Investigation of stress distribution in the working elements of dies by the photoelasticity method / V. P. Artyukhov, V. I. Savchenko, V. I. Elistratov, A.L. Maistrenko // Forging and stamping production, 1970, N11
Determination of the moment of cracking of the crack by the acoustic method when testing samples with a notch for off-center tension N. IN. Novikov, S. I. Likhatskyi, A. L. Maistrenko //Strength problems, 1973, N9
The influence of cryogenic temperatures on the mechanical properties of experimental alloys AMG6N /A. I. Ishchenko, M. I. Saenko, MA Yavorskaya, A. L. Maistrenko //Strength problems, 1975, N6
To voprosu precritical growth of cracks in thin plates according to the diagram of destruction / N. IN. Novikov, A. L. Maistrenko // In the book “Strength of materials and structures”, Naukova dumka, Kyiv, 1975
Experimental study of subcritical crack growth in thin plates with cracks / N.V. Novikov, A.L. Maistrenko // Strength problems, 1975, N8
Investigation of the influence of deformation speed on the process of crack development in thin sheet metal/ G. S. Pisarenko, N. IN. Novikov, A. L. Maistrenko// Strength problems, 1975, N9
Crack tip strain field of strain-hardening materials at low temperature / N.V. Novikov, A.L. Maystrenko // Advances in Cryogenic Engineering, V.22 Plenum Press, 1976, USA
Regression analysis of critical states of the destruction process / N. IN. Novikov, A. P. Ulyanenko, A. L. Maistrenko // Strength problems, 1978, N2
Experimental analysis of the critical states of crack in thin metal plates / N. V. Novikov, A. L. Maystrenko // Advances in Cryogenic Engineering, Vol. 24, 1978, Plenum Press, USA
Research on the distribution of plastic deformations at the tips of cracks by the method of dividing grids / N. IN. Novikov, T. Sh. Shagdyr, A. L. Maistrenko // Strength problems, 1979, N1
Evaluation of the bearing capacity of a low-temperature pipeline with a crack / S. I. Krasnooky, E. M. Diskin, N. AND. Kochergin, A. L. Maistrenko // Ref. collection “Design and construction of pipelines and gas and oil industrial facilities”, M., N4, 1979
Estimation of the rate of energy dissipation of plastic deformations in thin plates with a crack / N. IN. Novikov, T. Sh. Shagdyr, A. L. Maistrenko // Strength problems, 1979, N2.
Research of the stressed state of high-pressure hard-alloy cameras / A. WITH. Tsybenko, G. AND. Voronin, A. I. Borymskyi, A. L. Maistrenko and others. // Synthetic diamonds, 1979, N2.
Crack resistance of 15X2NMFA steel in the temperature range from -196 to 500 C according to test results of samples cut from the shell of a pressure vessel / V. AND. Weinstock, H. N. Nadezhdin, A. L. Maistrenko // Strength problems, 1979, N5
The influence of loading speed on the characteristics of the fracture viscosity of steels / A. IN. Prokopenko, O. I. Znachkovskyi, A. L. Maistrenko and others. // Factory laboratory, 1979, N7
Structural strength at low temperatures / N. IN. Novikov, A. P. Ulyanenko, A. L. Maistrenko // K.: Naukova dumka, 1979. — 237 p.
Investigation of the fracture viscosity of solid alloys used in a drilling tool / A. L. Maistrenko // Physical and chemical mechanics of materials, 1979, N4.
Determination of the viscosity of the destruction of superhard materials and hard alloys under dynamic loading / N. IN. Novikov, L. N. Devin, A. L. Maistrenko // Superhard materials, 1979, N3
Methodology for determining the crack resistance of superhard materials at high temperatures / A.L. Maistrenko, N. K. Konovalenko, M. D. Mytlykin // Superhard materials, 1980, N5.
