SCIENTIFIC ABSTRACT YAMSHCHIKOV, V. P. - YAMZIN, I. I.

:% Yamshchikov, V. P. "The variability of Morran's bacillus .;,nder the influence of anti~-Iotuicr-.,, State Order of Lenin Inst for k-,he Advanced Traiainr of Phyciciann i-leni I '!. Kirov. Chair of Nicro~)iolof7y. LeninErad S. 19156. (Dissertation for' the De~,ree of Candid'ate in *Iedical Sciencesi. rmizhn,iya letopis No. 21, 1956. Moscow.  USSR, Pha~~acol~gy Toxicology, Chamotherapeutic Agents U-7 Abe Jour : Ref. Zh. 13 101. . No ig 2, 1958, rio 8log Author : Krashkin, P. N.,, Bezborodov, A. M., Yelinov, N..P., Yjwhkin, K. P., Marchenkova, F. G., Tzyganov, V. A., Yamshchikov, V. P. Inst Title :Materials on ~hv Analysis of Failures in Antibiotic Tharapy Orig Pub :V. Bb. Antibiotki., Eksperim.-RbInich., Izuch. M., 1956. 274-290. Abstract :Among the causes for failure In antibiotic therapy, the authors have emphasized bacterial resistance, appearance of moniliasis, and hormeeis. An increased resistance to antibiotics is also characteristic of the facultative path- ogens which more frequntly develop a group tolerance. Me streptomycin and b1ozVoin resistant m1oroorganisms  undergo more profound and more stable biochemical changes than those resistant to penicillin, levomycin, and sintomycin, Most of the relistant strains have a decreased tolerance to warming, alcohol, and antiseptic solutions. Alongside the highly resistant strains, dependent strains appear as a result of adaptation, especially among the tubercle bacilli, which grow luxuriously on media saturated with proper antibi- otics. Yeast-like organisuz of the genus Candida are fre- quently responsible for fatal complications in patients with dysentery and pneu n1a. Monilia infections affect the mucous membranes of the oral cavity, larynx. vagina and the large akin folds; leas frequently ulcerative lealone in the alimentary tract and focal pulmonary involvement are en- countered. Streptotaycin, penicllin, aintomycin, levomycetin, biomycin and eakazin proved to be ineffective inkthe treatment of moniliasis. Gramicidin-C., aBpergillin and aspergin demon- strated some effectiveness. Streptomycin, penicillin and aureomycin in various concentrations have, actually, increased the growth of Candida in special test-tube ex-  pertments. 'Rabbits with experimental montliaais succumed to infection after 2 - 5 days if treated with penicillin, streptomWain, biomycin or levomycin, and ater 30-35 days if untreated. $M The phenomena of hormesia, I. e. the destruction of the normal microflora of the akin and mucous membranes, Is associated with irrational antibiotic therapy. A number of patients demonstrated absence of coliform bacilli cultures, proliferation of Proteus, alkali-forming and putrefactive mioroorganiame the toxinn of which cause toxemia on reaching the blood stream. j-  USSR /Microbiology. Antibiosis and Symbiosis. F-2 Antibiotics. Abs Jour: Zh.-Biol., No. 9, 1957, 35572 Author t Kaskin, P M:1 oliakov, P.N.1 Kashkinp K.P.1 Slubko, A:L ; gamshchikovo V.P. Title : Common Modifications Features in Conditionally Pathogenic Microorganisms Under the Influence of Antibiotics Orig Pub: V sb.- Zhiviye vaktsiny, M., 1956, 279-288 Abstract: Conditionally pathogenic faecal alkali-formers., enterococci, intestinal and "Morgan" bacilli possessed differett sensitivity to streptomycin (I), biomycin (II), synthomycin (III), levomy- Card 1A  USSR /14icrobiology. Antibiosis and Symbiosis. F -2 Antibiotics. Abs Jour: Referat. Zh.-Biol., No. 9, 3-957, 35572 cetin (1V)O and pennicillin (V). in relation to the last two bacteria I, III, IV were much more active, and In relation to the faecal alkali- former-III. Enterococci showed sensitivity to V, I, and III. Pas3age on the media with growing content of antibiotics helped the development of a resistance in the microbes to the preparations studied. The microbes were most easily adapted to streptomycin. The intestinal bacilli 11 the faecal alkali-formers and partially the 'Morgan" bacilli adapted more quickly than the others. In the highly resistant variants polymorphism of the cell elements and weak biochemical activity in comparison with the original cultures were not*dQ A comparison of the adaptive pathogenic C ard 2/3  USSR /44icrobiology. Antibiosis and Symbiosis. Antibiotics. Abs Jour: Referat. Zh.-Biol., No. 9, 1957, 35572 F -2 and conditionally pathogcnic microorganifts mavO! *-'(. ifested common features in the modification of their morphological-biochemical properties. Card 3/~  AWHOR: Kashkin, P. X., Zlatinal K. M., Golyakov, 1. N., Kashkin, K. D. and Yamshchikov, V. P. Inst; Not given Title: Variability of Microorganisms in Leucccyte Cultures Under the Effect of Antibiotic Preparations. Orig Pub: V. sb., Zhiv-j%e vaktsiny, M., 1956, 289-295. Abstract: Leucocytes develop well in the presence of doses of streptcetycin, penicillin, syntomycin) biomycin, and levomycetin uhich exceed masimum therapeutic doses for humans, and therefore they may be utilized for studying adaptive Variability of microorganisms under the influence of antibiotics. By transferring leucocytes in cultures with increasing concentration of a specific antibiotic, resistant variants were obtained of some conrlitionally patho6anic microorganisms. The common characteristics of resiGtant forms include weakening of carboly-tic activity, viability and antigenicity in reactions with homologous sera by comparison with the initial strains. Rpm  YAMSIICIIIKOV, V.P.; BEZBCRODOV) A.M.; YELINOV,, N.P. (Cand. of Bio. Sci.); KASIM, F.G.; TSYGANOV, V.A. (Cand. 6j' Bio Sci. "Materials on Analysis of FailuxreE in Treatment With Antibiotics," P- 274 Ministry of Health USSR Proceedings of the Second All-Union Conference on Antibiotics, 31 May - 9 June 1957- P. 405, Moscow, Medgiz, 1957.  USSR ABS, JOUR. JtZYBi,',1.r 210-3 12,59, li". 10079 AMINM TYST. OP.1c. 113B, Card: Bczborodov, A.M., Kashkf-u, K.P., YtmshchIkov,..,-V.,P-1 Leningrad Chen-Aical-Pharrnaceutical Certain 13inctic-Mical Characteriaitca of Bact. Faecalis Alcali,~enetj Resistant to Antibiotics Sb. nauchn. tr. Lenkngr. kl)izn. -farmatsevt. In-t, 1957, 3, Ul-117 In the adaptation of certalu strains of I)acterluxn. faeculis alcaligenes to streptomycin au3 ei~mth ycin -Cchlo,ramphenicoS the morphology of the bacteria was changed. The strains resistant to these antibiotics assumed the forin o I coccobacteria. The DNA concentration In the straini remistant to eyntbomycin i Increased (3-3. 50/6), and In strains resistant to streptomycin, decreased (L 4-1. 7%) compared with the original (2-2. 