SCIENTIFIC ABSTRACT SHTOGRIN, M.I. - SHUBAREV, V.A.

USSR UDC: 511-444.2+5,8.1 DEWNE, B. N., Corresponding Member of the Academy of Sci'ences of the USSR, GAI=11, R. V., DOLBILIT!, N. P. , Z.ALTGALLMI V. A., SETOOIN. M., 1., Nlllathe- matics Institute imeni V. A. Steklov, Academy of Sciences of the USSR, Moscow "On the Three Successive Ydnina of a Three-Dimensional Lattice" Moscow, Doklady A-kademii Nauk SSSR, Vol 209, No 1, M3xlApr 73, pp 25-28 Abstract: Let OA be the shortest rector of the three-dimensional lattice OB - the shortest- vector of A not parallel to OA, and. 0C -- the shortest vector of A not parallel to plane OAB. Three such vectors P-re called the three successive minima- of A, and the parallelepiped R constructed on these vectors is called a reduced parallelepiped. Theorem 1. The reduced parallLlepiped 11 is prizaitii,e (cnpty). This theorem was firzt geomt.,trically proved by TA-licb:1.0-t in .1848, This proof haz alwPys se-emed somevhat conplicated to cryn-tol.l.of,'raphori, and therefore 11. V. BelOV PrOpOSCd AL 11CW proof in 1951. In thic. pa,,x:r authurf- Cill t z-,m, -r proof f C. wld~prorjost? Un (116, re- ducing three succes~:ive minima to a single parallelepiped,  -112 oua UNCL4SSIFIE6~ PkbCESSING DATE -090CT70 JITLE-CUMPLEXING tN AN IRON(Ill)tDIANTIPYRYLMETHANE SYSTEM STUDIED BY A i' _14ETAL INDICATOR METHOD -U- _~AUT,HGR.-SHTG-KALOw M.Is ~~_'COUNTRY OF INFO-USSR. RLE--UKR. KHIM. ZH. 1970, 36(1)9 13-16 ~MATE PUBLISHED----70 ~63JECVAREAS-CHEMISTRY ToP.ICTAGS-DISSUCIATION CONSTANTo COMPLEX COMPOUNUt 1;ALCULATION TROL MARKINC-NO RESTRICTIONS ?,OCUKENT CLASS-UNCLASSIFIED IkON COMPOUNDe PROXY, REEL/FKA14E-1992/1984 STEP NQ--UR/0073/10/03(:,/00'~lt)013/0016 :IAC..ACCESSI ON NO-AP0112948 u NCLASSIFIED  7-7 212 008 UNCLASSIFIED~ PROCESSING DATE-09OCT70 -CIRC ACCESSIuN N'D--AP0112948 ABSTRA:CT/EXTRACT--(U) GP-0- ABSTRACT. THE DISSOCN. FO,~ (FE WIANT) SU132) PRIME3 PUSITIVL (DIANT EQUAL5 DIAN[; PITRYLMETHANE) BASED ON COMPETMON EXPTS. wirH XYLENOL ORANGE AND F PRIME ?~EGAT:IVL IN 0.1 Mu HNO SUb3 IS 9.7 TIMES 10 PRIME NEGATIVE8. 3 THE.PREVIOUSLY BY USINI DETD. IST DISSOCN. COINST., THE 2ND IS CALCO. TO BE 5.1 TIMES 10 PRIME NE-GATIVE4. FACILITY: INSY. 08SHCH-NEORG. KHTM.v KIEVt USSR. UNCLASSIFIED r imp m  UW -621.735.01-'3.016-3:66~.14.018.252.3 CIMIM11 YU. F., ALIS-TRATCV, L. L, BERE ZIN, A .A., QWvIN A. A. KOVIYO, V. S., KUUKOV, Nt I. , SPUSKADIYUK, V. Z., and SHTOMMAN, A. D. "Industrial Introduction of Techrique of Hydropressing of Tool Billets From Steels R18, R12, RV Moscow, Kuznechno-Shtaxr.,povocbnoye Proizvodstvo, No 8, Aug 71, pp 11-12 Abstract: Experimental inve--~tligations at Dnepropetrovsk Ph,')rsico-technical Scientific Research In,,-titute, Acadery of Sciences Ukrairdan 35-R. showed that the cold vlastic deforzation of billets of high-sreed steels R18, P12, and R9 by the hydrooressing na-,,hod results in significant ref-inenent and more uniform distribution of the carbide phase. Investip-atior-5 of R18 steel bil- lets followi-ng, byd--prccsirg, amnealing,and heat finishinE. -ho-wed an increase in the nechanical prcrertio-s and themostability of the steel, wbile t)rcdtc- tion tc--ts of 10-r,-,diameter reamers shu.4ed a 60-70 perecilt increase in tool durability. of c7lindrical round-voction bilicto from R18, R12,and R9 bars UP to 30 mn in diameter has been introducod at one of the  CF.EM-f, YU. F., et al., Ku7nechno-,".~'nluampovoctinoye Proizvodstvo, No 8, Aug pp 11-12 Donretskaya Cblast plants. A rodel. P479 bydraulic press is used for billet deTormation, Tbc hydrcr-res.