-210, June 2003.
[44] N. A. Kudryashov. Amalgamations of the painleve equations. Theoretical and Mathematical Physics, 137(3):1703-1715, December 2003.
[45] N. A. Kudryashov. On the fourth painleve hierarchy. Theoretical and Mathematical Physics, 134(1):86-93, January 2003.
[46] N. A. Kudryashov, G. S. Romanov, and A. F. Shevyakov. Numerical modeling of the quasistationary regime of eruption of a volcano at the initial stage. Journal of Engineering Physics and Thermophysics, 76(4):795-803, July 2003.
[47] A. A. Laskin, E. V. Korotkov, M. B. Chaley, and N. A. Kudryashov. The locally optimal method of cyclic alignment to reveal latent periodicities in genetic texts: the nad-binding protein sites. Molecular Biology, 37(4):561-570, July 2003.
[48] N. A. Kudryashov, G. S. Romanov, and A. F. Shevyakov. Numerical simulation of explosive volcanic eruption in the initial stage. Journal of Engineering Physics and Thermophysics, 75(3):521-528, May 2002.
[49] Nikolai A. Kudryashov. Fourth-order analogies to the painleve equations. Journal of Physics A: Mathematical and General, 35(21):4617-4632, 2002.
[50] Nikolai A. Kudryashov. One generalization of the second painlevé hierarchy. Journal of Physics A: Mathematical and General, 35(1):93-99, 2002.
[51] N. A. Kudryashov and M. B. Sukharev. Exact solutions of a non-linear fifth-order equation for describing waves on water. Journal of Applied Mathematics and Mechanics, 65(5):855-865, 2001.
[52] Nikolai A. Kudryashov. Double backlund transformations and special integrals for the kii hierarchy. Physics Letters A, 273(3):194-202, August 2000.
[53] N. A. Kudryashov and S. N. Kolobanov. Numerical modeling of the distribution of radionuclides in porous media for strong damage to underground nuclear power station. International Journal of Heat and Mass Transfer, 42(19):3695-3705, October 1999.
[54] Nicolai A. Kudryashov. Two hierarchies of ordinary differential equations and their properties. Physics Letters A, 252(3-4):173-179, February 1999.
[55] Nicolai A. Kudryashov. Transcendents defined by nonlinear fourth-order ordinary differential equations. Journal of Physics A: Mathematical and General, 32(6):999-1013, 1999.
[56] Nicolai A. Kudryashov. On new transcendents defined by nonlinear ordinary differential equations. Journal of Physics A: Mathematical and General, 31(6):L129-L137, 1998.
[57] Nicolai A. Kudryashov and Andrew Pickering. Rational solutions for schwarzian integrable hierarchies. Journal of Physics A: Mathematical and General, 31(47):9505-9518, 1998.
[58] Nicolai A. Kudryashov and Mikhail B. Soukharev. Uniformization and transcendence of solutions for the first and second painleve hierarchies. Physics Letters A, 237(4-5):206-216, January 1998.
[59] Nicolai A. Kudryashov. The second painleve equation as a model for the electric field in a semiconductor. Physics Letters A, 233(4-6):397-400, September 1997.
[60] Nicolai A. Kudryashov. The first and second painleve equations of higher order and some relations between them. Physics Letters A, 224(6):353-360, January 1997.
[61] Nicolai A. Kudryashov. Method for deriving rational solutions of some nonlinear evolution equations. Journal of Physics A: Mathematical and General, 30(15):5445-5453, 1997.
[62] Nicolai A. Kudryashov and Evgenia D. Zargaryan. Solitary waves in active-dissipative dispersive media. Journal of Physics A: Mathematical and General, 29(24):8067-8077, 1996.
[63] N. A. Kudryashov. From singular manifold equations to integrable evolution equations. Journal of Physics A: Mathematical and General, 27(7):2457-2470, 1994.
[64] N. A. Kudryashov and V. A. Nikitin. Painleve analysis, rational and special solutions of variable coefficient korteweg-de vries equations. Journal of Physics A: Mathematical and General, 27(4):L101-L106, 1994.
[65] A. G. Bondarenko, N. A. Kudryashov, and M. N. Kul’zhik. Mathematical modeling of compression wave formation in the interaction of melted fuel and coolant. Atomic Energy (Historical Archive), 75(3):678-682, September 1993.