Investigation of the propagation of fatigue cracks in single crystals of synthetic diamonds / N. IN. Novikov, A. L. Maistrenko, L. P. Primak, A. N. Vashchenko // Proceedings of the Academy of Sciences of the USSR, vol. 256, 1981, N5
Experimental methods of determining the crack resistance of superhard materials / A. L. Maistrenko Zavodskaya laboratory, 1981, N8
Determination of crack resistance of superhard materials based on the test of discs with cracks / N. IN. Novikov, S. I. Yarema, A. L. Maistrenko, L. N. Devin, V. N. Kulakovsky // Methods of research on the properties of superhard materials. Kyiv, 1981 Sat. ISM Academy of Sciences of the Ukrainian SSR.
The method of determining the crack resistance of superhard materials based on the testing of discs with a crack / V. N. Kulakovsky, S. I. Yarema, L. N. Devin, N. IN. Novikov, A. L. Maistrenko // Superhard materials, 1981, N4
Influence of structural factors on the crack resistance of WC-Co alloys at high temperatures / N. IN. Novikov, A. L. Maistrenko, N. K. Konovalenko, V. AND. Chistyakov, Z. M. Beitler // Superhard materials, 1981, N1
Justification of allowable deviations from the shape and loading scheme of a disk sample for determining the crack resistance of superhard materials / S. I. Yarema, G. WITH. Ivanitskaya, A. L. Maistrenko // Superhard materials, 1982, N1
Methodology for determining the strength and crack resistance of polycrystalline superhard materials / N. IN. Novikov, A. L. Maistrenko, I. M. Androsov // Superhard materials, 1982, N2
Fatigue destruction of solid alloys / G. Gille, H. I. Clauss, A. L. Maistrenko // Superhard materials, 1982, N4
To assess the strength of composite diamond contents bitter materials / A. L. Maistrenko, B. P. Maslov, V. IN. Drobyazko, N. IN. Tsypin // Superhard materials, 1982, N5
Composite diamond-containing materials on the basis of solid alloys / N. IN. Novikov, N. IN. Tsypin, I. F. Vovchanovsky, A. L. Maistrenko // Superhard materials, 1983, N2
Crack resistance of composite materials based on solid alloys / A. L. Maistrenko, L. N. Devin, E. WITH. Simkin, S. I. Sklyar, N. IN. Tsypin // Powder metallurgy, 1982, N5 C.88-92
Matrix materials based on hot-pressed tungsten hard alloys / N. IN. Tsypin, E. WITH. Simkin, T. THERE ARE. Patrakh, E. A. Pugach, A. L. Maistrenko, G. G. Postolova // Superhard materials, 1982, N6
Crack resistance of crystalline and composite superhard materials / N. IN. Novikov, A. L. Maistrenko // FHMM, 1983, N4
The use of models presented to describe the limit state of a wire with a crack (Communication 2) / N. IN. Novikov, A. L. Maistrenko, N. M. Kamenev, V. N. Kulakovsky // Strength problems, 1983, N10
Analytical solution of the problem about the limit state of a defective train with a supporting ring / A. L. Maistrenko, M. P. Savruk, I. IN. Prokopchuk, N. M. Kamenev // Strength problems, 1983, N12
Methodical instructions. RD 50-260-81 Calculations and strength tests in mechanical engineering. Methods of mechanical testing of metals. Determining the characteristics of fracture viscosity (crack resistance) under static loading / N. AND. Makhutov, V. IN. Panasiuk, V. I. Ivanova, A. L. Maistrenko and others. // Ed. Standartov M., 1982 2.2 p.l
Analysis of technological stresses in two-layer discs / A. L. Maistrenko, A. WITH. Tsybenko, V. N. Kulakovsky, G. G. Gnesin, Yu. P. Dyban, V. L. Yupko // Strength problems, 1982, N11
Analysis of the mechanism of destruction of natural building materials when cut by diamond saws / A. L. Maistrenko, V. AND. Aleksandrov, Yu. M. Mytlykin, V. WITH. Lysakovsky // Superhard materials, 1983, N1
Construction methods for preventing destruction of carbide tools during cold drawing / N. IN. Novikov, A. L. Maistrenko, N. M. Kamenev, V. N. Kulakovsky // in the book: “Strength of materials and structures at low temperatures”, K.: Naukova dumka, 1984, 340 p.