9%). In the resistant straSna an increased consumption of pyruvic acid Is observed. The strains 1/2  CA T F-ItoRi ADS. Jr)UR. -T1107 TIVZ 01 . No. 3.959, Df-,. 10079 -PUB. AIRMMACT Cvrd- nycin acquired tjic capacity of adapted to streptar Straki.,i resistant to 335I.M11--iting glutamic acid. .jyntj,omvciri formed a ye).Iu%v pigmcnt of c-dwrotinoid nat-are. The strains resisiart to synthomycin and strepiomyctn lost the power of reducing nitrates. -- S. P. Shapovalova 2/2  "CmVarative Study of Some Biochemical Characteristles of Proteua morgani Strains sensitive and resistent toA&ti- biotics," by A. M. Rezborodor, K. P. Kaahkin) and V. F. Tam- shchikov, Laningra6 Chemico-pharmaceutical Institute, Zhurnal Microbiologii,, Epidemiologii, i Immunobiologii ~A No 3,tiar 57, PP 106-113 VO L'7_1 rr 105-11~ Since resistance is apparently caused by a change in different biochemical processes in the microbial cells; the author decided to study the elementary biochemical properties of strains adapted to anti- biotics as compared to the original strains, and thus to discover the functions which change during adaptation. Resiilts obtPined at the Chair of Microbiology of the Leningrad Chemicopharmaceutical Enstitute have demonstrated the possibility of producing resiazant variants in the laboratory by passing~them through agar media 'with antibiotic concentrations of increasing strength. The ,antibiotics used were synthomycin, levomycin, and streptomycin. The microorganism used wad a strain of proteus morgani, vhich is responsible f6r outbreaks of diseases of a paratyptioid characterp toxic food infec- tions, and various dysentery-JUke diseases. MR  On the basis of the vork doneit was concluded that: "1. Proteus morgani strains, adapted to syntauycin, contain more desoxyribonucleic acid, but strains which are adapted to streptomycin have less than the original strain. "2. There vas no difference in the utilization of amino-nitrogen between the strains adapted to antibiotics and the original strains. '13. Adapting strains develop the abi-lity to assimilate a number of amino acids not natural to the original strains (g3.ycocol, alanine, lysine, beta,Dphenylalanine). There is an especially marked increase in the yield of aspa:ragin from adapted strains. "4. In the majority of cases, the resistant st-ains lost the ability tti produce indol. A relation between resistance and the nitrate-reductase -activity could not be found. "5. In the majority of cases, the resistant itrains lost the ability ,tQ form acids and gas in media of the "varigated" series which is impor- tant in view of the differential clinical diagnosis of the microorganisms. : "6. The change in dehydrase activity did not depend on resistance ,to a specific antibiotic and vas an individual property of a strain. "7- In the process of adaptation to media vith synthomycin, certain strainr. formed a pigment having acarotin-like character. (U) ~tj  YAMSHCMKOV V P Chronic B. breslau infection in an experiment. Ekisp. i klin. isal. po antibiot. 1:146-148 158. (14IRA 15:5) (SAU-5011ELIA)  1T7T j Y ACC NN AR6022387 SOURCE CODE: UR/0397A5/oOO/024/0065/o o65 ~AUTHOR: Felldmen, I. 'Kh,; Frankovskiy, Ch. S,; Yamshebikov, V. F,; :Mordvinovap Yee T.; Marjqkbta,j_Yu& Zeikin -IT.-A-.**'Vf't6Vi3ltd-yai~G.J~.;I ,Arkadlyevap a* Yee ,TITLE: Azo-derivatives of benzene as potential antibacterial compounds* I. E: Ref. zb. Farmakologiya. Toksikologiyu, Abso 24-54-512 F SOURCE: Tr. Leningr. kbim.-farmatsevt,-in-to vyp, 18, 1965j 171-1 ,PIC TAGS: benzene, chemical compound, microorganism contamination, cteria, plant parasite ABSTRACT: An In vitro method of serial dilutions was used to test the activity of several syntbetic azo-compounds in relation to dermatopbytes, some gram positive and gram negative bacteria and two species of -yeastlike molds. All the tested azo-compounds containing a carboxylic group proved inactive. The exception was 2.4-dichlor-3- carboxy-4f-oxyazobenzol. The azo-compounds displayed highest aetivity in relation to Cr. neoformanso weaker activity in relation to' dermatopbytes, and the weakest in relation to Candida albicans# Onl-y  -T rA-~~C~R- I r certain azo-compounds diaplayed antibacterial and antivirus action. The bigbest in vitro activity was displayed by 2sk-dioblor-41-metbyl-4- oxyazobenzol and 204-dieblor-4t-oxyazobenzol wbicb proved most effective in relation to yeastlike molds and dermatopbytes and weakest in relation to bacteria. Mo Zabolotskays., franslation of abstraeg. SUB CODE: 06, 07 1 -  MALYSHEVA, N.A,, kand.tekhn.nauk; YA14SHCIIIKOV, V.S., gornyy inzh, Choice of a method of developing a conveyer dump and the length of the dump space. Gor. zhur. no.7:20-23 JI 161. (MMA 15:2) 1. Moskovskiy gornyy institut (for Malysheva). 2. Voesoyuznyy nauchno-issledovatrl'skiy inatitut ner'udnoy promychlennosti, Stvaropoll (for Yamshchikov). (Strip mining) (Conveying machinery)  BAMMP V.G., kand.tekhn.nauk; MIKHAYLOV, V.A., kand.tokhn.rauk; OKOLIZIN., Ye.P., inzh.; SIREMO, MI.., inzh.; LU-SHCHIKOV, V.S. inzh. Open working of deposits of carbonate rock. Sbor.trud.VNIINerud no.1:3-23 162. WMA 15--7) 1. Vseso',fuznyy nauchno-isaledovatel'skiy institut nerudnykh stroitelinykh materialov i gidromekhani sii. (Rocks, Carbonate) (Quarries and quarrying) (Aggregates (Buildirg materials))  RZHEVSKIY, Vladimir Vasillyevich, prof.2 doktor tekhn. nauki ISTOMIN, Viktor Vladimirovich, gorrqy inzh.; YAMZHCHUOV,,-Va:Leriy Sergeyevich, gorrjyy inzh.; Pri- nimali uchasti.-ye: YASTREBIVISKIY, M.A., gornyy Inzh.; LEBEDKOVA, A.A., gornyy inzh.,- OVCHIMIKOV., V.A.y gornyy inzh. [Technology and the overall mechanization of the open pit mining of coal, Ore. and rock products] Tekhnolo- gUa i komplekanaia mokhanizatsila otkrytol dobychi uglia, rud i nerudnykh iskopaemykh. Moskva., 1-11osk. in-t radioelektroniki I gornol elektromekhaniki. No.6. MI. 1963. 