[66] N. A. Kudryashov and I. E. Serebryakova. Mathematical modeling of the migration of long-lived radionuclides in soil as a result of radioactive fallout. Atomic Energy (Historical Archive), 74(3):225-228, March 1993.
[67] N. A. Kudryashov and A. A. Tutnov. Explosion in an inhomogeneous atmosphere with allowance for condensation of evaporated matter. Fluid Dynamics (Historical Archive), 28(3):415-421, May 1993.
[68] Nick A. Kudryashov. Singular manifold equations and exact solutions for some nonlinear partial differential equations. Physics Letters A, 182(4-6):356-362, November 1993.
[69] Nick A. Kudryashov. Truncated expansions and nonlinear integrable partial differential equations. Physics Letters A, 178(1-2):99-104, July 1993.
[70] A. A. Alexeyev and N. A. Kudryashov. The wahlquist-estabrook method for evolution equations with a small parameter: a technique of approximating pseudopotentials. Journal of Physics A: Mathematical and General, 25(3):L95-L99, 1992.
[71] S. S. Kucherenko and N. A. Kudryashov. Photoelectric characteristics of a semiconductor diode with an abrupt junction at high photoexcitation levels. Solid-State Electronics, 35(7):993-997, July 1992.
[72] N. A. Kudryashov and An. A. Tutnov. Modeling unsteady vapor condensation by rapid expansion. Fluid Dynamics (Historical Archive), 27(3):363-367, May 1992.
[73] Nick A. Kudryashov. Partial differential equations with solutions having movable first-order singularities. Physics Letters A, 169(4):237-242, September 1992.
[74] A. A. Alexeyev and N. A. Kudryashov. Non-abelian pseudopotentials and conservation laws of reaction-diffusion equations. Journal of Physics A: Mathematical and General, 24(6):L255-L260, 1991.
[75] V. A. Arutyunov, N. A. Kudryashov, O. A. Mishin, V. M. Samsonov, and M. N. Strikhanov. Radiative polarization of relativistic lepton beams in a bent crystal. Physics Letters A, 152(1-2):122-124, January 1991.
[76] V. A. Arutyunov, N. A. Kudryashov, V. M. Samsonov, and M. N. Strikhanov. Channeling radiation in a bent crystal. Physics Letters A, 152(9):481-484, February 1991.
[77] V.A. Arutyunov, N.A. Kudryashov, V.M. Samconov, and M.N. Strikhanov. Radiation of ultrarelativistic charged particles in a bent crystal. Nuclear Physics B, 363(2-3):283-300, October 1991.
[78] A. G. Bondarenko and N. A. Kudryashov. Anomalous sound and low-frequency instability in an incompressible viscous liquid with bubbles of soluble gas. Fluid Dynamics (Historical Archive), 26(5):745-752, September 1991.
[79] N. A. Kudryashov. On types of nonlinear nonintegrable equations with exact solutions. Physics Letters A, 155(4-5):269-275, May 1991.
[80] V. A. Arutiunov, N. A. Kudriashov, M. N. Strikhanov, and V. M. Samsonov. Synchrotron and undulatory emission of fast charged particles in a curved crystal. Zhurnal Tekhnicheskoi Fiziki, 61:1-5, March 1991. (In Russian).
[81] O. A. Glazov and N. A. Kudriashov. Interaction of two coaxial thermals ascending in the earth atmosphere. Akademiia Nauk SSSR Fizika Atmosfery i Okeana, 27:1276-1278, November 1991. (In Russian).
[82] A. A. Alekseev and N. A. Kudryashov. Properties of nonlinear waves in dissipative-dispersive media with instability. Fluid Dynamics (Historical Archive), 25(4):604-610, July 1990.
[83] V. A. Arutyunov, N. A. Kudryashov, O. A. Mishin, V. M. Samsonov, and M. N. Strikhanov. Radiative polarization effects for relativistic beams in bent crystals. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 52(1):13-18, November 1990.
[84] N. A. Kudryashov. Exact solutions of the generalized kuramoto-sivashinsky equation. Physics Letters A, 147(5-6):287-291, July 1990.
[85] N. A. Kudryashov. Exact solutions of the non-linear wave equations arising in mechanics. Journal of Applied Mathematics and Mechanics, 54(3):372-375, 1990.