-ina setuD consists of a hivh-pressure multilayer per and loi-ter plate, and a cen- container, rod and die with gasketing, an up terer and fastener. The tool billet hydropressing process provides for the preparation of initial billets, straining of the billets,and their subsequent treatment. KhlZ-,i steel (FX-C 57-59) is used for the die. The economic advina- bility of using the technique of bigh-speed steel hydrcpnr,~~I--j for the fabricatio. n of tool billets is based mainly on the increased tool durabiLity as a reEult of the improved structure and pbysicomechanical properties of the steel after de-Lonration. There is a saving in high-e-peed steels because the billet coxes as close as possible to the,tool size. 20  USSR UDC None ZELEVINSKIY, V. G. and 8111TOMIAN. X. I., Institute of Nuclear Physics, Siberian Departrien.t. "Moment of Inertia in the Microscopic Theory of Nuclear Rotation" Moscow, Izvestiya Akademii Nauk SSSR--Seriya FizicheskMa, No 12, 1972, pp 2577-2584 Abstract: The authors use the method of an earlier paper (S. T. Belyayev, at al, Yadernaya fizika, 11, 1960, p 741) to conside.- quantum corrections for the crankinFinodel, the basic method for examination of microscopic rotational excitation,thus clarifying deviations -.Lrom the theory and impraving agreement with experi- mental results. The authors find it convenient to introduce the generalized space of the states specified by the colle.-tive band characteristics--the moment of inertia, its projection on the laboratory axis and on the inner axis, and the single frequency quantum numbers.. The rotational parametera are f oLuid by using the condition of moment matching, and it is noted that expressions de- duced for the derivatives of the moment of inertia agree with those of earlier theoretical works. A table~of the quantum corrections  MPMMMMXMWWA~ USSR UDC: None ZELPVINSKIY, V. G., et al, Izvestiya Akademii nauk S1jSR--Seriya- fizicheskaya,, No 12, 1972, pp 2577-2.584 is compiled. It is concluded that the theory advanced in this paper offers a complete quantitative description for the enerEy behavior of the lower portion in the~basic band of even-even nu- clei. The authors express their gratitude to S. T. Belyayev and V. B. Telitsin for their comments. 2/2  Beryllium USSR -UDC 669,7251794-541-134 BUTOROV, V. P., NICHKOV, 1. F., NOVIKOV, YE. A., and MOLIT-S, A-. K., Ural Polytechnic Institute, Department of -the Metallurgy of Rare Metals "Thermodynamics of Beryllium-Yttrium Alloys" Ordzhonikidzet Izvestiya Vysshikh Uchebnykh Zavedeni --Chernaya Metallurgiva, y No'4., 1973, pp 8649 Abstract: Tests on determining the thermodynamic magnitudes of Y-Be alloys vas reduced to a study of the electromotive force of the galvanic eletrent Which was determined as the difference where Talloy. and gly are the equilibrium potentials of the alloy and metnllic equilibrium, respectively, relative 'to the chloj~~ine electrode of comparison. r From measurements of the emf of Y-Be alloys containing from 4.1 to .40.8 vt',C Y, it Uas found that there is a direct relationship of alloy emf to Kelvin tempera- ture. Tables were compiled from experimental data whith showed the activity and coefficients of activity of yttrium and Be-Y, alloys and thermodynamic 1/2  USSR BUTOROV) V. P., et al., Izvestiya VySshikh Uchebn kh Zavedeniy--Chernaya Metallurgiya, No 4, 1973, pp 66-89 properties of alloy YBel3- From x-ray.phase:analysis of the studied alloys it was established that they consist of two phases: the intertLetallic compownd YBel2 and pure beryllium. 1 figure, 3 tables, 4 bibliographic references.  USSR UDC: 539.4:624.011 UL'YANOV, S V. and "Statistical Analysis of 3~ability, -~..nd an -stimate of -~Iie jjejij_ bility of a Parametric '.~'Ystem in Jeismic Action" V. sb. !