151 p. (14TRA 17:8)  ACC NR1 AR6009030 SOURC11 COD13t UR/0169/65/000/010/DO28/DO29 AIMIM YtLmshchikov, V,.S. TITLX: On the directivity of the wave'field of an ultrasonic rAdiator in bedrock SOURCE: Ref, zh, Geofizika, Abs. IOD194 REP SOURCE: Nauchn. tr. Mosk. in-ta radioclektroniki I gorn. elektromekhan.,sb. 52, vyp.23 1964, 91-95 TOPIC TAGS: ultrasonic radiation, ultrasonic prcperty, ultrasonic wave propagation, bedrock ultrasonic property, ev111eeo9-,e_ ABSTRACT: Hosultsof anexperimental studyof thodirectivity charactoriatics cfa bad z ate btanate wramic ultrasonic radiator of a piston type are discussed. Rock core samples of 8 - 12 cm diameter, 5 - 6 cm long were us0i. The samples were cut. into two half-disks; their center part was contacted by the radiator, with the recei-. ver contacting the periphaxy and the polar distribution of ultrasound intensity was observed In a 1800 4ector. .Directionality plots are given for samplen of peridotite and limestone, at 500 kc. Knowledge of these directional characteristics is useful in, the choice of rational plans for ultrasound receiver locations in the studiea of bed--- rock properties. [Translation]. uDca. 552-1153 SUB CODEs 04, 20/ SUBM DAM None  DMITRIYEV, A.P.,, dot.,3ont; DOBIIOVOLISKIY# G.Rop Jnzh#j KUZYAYEV, L.Se., inzh,; TRETIYAXOV, O.N., inzb.; ILMSHCHIKOV, V.S., inrb. . MMOPUSAPOW"' Determining certain physical properties of roe f6~7estimatlng their drillability by thermal piercing. Izv. vyv. ucheb, zav,; gor. zhur. no.8a86-.90 J1 164 (MIRA 18:1) 1. Moskovskiy institut radioelektroniki i gornoy elektromekhaniki. Rokomendovana kafedroy fizlki gornykh pored, Eli �  A C (7 ESS 10 N N R: A P 5 0 0 10 0 V. I ~j 6 4V_ V`vv AUTUOR: Yarnslichikov, V.S, TITLE: Influence of intensiLy on the absorption of ilrasonic waves in rocks SOURCE: AN' SSSR. lzv.,-t!ya. Scriy,, ;lo. 11, 19G4, TOP-IC TAGS: rock, O(L)lly. ultrasotilc wave, ~~co; hvs,,cal instrument __~el -~le-S~l prospecting, ultras nT. %va%,C at tell U,111, ABSTRACT: The attenuation of elastic waves is ot,c of ,lie principal. dmractcl".-i"Ics used Of 1-OCK-S in O'e L111 'L.11~2 ,Cl!~;",v an deLcrinmir,- tiie re-on. (if lincar v th(- :imit of th~, elfec' '~Ii:s 0 SlUdV -,_,w-'-C V:lv(1S :s. A 1. i ~j:n '_ie it ~,:o, rt 7 1-): C,.,d NV  L ACCESSION NR.: "5001050 of Hquid into the. lnvestif~ated rock sample. The oscillations passing through the sample are detected by a car."mic- piemoelcetrlu co-iverter a freqi,ency close to tl,e 11requency of Ule quartz plate and are fed to the amplifying channal of an electronic oc~cillllo p h ,~Vwo rwy- - F#- the d tec-. ,to~e-is--used-for--r.-.,casurL,ment of the amplitw4do df e ed oscillations. -detail" -ar it thwd-tbe,chan- in -Pu~thbrr n-the-app aWs are provided.* - L~ the expo inbhK!.-We --_Intc*t~_ of-the- -radiation of the quartz conve-fter by- a;'c6it-ativ-,Value~4ori-,tho-gdreen of the ainplitude (if tko~,~trasoalc ra rdetormining-the ~~esldts aAable,,' -Mg. -16s- F~ diho, -depen. -rLcd:6Vtjhq -2:o the- n r Mic tire Ys gyaphfu. d. relative ampl Itude of an ultrasonic w4vb Passing, thro_.~'iljf d-rock- 141;unple-on the inu(Riii~ of wave for limestone and porldotit-1 !lie curves show that r,.t rather high intensities, '_",cre is 'i non-nt2a.- ;_7._-i-_-~,.~!o-,c,- :-,r t-ypes bet-ween the ntcffs,,tv 2,n,.-! absorption of 'Llie u1crasonic wave. Ile p-oint oi . ippearance of L!ie nua!,:ie,,tr zz .~ differellL L.Ur. rooks For rocks wi*h a h~lgh absorption coefficient it begins ~(t=4.4-1, ovlxt/cm~).. tha~n forve-n-se- nm,*_4 tulp r peridu U Lo I = 1 . 2 - developing - ultra'sorlic apparatus Watt/cin ac rook6,a44,_Ih 016 mof3hod.for, -o- f-- -a 4s_ -of , If gal on o -0 aw nvc-,s r4easur men -C"d  ASSOCIATION: Moskovskiy institut radioclellitronild i gornoy eleldromakhaniki (Mc-scow Institut of Radioclecitronics and Mining Electromechardcs) to SUBMITTED: 16Nov63 EITCL: 02 SUB CODE: ES ---X6 RE OTHER-- 000  L 21,15i-6g, ACCESSION NR: AP-DO01050 7 ENCLOSURE, 01 -7 F'L(,,,. 1. Block diagram of the experimental appar-atus. I - voltage stabilizer; 2 - ultrasonic 3 u~trnsonic sourco; 4 raceiver; 5 oscillogyraph; 6 sample; 7 - bath with walci-. Cotd 4/5)  L 217,91-(r' ACCESSION NR.- AP5 UUV . KU 1 J's 2 0.5 06 1.2 1.6 2~0 0 0,4 EYCILIOSURE: .32 A i 1 Fig. 2. Dependence of relitive amplitude of an ultr sonic wave passing through a of (.),,cfflations. A. It W',Ittfi/cm saj~pjc on iritensity 5/5 190  RZHEVSKIYI V.V,., prof., doktor tel-lin.nauk; VAYNSINPOK, I.E., kand.tekhn.nauk; gornyy inzh, Ultrasonic impu'LBe do-Ace for Btud,7ing rocki3. Gor.zhur. no.1.72-73 Ja '65. OAIRA 180) 1. Moskovskiy institut radioelektroniki i gornoy alektrome~J:antki.  V". 'A 5 A lll.~;-, A !;i- nn m F I P-mly ryn rs .i- F4 -134 !36 dn-.j -z nfld U- ckhm TOPTC TAGSi glEk-9tip wave, camping faotor, Pcougtic frequencay, p --.1,stgat; -n ABSIRACT: Thp elactic damping of acountIcall -y jencrated vavcu ~n ror:ks was otl-idlel 'the 9:-hpmatic -)' the t-st !a ;31v~" in F:r-, )n 'hp Im - L 1, '.It b Z~r -1~ t)..1 t hT h L; I pia: A IC', e. !hp mu:mum pric"r a abo-i c 7- a ml F-,~GU tS '--jr!ep,~,,ndput c,~ the fibt3orp'-ve tj )f tho pa- t -ul ~i: -k -ar e - folllcT~~ng ratio is introduced: K. A.,-A,~, vh--rc A, ;F; Uie measured a.:n; t u J a, the raiiaton intena! u-,A k ~2~ the :rl "a' n D. 2' 1 t types -,f -D-KE~ ve:e C.,d  A,"CE-95101i fifi: kP5018209 P(.- T- PIn t1 t'. !~-th trunfrvpr~ii -in d !-)mv mn vrtrf- I -tntp Ing -rf, ~,)-ir-id,3rqtions thitt PL t--m! nal -,~-n-, ~r ~k -nrl A non inoar r. ffw~ t u wh; ch are aLogen t from, thm t riinsve -.4e- wqvp %!DP tud 0! q, q - hi.s 4 formuas, 2 fLgures, and I tauie. OSOCLAT1014i none SUBI M f TT.`.D :05jun64 -J~! - ~ IOl 110 RM' SOI: 003 UTHFR: 000 Card 2/3  L 63208-65 I -,N Mt~ 09018209  ----771;70076-6--67 v-."TT Vr(r"j- XCC RR-t-&66 0 -,100010061005816663 7 SOURCE CODE. UR/ h15/01' AUTHOR; Xamshchikov, V. S. ORG: Institute of Radio Electronics and Mining Electromechanics. Moscow (Institut radio7el ronIXI gornoy elertrom TITLE:~ Use of-the ultrasonic pulse method for studying the jstre~nth of rocks SOURCE: Fiziko-tekhnicheakiye problemy re7.rabotki poleznykh Iskopayerykh no. 6, 1965 58-63 TOPIC TAGS: ultrasonic wave propagation, ultrasonic inspection, compressive strength, carbonate, J0E!rAe04'0C')' ee.1957-10- J)E;rdRr"'9r1')1'j ABSTRACT: Data are given from an investigation of the strength of xocks determined on, the basis of one or several ultrasonic characterojistics. The specimens wereDcarbonate rocks from'the.Podol.sk deposit. The MIRGENI-I-VII 'trasonic pulse instrumentVwas used for measuring the acoustic characteristics of the specimens. Measurements of propaga- tion velocity were accurate within :t(1-2%). The mean square error in measurement of the attenuation factor was �10%. The experimental results show a pronounced increase in the rate of propagation of elastic waves with compressive strength. However, the extreme scatter in experimental data precludes the derivation of a strict relationship between these indices. The maximum strength of carbonate rocks depends on the rate of Card -&/o  L 00766-67 F_A_CC NR. AP60-2185 development of both elastic and plastic deformations up to the moment of destructi.on. The experimental data show that plastic deformations in carbonate rocks are associated with the plastic properties of the structureand the effect of