Estimation of the limit state of the cutting elements of hard alloy taps / G. I. Chepovetskyi, S. I. Didenko, V. I. Rybak, A. L. Maistrenko, V. N. Kulakov-sky // Superhard materials, 1984, N5
Crack development in hard alloy during combined deformation of I and II types / A. L. Maistrenko, S. I. Yarema, G. WITH. Ivanitskaya, A. Zboromyrsky // Strength problems, 1984, N5
Stress in a compressible square sample from the mechanics of materials, a longitudinal or diagonal crack / M. P. Savruk, S. I. Yarema, P. N. Osiv, A. L. Maistrenko // Physical and chemical mechanics of materials, 1985, N5
Cyclic crack resistance of hard alloys / G. I. Chepovetskyi, G. AND. Shapoval, A. L. Maistrenko // FHMM, 1985, N6
Determination of crack resistance of brittle non-metallic materials / A. L. Maistrenko, V. P. Naumenko // Factory laboratory, 1985, N4
GOST 25.506-85 Methods of mechanical testing of metals, determination of characteristics of crack resistance (destruction viscosity) under static loading / A. L. Maistrenko, Yu. N. Rabotnov, N. AND. Makhutov, V. IN. Panasiuk, V. WITH. Ivanova, A. L. Maistrenko and others. // GOSSSTANDART USSR M., 1985 61 p
Distribution of diamonds in composite materials for rock-blasting tools / A. L. Maistrenko, V. N. Kulakovsky, E. WITH. Simkin, N. IN. Tsypin // Superhard materials, 1985, N5
Superhard polycrystals and composites / N. V. Novikov, A. AND. Shulzhenko, S. A. Bozhko, A. L. Maistrenko // In the book: Synthesis of supersolid materials, vol. I, Kyiv: Naukova dumka, 1986, Dumka, 279 p.
MR-32-87. Methodical recommendations. “Calculations and strength tests. Determination of crack resistance characteristics of superhard materials, hard alloys, instrumental and structural ceramics” / S. I. Yarema, M. P. Savruk, A. L. Maistrenko and others. // State Standard of the USSR, M., 1987. – 33 p.
Crack resistance and strength of carbide steels // Ya. P. Kubarsepp, H. I. Annuka, H. D. Reshetnyak, G. I. Chepovetskyi, A. L. Maistrenko // Powder metallurgy, 1990, N1.- S. 90-94
Effect of structural defects on the strength of granular composite materials / N. IN. Lamashevskaya, A. L. Maistrenko // Mechanics of composite materials, N6, 1990, pp. 1115—1117
Dependence of thermal expansion of composite diamond-containing materials on the conditions of communication along the boundaries of phase communication / A. L. Maistrenko, V. I. Suprun // Mechanics of composite materials, 1990, N5, P.923—925
Durability of a diamond-containing composite material based on tungsten carbide hard alloy / D. Kh. Bronstein, E. WITH. Simkin, N. IN. Tsypin, A. L. Maistrenko // Powder metallurgy, 1990, N9.
Prediction of wear resistance of composite materials by hardness and crack resistance / S. N. Dub, A. L. Maistrenko // Factory laboratory, 1991, N2.
AE testing of ceramic components in grinding / S. Udovik, B. Polupan, A.L. Maystrenko // SMIRT11, Int.conf. “Structural Mechanics cs in Reactor Technology “, Aug.1991, Tokio, Japan. Vol.SD2 . — P.411—416
On the possibility of pressing and sintering of diamond-containing compositions in shock waves / V. I. Kovtun, V. I. Trefilov, N. IN. Novikov, A. L. Maistrenko // Powder metallurgy, N 9, 1991.— P.98—102
Peculiarities of AE application for diagnostics in grinding ceramic composites / S. Udovik, A.L. Maystrenko // MICC90, Moscow Int. 6 Comp.Conf., ELSEVIER APPLIED SCIENCE, London, 1991. — P.1266—1271
Prediction of wear resistance of brittle materials by hardness and crack resistance / S. N. Dub, A. L. Maistrenko // Factory laboratory, 1991, N2.