-`atcriaiv V konrferont-8-1i_ s nt s il,:~ JiS4_~)V. U ~ - -1 - _110,1Z... iZO.?irrIruI,,tsiy (7-aterials Vof tht~ Technical Confere%ce oi' -foun6 Jneciali3ts. Central ScJ_Ientific Re- search lnsti~u'e o' u 6 onstruction- collect-ic-n of works) MLoscovl, 1970, pp 57,4-57 (~`~rom 2LZ'h-,,ekhanika, No. 2, Feb 71, Abstract No., 2"7952) TransLation: 1''short report devoted to the Droblf_,~11 of l'orce", 3-w~-Uc- tural- oscillations in a movable zystem of coor_-Unat-,~s, moves ahead re'Lative to an inertial c-,urdinate system. forward 111o- tiou of the movabi-1- syslem, -Ls determined by flinctions which can be considered as statio,,aar.- noncorrelated functions of time with zero avera.-e values and ]-.no-,..q etatisticarl -,ara,-~iet-L~,rs (the of distribution and the correlation _'unctions are The nrob- lem o-f oscillations o-- rod coustriaction in laorizontal and', vertical seismic motion of tY,,j oundatiGn rt~duces t-o sul-11 -i, model. T, ri e hypothesis is assum,_~d of Stationary sei.,,mic action. The desin-n 1/2  LOSR ULIYPdTOV, S.V., et al, V. sb. Mater-fely V Nauchno-tekhln. konferents1i r_1oioayh:ru Uetsialistov. TsKI stroit. konstruktsiy, 1970, PP 54-57 (froin RZ-h-MeLhanilva, No 2, Feb 71, Abstract No 2V952) system ilz~ a MCI 01 constant cross section and rii-_:-idity, wit!,_. the mass concentrated -at the ~~_nd. It is assu-med Thai-: 1) The hypc- thesis oj-" ncniinear viccou~3 , is valid; 2) lan,-itudinal dr, forces of the inertial mass of the rod. can be ziecw;lected; 3) Tlie linear mass inertia to the end of the rod and the e_-zoonential nonlinear elasticity are tall-,Len izyito'~ account; 4) Unly -the first form of the bendin- oscillations is considered. The Droblem is thc-ds: 1) To -he first a-pproximation,-by the solved by two mek, 1. method of stochastic differential equations, and 2) By us-inj- t'he apparatus of the 'E'arkov -1,rocesses and the Pokker-PI anck-111-olmoaorolr equations. -'_Th~! conclusion is that to estiii-Late the motion Of ihe systeim for small values of the e.:~citation coefft~,ient and Lo dc- termine the stability of the system in the regioi'4 of its para- meters, it is convenient to use the first method; for.a. more com- plete stai.'istical analysis, however, the second method must be us,,.ed. V. A. Byl:hovsL-.,;y 2/2 113  USSR UDC: 539.4:624.oll NIKOIAMIKO N. A. T_ "Statistical knalysis and Evaluation of Parametric Systems Subjected to Seismic Effects" Tr. TsNII stroit. konstruktsiy Works of the Central Scientific Research Irstitute of Structural Elements), 1970, vyD. 14, pp h-)I (from RZh- -Mekhanika, 110 7, Jul 71, Abstract No 7V863) Translation: The authors consider the problem of forced oscillations of a structural- element in the form of a rod of constant cross section a-rid rigidity with a concertrated mass on the end in the case of horizontal and Yertics.1 seismic motion of the base. The equation of motion of the rod is derived by the Bubnov-Galerkin method. The nonlinear inertial proper- ties of the attached mass and Power-lwr nonlinear elastic-ity of the system are taken into account. Critical values of the coefficieft of marametric excitation are determined in solving the equation by the -_ethod of $to- chastic differential equations. The boundaries of the re(-~ions of dynamic st;aibillity coincide for the average and root-mean-square values of ampli- tud, 3. In solving the problem by the Fokker-,Planck-Kolmogorov method, 'the 112  NIKOLAYENNO, N. A. SHTOL A. T. , Tr. T"SNI1 stroit. konstruktsiy, 19-!0, VYP. 14, op 4-ii motion of the system was assiLmed to be close to quasibLrmonic with slowly varying amplitude and phase. The probabil-ity density functions and the first three moments of motion of the system are f6und. It is shourn that the region of dynamic instability differs from the bound&ries found ivith simplifying assumptions. line concepz. of parametric st - Obility of the sys- tem is related to the probability that the coefficient of excitation will not fall into the region of dynatuic instd~ility. L. Sh. Kilirmik. 