[86] N. A. Kudryashov, S. S. Kucherenko, E. A. Mazur, A. N. Petrovskii, and M. P. Yakovlev. Dynamics of light-induced diffraction gratings in silicon excited by picosecond pulses. Russian Physics Journal (Historical Archive), 33(3):246-250, March 1990.
[87] A. G. Bondarenko and N. A. Kudryashov. Nonlinear waves in a liquid containing gas bubbles with allowance for phase transition. Fluid Dynamics (Historical Archive), 24(3):421-426, May 1989.
[88] Yu. N. Gordeev and N. A. Kudryashov. Solitary waves in dissipative-dispersive systems with instability. Fluid Dynamics (Historical Archive), 24(2):246-251, March 1989.
[89] Yu. N. Gordeev, N. A. Kudryashov, and V. V. Murzenko. Autowave flows of weakly conducting gas in rough channels in the presence of strong electromagnetic fields. Fluid Dynamics (Historical Archive), 24(1):127-133, January 1989.
[90] N. A. Kudryashov, V. A. Arutyunov, M. N. Strikhanov, and S. A. Vorobyov. Energy loss distribution for swift positively charged particles in an oriented single crystal. Nuclear Physics B, 324(2):277-295, September 1989.
[91] N. A. Kudryashov and V. V. Murzenko. Explosion in a highly porous medium. Combustion, Explosion, and Shock Waves (Historical Archive), 25(3):346-351, May 1989.
[92] Yu. N. Gordeyev and N. A. Kudryashov. Dynamics of normal separation crack growth during its cleavage by a flow gas. Journal of Applied Mathematics and Mechanics, 52(2):244-249, 1988.
[93] N. A. Kudryashov. Exact soliton solutions of the generalized evolution equation of wave dynamics. Journal of Applied Mathematics and Mechanics, 52(3):361-365, 1988.
[94] N. A. Kudryashov. Scale factor in the discharge of detonation products from an underground cavity. Combustion, Explosion, and Shock Waves (Historical Archive), 24(3):371-373, May 1988.
[95] Yu. I. Gordeev, N. A. Kudryashov, and V. V. Murzenko. Flow regimes with temperature extrema is the motion of a gas through a porous medium. Fluid Dynamics (Historical Archive), 22(4):553-559, July 1987.
[96] N. A. Kudryashov and V. V. Murzenko. Dynamics of gas leakage accompanying the expansion of a cavity in a brittle dilating medium. Combustion, Explosion, and Shock Waves (Historical Archive), 23(4):503-509, July 1987.
[97] Yu. N. Gordeev and N. A. Kudryashov. Growth of a main crack under the influence of gas moving inside it. Journal of Applied Mechanics and Technical Physics (Historical Archive), 27(4):588-595, July 1986.
[98] N. A. Kudryashov, S. S. Kucherenko, and A. I. Poberezhnyi. Numerical solution of the propagation of cylindrical shock waves in a magnetic field. Journal of Applied Mechanics and Technical Physics (Historical Archive), 27(6):879-883, November 1986.
[99] N. A. Kudriashov, S. V. Petrovskii, and M. N. Strikhanov. Spatial capture of a wide beam of fast charged particles in a curved crystal. Pis’ma Zhurnal Tekhnischeskoi Fiziki, 12:1515-1522, December 1986. (In Russian).
[100] Yu. N. Gordeev, V. M. Kolobashkin, and N. A. Kudryashov. Numerical study of the effect of inertia terms in the equation of motion on gas flow in porous media. Fluid Dynamics (Historical Archive), 20(1):161-164, January 1985.
[101] Yu. N. Gordeev and N. A. Kudryashov. Green’s-function method for solving problems of nonequilibrium adsorption and convective diffusion of impurity in a medium. Journal of Engineering Physics and Thermophysics (Historical Archive), 48(3):335-340, March 1985.
[102] Yu. N. Gordeyev, N. A. Kudryashov, and V. V. Murzenko. Shock waves in an isothermal gas in the presence of reaction forces. Journal of Applied Mathematics and Mechanics, 49(1):CO3-CO3, 1985.
[103] V. M. Kolobashkin, N. A. Kudryashov, and V. V. Murzenko. Filtration of gases in an elastically deformable porous medium at the stage of dynamic expansion of a cavity. Combustion, Explosion, and Shock Waves (Historical Archive), 21(6):767-773, November 1985.