porosity. Experimental stress-deformation diagrams were used for determining elastic and plastic indices of the rocks. Emp'A'.rical expressions are, given for the elastic limit and apparent maximum strength as functions-of the velocity of the ultrasonic wave and for the coefficient of plasticity as a function of the ultrasonic attenuation factor at a frequency of 500 kc. An analysisof these relationships shows that each of the acoustic character- istics is uniquely associated with the given types of deformation. These empirical formulas are used as the basis for deriving an approximate expression for maximum com- pressive strength of carbonate rocks in terms of the velocity of ultrasonic propagation and ultrasonic attenuation. This formula is satisfactorily confirmed by experimental data within an accuracyLof 1(10-25%). Deviations of the theoretical strength indices from the experimentally measured values are due to the fact that the strength of car- bonate rocks is a complex function of a large number of factors for vhich relationships are difficult.to establish. Orig. art. has:, 3 figures, 2 tables, 3 formulas. SUB CODE: OV SUBM RATE: llmay65/ ORIG PM: 007 Card 212  inzh. DmIDDTV, dotsent.; rf mckE and itls effect. on their drill ability 17y thermal piercing. Izv. ,ry3. ucheb. zav.; gor. zhur. 8 no.71 98-102 165. (VrPA 18r9) I., MOskovekiy institut rAloclektroniki i gornoy elcktromekhaniki. PPkom(.-r,dn,,ar,!) kafedrocy fi.zi~lx Forrykh pcrod,  L 04306-67 EWT(i) G1 ACC NR: AR6014575 SOURCE CODSs UR10169165)'~~161-1-160-16-IC~6iCi' AUTHORS: Yakobashvili, 0. PIL; Yamshch V. S, TITLE: Ultrasonic methods for determining the elastic parameters of rocks. SOURCE: Ref. zh. Geofizika, Abe. 11G121 REF SOURCE: Nauchn. tr. Moak. in-t radioelektroniki i gorn. elektromekhan., ob- 51, 1965, V-18 TOPIC TAGSi ultrasonic wave, ultrasonic wave propagation 5aoiBmology, seismic wave, earth crust I P.FrROA045*~' -/ ABSTRACT: Dynamic meth~pds for determining elastic parameters of rocks are based on mpasuring the distribution velocities of the elastic waves,,in specimens and may be divided into two groups!, 1) direct methods (ultrasonic imlalse methods) in which the time t needed for the distribution of a wave through a specimen and the length ~ of tl~e specimen are measured; 2) indirect (resonance methods) in which the wave length at a desired frequency f (corresponding to the oscillations produced), is measured. A comparison of the existing methods for determining the elastic parameters of rocks byithe ultrasonic impulse method is presented. These methods involve; a) sound diat~,ibution; b) the immeraional method. Both methods are briefly decoribod. It is concluded that, with the method of time distribution, only the velocity of longitudinal waves in a formation may be reliably determined. By using the immersion methodp the velocities of both the longitudinal and the transverse waves may be determined with sufficient, accuracy. From these, all the elastic constants of a given rock may be calmilated. R. M. granalation of abstraoy Card j/1 4A-"s COM 08  EVIT(d VEWP (c)/ L 44364-66 _EWP (k)/TjEWP(M)/RjP(1 T-IP(r) ACC NR, AP6011385 (A) SOURCE CODE: UR/0101/66/000/002/0020/0021 AUTHOR: _YA h kov. V. S. (Candidate of technical sciences); loqyumhkin, L. N. Engi- neer); Bondarenko, V. G. (Engineer); Sviridov, V. M. (Engineer) ORG; Moscow Institute of Radioelectronics and Mining Electromechanics (Mookov6kiy instiM-r=-oe-H~~g ~rnoy -ee t~rom~khanfkl); Podollak Comeif-Plant (Podoll- i skiy tsementnyy zavod) TITLE., The use of ultraeonic waves in the ~alitv control of carbonate rocks SOURCE: Tsement, no. 2, 1966, 20-21 1 TOPIC TAGS: cement, carbonate, quality control, ultra- sonic wave propagation ABSTRACT: The feasibility of applying ultrasonic wave propagation for quality controll of carLonate rocks to be used in the cement industry was investigated. A correlation between the mineral composition of the carbonate rocks and the rate of ultrasonic I wave propagation was established. Maximum wave propagation of 2500 m/sec corresponds to dolomite-free rocks. ror rocks containing from 0 to 16-20% dolomite, the ultra- i sonic wave propagation is 2500-2000 m/sec. The accuracy of the determination of the carbonate rock composition by the ultrasonic wave propagation technique is 12%. Be-_,,i  L 44364-66 ACC NRs AP6021385 cause of the high degree of accuracy and simplicity, the ultrasonic wave propagation method is recommended for use by the cement industry. Orig. art. has: 1 table. SUB CODE: 05A0,%%/ SUBM DATE: none/ ORIG PEr: 003 Card 2/2 hs ----------------- - --- ---  YAMISIICIIIKOV, Valnr~y Sergeyevic j~;_101EVSKIY, V.V., prof.,, doktor naucbn. red. (Ultrasonic arW sonic mothods of investigatIng rocks] U11trazvukovye i zvukovye metody isoledovaniia gorrykh porod. Moskva, Mosk. ir~-t radioelektroniki i gornoi elektromekhaniki, 1964. 70 p. (MIRA 18:5)  MIKHAYLOV, V.A., kand.tekhn.nauk; OKOLIZIN, Ye.P., inzh.; YAMSIICHI_ KOV, V.S., inzh. Uning conveyer-bolt tranaportation. Makh,I avtom, roizv. 16 no. 2:22-23 F 162. MRA 17:3)  !KCLV,-Yu.-, Work and people of the Ust' Donetsk Harbor. Rech. transp. 21 no. 10:22-23 0 162. (MIRA 15:10) 1. Zameatitell rftehallnika Ustl Donetakogo pft-ta. (Mits-Donetsk-Harbor)  24(4) AUT.4 ORS obreimov, 1,V. and Y=shchikov, Ye. F. TITLE: The Dispersion Curves of Chloroform ani Carbon Tetrachloride in a Wide Range of 'temperatures (F-,ivyye dispersukh1oroforms- I chetyrokhkhloristo6o ugloroda v shirokom intervale tomperatur)- PgRIODICAL., Optika I SpeVtroskopiya, 1959, Vol 6, ',,Ir 4, op 517-522 (USSRJ ABSTRACT; The present paper is a continuation of earlier work kHefs 1, 2). It deals with the dispersion curves Of 0014 and CHG13 between 2800 and 6200 A at temperatures from 0 to 770C for C014 and from -3 to +5300 for CHG1.3. The cell used is shown In Fig 1. it was made of quarte glass transparent in ultraviolet. It consisted of a solid piece I with two tubes for admission of the liquid (6) and removal of air (7), a spacer 2, a cover 3 and a special plate 4. The complete assembly is shown in the riF)t-hand oart nf Fi,,,- 1. The plate 4 had two parallel sides as shown in 1,ig 2. The light fell normally to the sides a and ctl and grated along the side ABGD. Irho side a made an angle of about 450 with side a. Consequently a and c formed a prism which doviated ray3 towards the base If )L1 < pq and towards the vertex when jil _), Pq (1L1 and uq are the refractive indices of the liquid in tho Ca rd 1/4 cell and the quartz ola-te respectively). A ray which missed the side C, ;4~  0011/51-i~-4-17/29 The Dispersion