118  a a i:i ssvi)Nn Z77777 U'277 7~(,-'; 91vLOlOd7--ON NOISSMV )Vfj- I I TG/ I i'XII/ s I 0/ol./st, I (J/ M-ON d -I IS 091JlSSVl3Nri--SSVl3 SjS),-jVf,;V AV~j X 'ADTIV 9NINIVIN03, iv.L skd:) Aoiiv wnl(jVNVA 'A011V 0343MIC-SOVI 0 1 d U-1:1 OL ------- 03HSI nd 31VO."'.. 61-RTI 'MST '0L61 V03 'SSON) *HZ *2ld ~issn--o:;Nj Ao Auiwo3 ']*A 'ADAJ"ll'f!S "A*d '01~9 "I*A ',klN~HZVkbOVZ 77 'Sll~OlHS--d,-)i4lfjv -iv iuriS A BOl'llVlJW'd3llN'l 09b3060 30 A1111VIISSOd-31111 0 3 1:11 S SV -1:)Nfl I z Q Z/7  Liz 021 UNICL ASS FIED PROCE SS I N3 DATE--- I I S !---P7-j CIRC ACCGSSION NO---AP0107316 A8ST,RACT/EXT','ACT--(,U) GP-0- ABSTRACT. THE ALLOY V SUB3 AL AAS 11,Y MELTING THE METAOS (25 AT. PF;CENT V) IN PRESENCE OF AT. THE- 1",3rj-r ANINEALE9 4T 10000EGREFS FOR 80 OR 180 HR. X R4Y P-OWDER PHrjT0"o -1 A PH REVEALED DISORDERED AL SOLID SOLN. IN V AND STR0kV,;LY DIFFUSED LINC.:e WHICH COULD BE DUE TO A CUBIC LATTICE OF TYPE CR SUe3 S1, A E')UALS ANGSTROMS.  USSR UK: 669.29S.S:S39,43 YEIAGINA, L. A., DERYAGIN, G. A,, "Influence of Structure on Fatigueof VT8,and VT9 alloys" Tekhnol. Le kikh Splavov. Nauch.-Tekhn. Byul. VIL-Se, [Light Alloy Technology. 9 L Scientific and Technical Bulletin of All-Union Institute of Light Alloys], 1973, No 2, pp 567-63 (Translated from Referativnyy Zhurnal Metallurgiya, No 8, 1973, Abstract No 81484, by the authors). Translation: The fatigue limits a_ I are determined at 20 and 500* with various types of loading for bars of the alloys VT8 and VT9 with various types of structure, including the "Moire" macrostructure,~not studied earlier.  USSR UDC: 669.017:539.42 Yu. K. KOPELIOVICH, B. A., Moscow IVANOVA, V. S. , KUDRYASHOV, V. G. , "Fractographic Study of the Rupture Toughness of Aluninum and Titanium Alloys" Kiev, Problemy Prochnosti, No 11, Nov,72, pp 25-30. Abstract: An electron microscope study of the surface of a crack is performed after cyclical deformations of various Al. alloys ard T-i allo,,rs under pure bending with constant and gradually increasing.stress, pure circular bending, repeated extension and cantilever circular bending. It is shown that the dimensions of the pits on the crack surface near hard second-phase particles correlate with the value of HT (change in heat content of base of alloy with S changing temperature from room temperature to the melting point). It is also established that the rupture toughness determined by the method of Ivanova and Kudryashov, under conditions of cyclical loading at the critical fatigue stress, is near the rupture toughness produced by tle method of Irwin.  PAC-Cj: 112 325 UNCL ASS IF [ED SSIN" UATE--13NIOV70 r. I TL E - AC C r- L ER A T E 0 METH09S N ,:OR ETCRMINUN,-THE CIOURANCE 11MIT OF -t,t.LP,llNuM ALLOYS -U- 'YERO Vi ~j E AI ,~~3 A YU K S tl,N C OU:.l RY OP INF0--USSR -S 0UfRCE--PA0BLEmY PROCHNOSTIP VUL - 2t, APR 1971'-,- P. 11-17 DATE PUBLISHED----APR70 :SUBJ,EC T AREA S--MAT ER I ALS, !,,E-rli0DS AND E"'UIPREIN'T ,TOPIC- TAGS-.-TEST m~E-THIlDr ALUMINW tj J) I T .4 ALL GY FANGUE TEST/ ALUMINUM ~ALLOY WAV ALUMINIOM ALLOY, WWI ALUMINO ALLOYt I ALUIMINUA ALLOY CONTROL MARKI-N-v-N9 RESTRICTIONS :.00CUMENT CLASS--UNCLASSIFIED kl- EL/Flk AME- -200010110 SrEP 11/001 ? iC JRC- ACCESS iON NO--- APO 123 882 )tit.  212 025 UNICL ASS IF I ED PkiCCESSING DATE-13NOV70 ACCESSION Na-AP0123382 GP-0- Aii.STRACT. &V A L UA T 10 IN OP THE "lOsT R~--LIAB~E ACCELERATED METHODS F0.4. OETERMINING 'm&, ENDURANCE LIMIT GF ALUMINUM ALLOYS, 016T# AV, DIi AND AK4-1- UNOEP. 011-FERENT LUhl)[NG C010ITIONS. FATIGUE TESTS WERE CARRIED OUT USING SMOO -1 SAMPLH AINO SA'-lPLES WITH Tl THE ENDUkAKE STRESS RAISERS. ERRORS CO 'lt-~IffEl) IN DETEkMINATIONI c LIMIT !3Y ACCEL&~ATED METHO-os WEI