Prediction of strength properties of ceramic composites taking into account the influence of final technological stresses / N. IN. Lamashevskaya, A. L. Maistrenko // Mechanics of composite materials, N5, 1992. — P.657—660
Some properties of VK6-Almaz composites sintered in shock waves / V. I. Kovtun, V. I. Trefilov, N. IN. Novikov, A. L. Maistrenko // Powder metallurgy, 1993, N4. – P.102-106
A New Method for Non-Destructive Testing of Wear Resistance of Polycrycstalline Diamond / B. A. Olejnikov, S. L. Udovik, A. L. Maystrenko // Advances in Powder Metallurgy & Parti culate Materials 1992, Vol.6, Blanks, USA — Р.301—307
Resistance to destruction of superhard composite materials / N. IN. Novikov, A. L. Maistrenko, V. N. Kulakovsky // K.: Naukova dumka, 1993. — 257p.
Structure & Properties of Shock-Wave Sintered Diamond Composites / N. Novikov, V. Trefilov, V. Kovtun, A.L. Maystrenko // Industriel Diamond Review, Vol.53, N5, 1993. — P.278—281
Peculiarities of measuring the crack resistance of ceramics by the indentation method / S. N. Dub, A. AND. Isakov, A. L. Maistrenko // Zavodskaya laboratory, 1993, N4.—P.58—60
Evaluation by the acoustic emission method of the quality of polished ceramic blanks / B. I. Polupan, V. IN. Kolomiets, B. B. Minasevich, A. L. Maistrenko // Superhard materials, 1994, N4. – P.43-48
The correlation between the coercivity and the mechanical properties of sintered rare-earth-iron-boron magnets / S. Szymura, Yu. Rabinovich, H.Bala, A.L.Maystrenko // J.Phys.: Condens. Mater. 1994, UK. — R. 3573—3582
Mathematical modeling of the thermal state of elements of a technological unit in the process of high-speed electrosintering of diamond-containing composite materials / V. AND. Dutka, V. P. Pereyaslov, S. AND. Ivanov, A. L. Maistrenko // Superhard materials, 1999, No. 4. — S. 26-35
A new approach to assessing the strength and impact resistance of multilayer composites based on structural ceramics / A. L. Maistrenko, S. I. Shestakov, V. G. Kulich // Superhard Materials, 1999, No. 4. — P. 496—491
Optimization of the design of a carbide worm-type milling cutter based on the fatigue crack propagation life of structures / A. L. Maistrenko, S. Y. Didenko, G. I. Chepovetsky // Fracture Mechanics of Materials and Strength. —1999. — Vol. 3. — P. 147—154
Intensive electrosintering of diamond-containing composite materials / A. L. Maistrenko, S. A. Ivanov, V. P. Pereyaslov, M. N. Voloshin // Superhard Materials — 2000. — No. 5. — P. 39—45
Quality control of diamond composites on a metal bond / M. G. Loshak, L. I. Alexandrova, A. L. Maistrenko, M. D. Levin, D. M. Myflig, S. AND. Ivanov // Superhard materials. — 2001. — No. 2. – P.65-72
Features of deformation and destruction of plates from brittle materials under shock loading / V. IN. Kharchenko, A. I. Babutsky, E. AND. Kondryakov, A. L. Maistrenko // Strength problems. — 2002. — No. 3. – P.27-32
The formation of dispersed systems during the extraction of diamonds from the products of their synthesis / G. P. Bogatyreva, A. L. Maistrenko, N. AND. Oleynyk, H. AND. Bazaly, V. L. Gvyazdovskaya // Superhard materials. — 2003. — No. 3. — S. 3-10
Methodology and device for measuring the thermal conductivity of composite diamond-containing materials on a metal bond / S. AND. Ivanov, A. L. Vetrov, A. L. Maistrenko, V. I. Bush // Superhard materials. — 2003. No. 3. — S. 44-49
Diamond tools for processing natural stone and building materials // Tools from superhard materials / Ed. N.V. Novikova. — M.: Mashinostroenie, 2002. — Ch. 16. — S. 518-536
Justification of the concept of selective destruction of a diamond synthesis product / A. L. Maistrenko, N. IN. Novikov, G. P. Bogatyreva, N. AND. Oleynyk // Superhard materials. — 2005. — No. 1. — P.17-27
Mechanics of composite diamond-containing materials / M. IN. Novikov, A. L. Maistrenko // Mechanical engineering. — 2005. — No. 5. — P.3-10.__
Quality assessment of composite diamond-containing materials by electrical and thermal conductivity / M. V. Novikov, A. L. Maystrenko, V. I. Kushch, S. A. Ivanov // FKHM. —2006. — No. 1. — P.105-112.