Curves of Chloroform and 3;;trbon Tetrachloride in a Wide Range of Temperatures and a ray deviated by c interfered with one another. The interference pattern could be seen by illuminating the quartt plate of Fig 2 with white light and fecuixt ng the shadow (Fig 3) of the plate on to a spectroscope a lit placed at riSft angles to the edge CD of the plato. The pattern in shown lit Fig 3 where tAe daric band is the shadow of the face c. The bright band which Intersects this dark band at A - X 0 corresponds to a ray deviated by the dihedral angle with the edge M A chain of oval spots, shown an 2 in Fig 3,is the Preanal diffraction pattern of a ray which grarou the side ABCD. The centre of the gap between two dark rpoti corresponds to the wavelength at -which vftere d Is the thickness of the layer studied and n is an intorger. Card 2/4 "Z~aa=- 71 '-::1 '- 0~  ZXV/51-6-4-17/29 The Dispersion Curves of Chloroform and Cirbon Tetrachloride in a Wide Ran~e of Temperatures When n = 0, 0 and the refractive indices of quRrts and the liquid are equal. From this the values of X and it, at n = 1, 2, 3... can be deduced ana the dispersion ctirve can bo constructed. The rogions between the oxporimontal values of it and X wore Interpolated by means of Sellmolers formula with three constants A + 13/(,92 V2) 0 The values of A, B and V o at 2000 are given in Table 1. The dispersion Of CC14 is shown In Fig 9, in the form of,&ji, = f(X), where L-111 = Pi - ii(t), n Is the refractive Index at 19-OOC and t is temperature. Similarly the dispersion of MIC13 is plotted In Fig 10 as a fQnctiona-A" = f (A), vihere 11" = 112 11(t), iL2 is the refractive index at 20.20C and t is temperature. Lines 1-6 in Card 3/4  The Dispersion Curves of Chloroform and Carbon Tetrachloride in a Wide Range of Temperatures Fig 9 and 1-3 in Fig 10 ropresent the diopersion curvon at viriouv temperaturos ; they confirm that a change of twiporature die placea the dispersion curves parallel to themselves. There are 10 figuros, 3 tables and 8 referonces, 7 of which are Soviet and 1 English. SUBMITTED*, May 29, 1958 Ca rd 4/4  68312 2-4,:3 q00 AUTHOR; Yamshchikov, Ya.F. S 0,1/ 51 - 6 - I - 11/40 TITM. The Dispersion Curve of GaseouE n-Pentane FERIODICALs Optika i spektroskoplya, 1960, Vol 8, Nr 1, pp 61-65 (USSR) ABSTRACTs. The paper reports determination of the dispersion curve of gaseous n-pentano and calculation of the oscillator strength f. The refractive index was measured usinr Jamin-typa interfaromater with fused quartz plates 20 mm thick Tubes 17~26 cm, lon&were placed in each beam. of the interfaromater. Una of these tubes was evacuated to below 0.1 nm Hg, the other was filled with n-pentana vapours. The ends of the tuber. were joaled ,~;ith thin sheotu of polythene or caprono (Fig 1). N-pentano was obtained from the laboratory of Academician B.A. Kazanskiy. A compound eource of light -,,;us used, consisting of an are between two iron electrodes vita a beam from a vory-high-pressure krypton lamp passing between the electrodes (Fig 3). Before measuramints the instrument war. calibrated by obtaininf, the dispersion virvo of dry air and comparing it with the reported weasur;nenta of Magg~)rs ani Peters (Ref 3); the two vats of results, agreed between 2500 and Ca rd 1/2 .5000 X. The refractive indox of n-pentane at 00c and 760 = lig was found to be 1.001780 for A = 5570.29 1. The dispersion curve, of  68312 The Disporsion Curve of Gasaous n-Pentane 0-1/5) -b - 1 - 11/40 n-pentane waa obtained between. 2330 and .5800 X. The axuarimental results could be fitted quite well to a Sellmaier curys (at 760 mn Rg a nel Or, G) 32 ~ A + BI(V2 - Y2), 0 .ihare A = 1.000"534', W2 (1: . 0 93.1340 x 108, B ~ 25.2124 x 10 The differencea batwian the Sal3maier and experimental values are shown in Fig "I. The value of B was uael to calculate the oscillator strength; it was fcuM to be f = 9,74. is made to I.V. Obral~mov for his advice. There are 8 figures , I table aW ~ reference:. , I of which is Soviet, I English and I Germ-PLn. SUBMUTUD; Junb 20, 1959 q1 Cara 2/2  S/076J60/034/012/026/027 B02O/BQ67 OTHOR: Yamshchikovj Ye. 'Tro. TITLE: Correction of the Refractive Index of n-Pentane PERIODICAL: Zhurnal fiziaheskoy khimii, 1960, Vol- 340 No. 12, p. 2845 TEXT: When-measuring the refractive indices of n-hoptane vapors in a wide range of wavelengths, & value )AD 0 1*001772 was obtained which considerably'differs.from the value of 1-001711 given in the Landolt- Borhstsin ta'bles.'Whou comparing the result obtained with datA by Friberg (Ref. 2) for:"M'sthanov ethane, and propane in the gaseous phase, it was found that the value of the refractive indices for n-pentans vapors lies on a straight line whioh corresponds to Friberg's data for methanol othaneiv and propane, Hence, it may.be assumed that the value given for the refractive indices of n-pentane vapors in the Landolt-Bol'rnotein tables can be replaced by the value PD - 1*001772 for t - 000 and a pressure of P - 760 mm Hg. Academician B. A. Kazanakiy is mentioned. There are 1 figure and 2 non-Soviet references: I Swedish and 1 German. Card 1/2  Correction of the Refractive Index of S/076j6O/O34/012/026/027 n-Pentane B020/BO67 ASSOCIATION: Akademiye. nauk SSSR, Institut elementoorganicheskikh soyedineniy (Academy of Sciances USSR, Institute of Elemental-organic Compounds) d SUBMITTED: Merch 5, 1959 Card 2/2  YMSHCHROV, Ye.F. Dispersion curves of a.perfluorobeptane and completoely fluorinat-M methylcyclohexane. Opt. i spektr. 12 no.6:793-799 Je 162. OURA 15:5) (Dispersion) (Heptane-Optical properties) (Cyclohexane--Optical properties)  YAMSHCHIKOV, Ya.F. Dispersion curves of n.pentane, isopentane, and n.octodecane. Opt. i spektr. 