[104] V. M. Kolobashkin, N. A. Kudryashov, and V. V. Murzenko. Analytical solutions of one-dimensional problems of gas flow for quadratic resistance law. Fluid Dynamics (Historical Archive), 20(2):229-232, March 1985.
[105] N. A. Kudriashov and S. S. Kucherenko. A self-similar solution to a problem concerning the motion of an isothermal conducting gas in a strong magnetic field. Magnitnaia Gidrodinamika, 3:95-99, September 1985. (In Russian).
[106] N. A. Kudryashov and V. M. Prostokishin. Effect of viscosity and heat conduction on the ascent of a thermal under the influence of buoyancy. Journal of Applied Mechanics and Technical Physics (Historical Archive), 26(3):370-373, May 1985.
[107] Yu. N. Gordeev, N. A. Kudryashov, and V. V. Murzenko. Self-similar solutions of one-dimensional gas-motion problems in a porous medium with a two-term drag law. Journal of Engineering Physics and Thermophysics (Historical Archive), 47(5):1360-1365, November 1984.
[108] E. G. Basanskii, N. A. Kudryashov, A. L. Moiseev, and V. I. Nekrasov. Dynamics of heat exchange for gases in an underground cavity. Combustion, Explosion, and Shock Waves (Historical Archive), 19(1):128-133, January 1983.
[109] V. M. Kolobashkin, N. A. Kudryashov, and V. V. Murzenko. Numerical solutions of one-dimensional self-similar problems of gas motion in a porous medium for a quadratic drag law. Journal of Engineering Physics and Thermophysics (Historical Archive), 45(4):1155-1159, October 1983.
[110] N. A. Kudryashov. Ionizing shock-wave propagation in a homogeneous magnetic field. Journal of Applied Mechanics and Technical Physics (Historical Archive), 24(3):287-291, May 1983.
[111] N. A. Kudryashov. Similar solution of the problem of gas motion in a porous medium taking heat exchange into account. Journal of Engineering Physics and Thermophysics (Historical Archive), 44(4):435-437, April 1983.
[112] E. G. Basanskii, V. M. Kolobashkin, and N. A. Kudryashov. Calculation of two-dimensional dispersion in a gas in unsteady flow in a porous medium. Fluid Dynamics (Historical Archive), 17(5):704-710, September 1982.
[113] N. A. Kudryashov and V. V. Murzenko. Self-similar solution to a problem of axisymmetric motion of gas through a porous medium in the case of a quadratic law of resistance. Fluid Dynamics (Historical Archive), 17(4):631-634, July 1982.
[114] A. G. Bondarenko, V. M. Kolobashkin, and N. A. Kudriashov. Self-similar solution of the problem of gas flow through a porous medium under the conditions of turbulent filtration. Journal of Applied Mathematics and Mechanics, 44(3):403-406, 1980.
[115] V. A. Egorov, V. M. Kolobashkin, and N. A. Kudryashov. Gas temperature and pressure in the cavity of an underground explosion. Combustion, Explosion, and Shock Waves (Historical Archive), 15(5):654-659, September 1980.
[116] N. B. Zyabrev, N. A. Kudryashov, and A. V. Kadushkin. Determination of the initial impurity content for a gas moving in a porous sorbent. Journal of Engineering Physics and Thermophysics (Historical Archive), 36(5):568-572, May 1979.
[117] V. Ya. Arsenin, N. B. Zyabrev, and N. A. Kudryashov. Inverse problem of the convective diffusion and adsorption of radioactive gas in a porous medium. Fluid Dynamics (Historical Archive), 13(3):386-393, May 1978.
[118] N. A. Kudryashov, E. G. Basanskii, and A. G. Bondarenko. Effect of diffusion and sorption on radioactive-gas distribution in a porous medium. Journal of Engineering Physics and Thermophysics (Historical Archive), 34(1):88-91, January 1978.
[119] A. G. Bondarenko, V. M. Kolobashkin, and N. A. Kudryashov. Radionucleid propagation in a porous medium with allowance made for sorption and diffusion. Journal of Engineering Physics and Thermophysics (Historical Archive), 31(6):1474-1477, December 1976.