Ivanov S.A., Pereyaslov V.P., Maystrenko A.L. Physical, mechanical and functional properties of composite diamond-containing materials obtained by intensive electrosintering // Mechanical Engineering, – 2006, No. 2. – P.21-27
Novikov N.V. Maystrenko A.L. Kushch V.I. Ivanov S.A. Quality rating of metal matrix–diamond composite from its thermal conductivity and resistivity //Mechanics of Composite Materials. – 2006, No. 3. P. – .
Novikov M.V., Maistrenko A.L., Ivanov S.A. On the issue of assessing the quality of composite materials by the properties of electrical and thermal conductivity.//
Physical and chemical mechanics of materials 2006, No. 1. – P. 105-112.
Ivanov S.A., Pereyaslov V.P., Maistrenko A.L. Physical, mechanical and functional properties of composite diamond-containing materials obtained by the method of intensive electrosintering. //Technical engineering.- 2006, No. 2.- p. 21–27;
Maistrenko A.L., Ivanov S.A. Genesis of composite diamond-containing materials // In the collection of scientific works “Superhard materials: creation and application” . INM NAS of Ukraine. – 2007. – P.18 – 25.
Kush V.Y., Ivanov S.A., Maistrenko A.L., Pereyaslov V.P. Study of the mechanism and kinetics of compaction during intensive electrosintering. Message 1. Laboratory researches // Superhard materials.– 2007 – №2.- S. 18-25.
Kush V.Y., Ivanov S.A., Maistrenko A.L., Pereyaslov V.P. Investigation of the mechanism and kinetics of compaction of a porous body during intensive electrosintering. Message 2. Theoretical model and its verification // Superhard materials.– 2007 – №4.- S. 21-29.
Kush V.Y., Ivanov S.A., Maistrenko A.L., Pereyaslov V.P. Study of the mechanism and kinetics of compaction of a porous body during intensive electrosintering. Report 3. Prediction of shrinkage kinetics and comparison with experiment // Superhard materials. – 2007- No. 5.- P. 49-56
Ways to increase the efficiency of drilling operations to increase oil and gas production in Ukraine /Maystrenko A.L., Bondarenko M.O., Gargin V.G., Kuntsiak Ya.V., Dublenich Yu.V., Gavrilov Ya.S., Draganchuk O.T., Yavorsky M.M., Vekerik V.I., Yaremiychuk R.S. //Superhard materials. -No. 5.- 2007. – P. 65 -75 .
Maystrenko A.L. Peculiarities of sintering of composite diamond-containing materials for rock-blasting tools // In the book: Actual problems of modern materia-lovedenia, Kyiv, ED Akademperiodika, vol. 2, p. 300-312
Laws of formation of high-density structure of self-bonded silicon carbide / A.L. Maistrenko, V.G. Kulych, V.N. Tkach. // Superhard materials. – 2009. – No. 1. – p. 18-35.
Determination of the influence of the rate of deformation on the change in strength of ceramic materials based on self-bonded silicon carbide / G.V. Stepanov, V.I. Zubov, A.L. Maistrenko, V.G. Kulych and others. // Artillery and shooting weapons. – 2009. – No. 1. – pp. 48-53.
Influence of loading speed on the strength of ceramic materials based on self-bonded silicon carbide / Stepanov G.V., Zubov V.I., Maistrenko A.L., Kulych V.G., Shestakov S.I., Alexandrova L.I., Kush V.Y. //Strength Problems, No. 3.-2010.-p.79-88.