12 no.6s799-801 Je 162. (WRA 15:5) (Dispersion) (Hydrocarbons-Optical properties) jRV ~P N4  "Lambliasis iu the ketiology of Entero-colitis in Moscow Infitntsj, ard its Treatment." No. 3, 42-1+6, May- June, 19rO. 14 refs. A gro 1 of 71 children hetween the ages of 11- and 3 years wns coll~eted Ina special UP nursery beenuse they were all said to be suffering from chronic dy!;-.ntry,'hIch is not uncom on in Moscow. All these children were testel for lambliasis. Bar-ples of frosh faeces wereprepared in two w ys: (1) with physiclogicnl saline and 12) with Lugol's solution. In faeces from 40 children vegtative ard encysted from of lamblia intestin alis were found. This result w-,.s compnred with that of an invest'gation of 34 healthy children in another nursery, -iho had suffered from acute gastro- enteritis of different duraticn in the past. lambline w ro found in only 12 of these honlthy children. After a course of (acrikhJ.ne) (?mapacrine) for five days, DmnblJao w-,.ro still present in the faeces in half the number of childreh. "fter a socond course of acrUchine for 3 dpys(dosege scheme not given) a better res 'ult was obtrilned, but not a complete cure at all. The authors recomnend for irfinnts sufferin- an enteric from of lqnbliasis a full 5-day courso of ocrikhIne, and then two 3-day courocs with a 10-day intorvnl. All children who havo suffered from grstro-entaritis for any length of time, irrespective of Vnether they have hr-d dysertery- or rot,required repeatcd tests Sar lambliasis. AbstractlbjDf World Medicine, Vol. 8 1950. V,  " 0 Ussif/physics Technical Physics Card 1/1 Pub, 22 - 22/47 Authors : Finkellshteyn, B. N., and Yamshchikova, A. I. Title : Effect of.aluminum on the magnitude of interatomic silver bonds Periodical : Dok. AN SSSR 98/5o 781- 782, Oct 11, 1954 Abstract t Measurements were conducted to determine the concentration dependence of activation energy of Ag self-diffusion in an Ag-Al alloy. Thialvalue was found to be connected with the heat of sublimation, which is accepted as a wasure of energy of the crystalline lattice, by_ acertainiempirical- ratio, The- of feet-of 1ncrea6e---d--A1---c aht-ent 1--o --- n- -theela sticity modulus is explained. The effect of component valences on the interatomic Ag-bonds is described.~ Six references: 5-USSR and 1~.German (1949-1953). Tables; graph. 71116tiptutio-n- The I. V. Stalin Steel Institute, Moscow .Presented by: Academician G. Kurdyumov, May 18, 1954,  ]rIMLISHTEYN, B.N., professor, doktor fizike-matematichankikh nauk; JA HI- ,, RVA6&4&;* kandidat takhnicheskikh nauk. Iffect of alloy composition on interatomic bonds in alumiwim-milver systems. Sber.Inst.stali 34:36-47 155. (MLRA 9:7) 1,Kafedra fiziki, (Aluminum-silver alloys) (Silver--Isotopes)  YA14SECIUKOVA, A. I., FINKEI-SlITLYN, B. N. (Prof.) "The Effect of the Alloy Compound on the Inter-Atomic Bindirg in an Aluminum- Silver System," In book: The Application of Radiosotopes in Metallurgy, Symposium XXXIV; Moscow, State Publishing House for LiteraVire on Ferrous and Nonferrous Metal- lurgy, 1955. FINKELSTEIN, B. N. (Prof.), Dr. Phys.-Math. Sci,1 Chair of PLys1cs, Moscow Inst. of Steel im. I. V. Stalin; YAMSHCHIKOVA, A. I. (Ass t.) I  YAMSHCIIIKOVA9 A.I.0 kand.tekhn.nauk M017Wem=, njobjum on the properties of F,ffect of vanadium, 110yo. Metallovedenie 3:279-297 159 -a titanium alpha V,-.3) (Titanium alloys-44etallurgy)  mw All. lb A 101  SIIULfK]219 S.M., kand.tekhn.nauk; YAMSHCHIROVAI A.M. Properties of single.--phase weldable titanium alloys. Metall- cvedenie 3:358-366 159.- - 041RA 14:3) (Titanium alloys-Welding)  LX-OV4 K AW (;I USSR/Zooparasitoloesy - Acarina and InsecZ.-Vectors of Disease r7UMR/Zooparasi Acar Path Pathogens. tolo7gen Abs Jour Ref Zhur - Biol., No 3, 1958, 10098 G-4 Author NelIzina, E.H., Slinko, L.I., Kadatskays, K.P.., Ivanov, K.A., Yamshchikova, Kh.G., Poltavtsev, N.H., Skirda, G.I. List Title Ixodic Ticks (Parasitiformes, family Ixodidae) of Rodents in Northwestern Caspian Coast. Orig Pub 5b. tr. Astrakhansk. protivochumn. st., 1955, No 1, 416- 433 Abstract The fauna of ixodic ticks in the district studied is com- paratively sparse (5 species, more or-less, are numerous); individual specimens may be regarded as of Kirgiz and European-Siberian origin. Closest biocenotic ties with rodents are found in Ixodes laguri laguri and Thi icepha- lus schulzei. The first of these (steppe species' is con- nected with rodents who build deep, comparatively Card 1/2 u.3SR/Zooparasitology - AcaLrina and insect-Vectors of Disease 0-4 Pathogens. Abe jour Ref Zhur - Biol., No 3, 1958) 10098 permanent burrows (susliks, hamsters) and is surmised to play a substantial role in the epizoology of tularemia and some ricketsioses among susliks, hamsters and field mice. Rh. schulzei inhabits semideserts; its principal hosts are the small and yellow susliks- cgrd 2/2  NOBRIIISKIY, A.Ye.; SHLYAKUTIN, A.Y.; YAHSHCHIKOVA, M.N. ~.-- -.1 1 ~ - vl zl,__,. ~.., -- . Vibrationn of nonlinaar systems caused by periodical Impacts. Trudy Inst.mash.Sem.po teor.mash. 18 no.70:49-67 (MIRA 12:1) (Vibration)  XOBRINSXIY, A.Ye.; SHLYAKHrIN, A.Y.; YVISHCHIKOVA, H.N. Theor7 of vibration Impact machines. Trady Inst. mash. Sem.. po teor. mash. 20 no. 79:27-43 l6o. (XMA 13:12) (Vibrators) (rmpact) qi,V  Emu YAMSHCHIKOVA, M.N. Periodic movements of a vibratory-percussive s7aten at varir,~ls recovery coefficienta. Teor.maah.i makh. no.105/106:50-61 165. (MIRA 18:  YAMSHCHIKOVAj M.A., inzh. Device for boring guide headz of side rudders. no.12:62 D 61. (Steering gear) Sudostroenl 'e 27 (MIRA 150:1) j  MALINIKOV, S.A.; GORBACHEVAI F.Ye-; jq~gq~A t.A. Use of exercise therapy in progressive muscular dystrophy* Trudy 1-go MI 24203-212 163 (MRA 17--3)  POROKHOVA, V. Ya.; YAIMHCHIKOIIA, N.A. Exercise therapy in hysterical paralysis and paresis Trudy 1-go 19-11 24:344-352163 (1,16A 17:3) RMIRM2-" -P. m-qg  t, r . i, t " , -r mri r OP k 1A r 6 3 pr~~r. V.v. my Tin r. -,-Jr 4.2t;, T',  I V F I r YAMSHTEKDI, S,,L,., Bffect of the -onlatal structure on the singing voice Lvith sumruq2!~v in KnrliahJ. iest.oto-rin. 19 no.6:88-91 M) 157 (XIRA 11:3) 1. lz Llvcyvskogo logopedicheskogo i fonlatrichesl-ogo dispnnsern. (PALATE, anat. and histol. eff. of structure on votes in singing) (VOICE eff. of palatine structure on singing)  TAMSHTZKIff, S.L. --------------- Influence of the structure of the palatal arch and of the ep1glottic cavities on the function of the vocal apparatus. Stomatologiia 38 no.5.-48-50 S-0 159. (MIRA 13:3) 1. Iz Llvovskoy gorodskoy stomatologicheakoy polikliniki (glavnyy vrach V.G. Starodubtseva). (PALAT11) (IFIGIMIS) (VOCAL CORDS)  AUTHOR: SOV/109-3-12-10/13 TITLE: Diffraction of a Plane Wave on a Wire Grid Situated Inside a Dielectric Layer (Dij'raktsiya ploskoy volny na provolochnoy setke, raspolozhennoy vnutri dielektricheskogo sloya) PERIODICAL: Radiote khnika i Elektronika, 1958, Vol 3, Nr 12, PP 1516 - 1518 (USSR) ABSTRACT: The system considered is shown in the diagram on p 1516. It consists of a wire grid situated inside a flat dielectric layer having a permittivity e . The distance between the wires of the grid is d . The radius of the wires is e . The thickness of the dielectric layer is 2r and cc is the wave number. Technically, the most important case is when the grid is situated in the middle of the layer. Assuming that the wires of the grid carry currents I the field ex^,ited by the currents when r - 0o can be written in the form of Eq (1) where a' is the wave number in the dielectric. At a great distance from the wires, the field can be written as Eq (2). The field at the surface of the wires can be written as Eq (3), where Rk is defined by Eq (4). Consequently, the field Uardl/2 produced by the grid outside the dielectric layer can be  SOV/109-3-12-10/13 Diffraction of a Plane Wave on A Wire Grid Situated Inside a Dielectric -Layer written in the form of Eq (5), where Tk is the trans- mission coefficient of the wave through the dielectric-air boundary, which is defined by Eq (6). If now a.plane wave impinges on the grid (from the negative direction of the axis x) the field in the plane of the grid is expressed by Eq (83, while the field transmitted through the dielectric is given by Eq (9). The above equations permit the complete solution of the problem; thus, the transmission toefficient of the system which is defined by Eq (11), can be expressed as Eq (12); the functions Fl, F2 ~nd F 3 of Eq (12) are defined by Eqs (13), (14) and (15). i"here are 1 figure and ~6 referezices, 3 of which are Engli&, I German and 2 Soviet. SUBMITTED: ..October 4, 1957 uard 2/2  B/717/62/000/007/009/010 D207/D302 AUTHORSt YaMyjqahevj A-V-j Candidato of Technical Sciences# and .Zubkp. AgM., C"didate of Physico-Mathematical Scionoon TITLE: The'effeot of melting in vacuum on the composition and properties of metals and alloys SOURCE: Dnepropetrovsk. Institut metallovedeniya i fiziki metallov. Problemy metallovedeniya i fiziki metallovt no. 7P Moscow# 1962, 450 - 471 TEXT: The authors report a series of experiments, started in 1955P on the effect of vacuum melting in induction furnaces on properties of metals and alloys. Tests on electrolytic and Armco iron showed that simple remel 'ting at 8 x 10-3 mm Hg removed most of the hydrogen and addition of carbon to the melt reduced the oxygen content by a factor of 59 even at 0.5 mm Hg- Heat treatment at 1600 - 17500C at 10-3 - 10-4.,mm Hg reduced the sulphur content only slightly. Armoo iron heated in a vacuum showed strong evolution of 00 before melting and of hydrogen after melting and during pouring. Work on the ball- Card 1/2,  S/7 1'7 "42/000/007/009/010 The effect of melting in vacuum on D207YD3r'02 bearing steel WX 15-(BhKhl5) was carried out together ti!Lh another laboratory in the author's Institute. lt was found tha:,; ShKh15 steel with.low-oxygen andglobular phase content could be obtained by melt- ing together commercial iron and electrolytic chromium in vacuum and by adding carbon before other admixtures (All Si). Simple remelting in vacuum reduced considerably the amounts of residual manganese, oxy- gen and nitrogen in ihe ferrite steel X28 M28), Addition of carbon.-.,,' to Kh28,m 'elted in~va6uum improved considerably its impact strength. Strongre.duction of the oxygen nitrogen and non-metallic content, and an improvement of mechanical.properties were obtained for the steel 18XHBA -(18YhNVA)' by preparing it in vacuum. Residual nitrogen and hydrogen could be red-doed very considerably in nickel tiy melting in vacuums Aokno~iledg*ements'are made to M.M. Fillipychevap L.M. Slavina and S~N#,Y6darovv all of whom took part in the* expeiimental work, There are 5 figu~oat 14 tables and 8 referencest 2 11oviet-bloo and 6 non-Boviet'bloc. The references to the Bnglish-langiage publications read as follows: Dastu and I, Chipmanp J. Metal Trai.s., 41-49, 1949; I.A. Oordier~and I* Uhipmant.Jo Metil-Trans.# 7, 90~-9179 1955; It. Binderr K.,Hevard and H. Upendelowl trans, ASMj 43P 95# 1951, Card 2/2  YAMZIN, I. I. CAND PHYSICOMATH SCI Dissertationt *Atomic Decay of Electrons.* 2 March 49 Inst of Crystallography, AC2d Sci USSR. ';0 Vecheryaya Moskva 4, Sum 71 i P,-  MIZIM, 1 01 Electrons Atcmic scattering of alectronsi verification of 1A-ds of atomic scattering of electrons according, to intensities of electron diffraction patterns. Trudy Inst. kxist. no. 5, 1949. Monthly List of Russian Accessions, Library of Congress, December 1952. Unclasmifiedo  AVr Crystall.ography FIlms, Deposited "Mxperimeental Verification of the Theory of the Elastic Scattering of Fast Electrons," I. I. Yezzin Z. G. Pinsker, M3,st of Cryst.. Acad. Soi USSR, ~ PP' "bok Ak Nauk SSSR" Vol =V, No 5 Measured. intensities of Interference maxirffm frcm vol,7crystallic films of Al, Cu, Ag, 'A4, betazS37, -Z:Q, and Mg on el.actrograms. States.that absence of azq connection betveen thickness of'saqnple and correa- ron&Ing theoretical and. experimental intensities IM 39/49T:LO6 VSSR/Physics (Contd) Apr 49 indicates absence of dynamic acittering'in these films. Thua, Justified. applicability of theory of attomic scattering and ]cinematic theory of scattering in crystal lattices of light and quite heavy elements during passage of electrons of 38-to 56-kr energies through fil- of average thlokne as up to 5. lo-6 cm. Submitted. "by Acacl A.' Al. LablvAev, 24 Jan 49. low 39/49T106  US'sR/physics - Microscopes, Electron Feb 50 Electrical Equipment .-High-Voltage Apparatus for Electronography," 1. 1. Yamzin, Inst of Cryst, Acad Sci USSR, -4 pp *Zavod Lab" Vol XVI,, No 2 Two basic types of high-voltage apparatus (50~kv) 10 am designed mainly for use with electron micro- scopes. First type is modification of ordinari roentgen apparatus. Second type-, uses principle of rectification of HF current from tube genera- tor, and is extremely expensive and complex. S:~m- plified.type invented by Yn.-in uses principle. 19c)T86 UWE/Physics, - Microscopes, Electron Feb'50 (Contd) of amplification of audio-frequency oscillations produced by tube generator with voltage amplitude at,amplifier output of 100-150 v. This voltage is raised to 30 kv and rectified by kenotron rectifier. Use of relatively lov-frequency current permits e.J:L- mination of power losses in various circuit elements, simplification of construction, and use of standard radio tubes and parts. Claims 10-12 hr/day opera- tion for over a year under use vith electronograpb. 0-1-0.5 ma with operating voltage of 45-55 kv. only Vervice necessary for this period was tube replace-  )see S ~WILI 12~;-A oldhe =t:t oil the my-11thtill I I"M . ZrM,, fg the incits. 'rho! tspis. made In Russia, 9TIAlul United Sum, suit jap4n are outlined In their Impartanc; for,the rct An 4 d, cord. stilution of the pmbkms ,l,ed licl=nt Inv Ififfmnt malsots is illwusseel for the licoduedull of bigh-quality tlvvtfutcvh~ 111*111.111ir ittit-A mmefial. The littarfil" 44 RuAms awltots, c.1w. I 61tv tit K11111.1whity, Nforodevit.h. tatuf 11, 11, ("gisof ',r% Gw luving 1i%,ijivrt%I the o-timt stic(litiol. tit itsk-A withei. k Vito  "Lattice Structure of Silicon Oxide Tetrahedrons in 1,11ca' Irr, in-ta Kristnallogr. 1--'T SFSR, (1953, 121-13h) The usual -assLunption of hexaGonal 5ymetry of silicon oxide tetrahe0rons in mica seems to be irrongg. The distance K - 0 3hortens, if the lattice Is t'Lltrigonal, which occurs at a certain inclination of tetrahedrons. The distance K - 0 and the dimensions of an elenentary cell cor~puted under this assumption are in good m3reement with experimental values. (RZhFI7, 11o 9, 1955) SO: Sum-No 787, 12 Jan 506 """N --4  T. !., T. I. 2. USSR WID) I,. Chemistry, 1"Juilytical 7. New method of qualitative chernical analysis, Priroda 42, no. 3, 1953. 9. Monthly List of Russian Accessions, Library of Congress, Mlay -1953. Unclassified. kj~ 777  StaWization of the T mrw!vitare Cotditim5 of Medde 11 Rnsistanco Furnam. V, V Wrnikovokil antl 1. 1. V (7inthIJap bibor,stori!r., V, (4), Ituminn]. A tnipmature riw,pflmting tarangTmIolkt, ouitablo Nor resi-anitet, furnEtces ,vor~zzig nt high tAiriperaturtm (1504- C?, il FOr JY PlIrbOll-010111CM fUnlaCO 010 power was Ic-)I)L within :f- a).0- ~Juimd In "~n valwo~ /a OT P-Z,  Iattice structure of silicate tetrahedra in micas. Trudy Inst.krist. ,no,9:251-258 '54. WM 7:11) 1. Institut kristallografft Akademii nauk SSSR. (Mica) (Silicates) (Crystallography)  YAMZIN, I.I. Orientating action of a magnetic field on the growth of dia- and paramagnatic crystals. Trudy Inst.krist.no.11:206-211 155. (Magnetism) (Crystallography) (MIRA 9:6)  r - --------- I Ito I Structure and morphological Ptctli atit!i Of IIU0iOiih!04OPiFL and teulolite. iN. V, A. TIA(l WINA, T. 1. LI-Y-1111 1.11, IM: I -- F, N. (Milichr., tvi, FA 141 -115-24 (I9.`o._1l-T1%11 diffilcia mi~~vk werk, ~311111(74zed, flimr, yIII, og"pile, KNIg, i.Si Alij,.il;- (1,, 4114 t'lli". lilt:, (111, haviiij the orm- ture. The Illica, IVITV 44,taill"I by C .f a liwit of tim. Ifilro: oxi1v, illid 1111"ridei i!1 ~t,,idli.wvvtric lor"JU-16,115. Nf- rk-ruiltial fla-rillA allj?)'A4 "I tfic triviii 3iclilvil )JI-11ijig Inoilit" (of 1:111), J: 5'c. -.111d 1185' = Vc, f(Atild X-ray niea~lirviiwlit (of ititurplaite ttk(aiiev~ t4lutiA the ;.11x vjIlles as ill Vuri,,ws witural mica-; ,f the I type; valties t)f di,tatice~ it, b,r., and c %%trefi.32,916, 1041: -Iwi I0.2,m;jwclivcIv*, thestunw. elillic angle was I(Xi". Tho: synthe'i ml !4lowed 111) 01:111ge ill 'tilicture Mien Ileattd fro'lli ro"Ill tonitc-rattirc Ito Iffi.W C. fr"Ill file rA,%Vrjer X ray ill contrast I .. 11 :1 tilral 11111'.g- --pice, Oplical properiks wcre ny. " 't, itild 11", 11:1ving Vattles (or I..&If), 1,54~4, allo ).5V, respectively, fur 1 1110 1.510, I..'AO, atilt L513 fior 11. Bireiritige:ice i%a% 0 41 atilt [lie angle 2 V wits nearly Q. U wai traltip.'Areill: it] the visible r:jjige alx>vc 270 my. INItirpliolorical characterktici shown reveal the spiral nt "mv disl,watiwts. Star 212 encrs, 'a //I/, USSR/Physical'Chemis try. Crystals. Abs Jour: Ref Zhur-Khimiya, ljo 5, 1957, 14548 Author V. A. Timofeyeva,j. I. Yamzin Inst Institute of Crysta-1_ro-gFa-phV- ,Title The. Pormation Of Corundum and Spinels from the Phase _ Gaseous Orig Pub: Tr. In-ta kristallogrot All SSSR, 1956, VYP 12, 67-72 Abstract: Card 1/1 In conducting experiments On the crystallization from the fusions Of mixtures of oxides and fluorides at a high temp. there was discovered from the gasaous phase, depending on the composition of the batch, the -formation of crystals of corundum, MgO-A120.3, ZnO.AI.20,,, Zn01 MnO-Al2O3j Zno-Fe2o,3* The form of.crystals is described and the values Of coefficients of hardness and refraction are given. The derivative products ware care- fully dehydrated and the authors believe the reactions Proceed without the participating water, in contrast to the assumption made previously (Lacroix A., Bull. soc,, min., _188?, 10, 157-1-58).  application po roatu kristallov, 1956 Moscow, Izd-vo g 11; oil AN SSSRt 19579 277-286 'TEXT: The present work is concerned with some results of the fluorophlogopite and teniolite, ....atudies on the crystallization o: -ou.t.-,in-Laborato.riya-morfologii kriatallov Instituta '"~,:'-'--kristallografii (Laboratory of .Or yetal- Mor-phol-o-gy of,the Orystal-i ~:...,.lography Institute) on-50 - 100 g melts. Some results are given :of analogous work on 1 - 5 kg melta, carried out at Laboratoriya prirodnoy i iakusetvennoy elyudy VNII aabeetteementa (Laboratory of Natural and Artificial Mice, of the VNII of Asbestos Cement). -The_ o i charge-campoffiti-ons were I j. Card ..1/3  3/564/57/000/000/020/029 Synthetic' micas... D258/D307 XF - 0 5 119P 2.5 M90o 3SiO 0 5Al 0 2 2 2 3 f or fluorophlogopite and KF LiF 2MgO* 4SiO (2) 2 for teniolite. These compositions gave crystals free from glass, foraterite, mullite, etc. The--best results werg obtained when ~(a) fluorophlogopite was heated rapidly to 1380 C, held at this temperature to complete the fusion, and slowly cooled to below CrystalWation temDerature;.(b) teniolite waa heated rapidly to 1210 0, held,until molten and slowly cooled. These heating regimes avoided losses of volatile components,,,. The resulting 2 crystdle were-upto 10 cm, -X-105 mm9and were of--sufficient quali-'-', ~.ty for some of their physical, chemical, electrical and mechanical. ~properties to be measured and compared with those of natural micati, 'The crucible-less method of fusion was auccessfully tried#: ':,To-prepare.ceramic products djI the synthetic micas were ball-mille Card 2/3 _7 ~7~  .3f,  AUTHOR: Yamzin, SOV/70-4-3-25/32 TITLE: An Apparatus for Neutronographic Structure Analysis PERIODICAL: Kristallografiya, 1959, Vol 4, lir 3, 1v 1123-425 (USSR) ABSTRACT: The diffractometer described was designed specially for single-crystal work and has dimensions similar to those used in X-ray apparatns. Ix consists of crystal mono- chromator, collimator, spectrometer and recordizig apparatus, A Soller alit system made of Cd plates is used and.gives a divargenco of about 201. The Is onochromator, a single crystal of Pb cut obliquely at 6 to (111) is fixed to the reactor wall. and works at X = 1.1 A with e = 11o. This reduces the X/2 component to a minimum. The spectrometer is mostly a GUR-3 goniometer as used in the URS-50I diffractomoter, but the counter and shielding weigh ^--*30 kg and have to be separately carried on a.ring outside the goniometer. The angular settings are remotely controlled by selayns. A proportional-, BF 3-filled counter shielded by 10 cm of paraffin and 3 cm of B 4C is used. The Cardl/2 counter has a single slit collimator of Cd with a divergence  SOV/70-4-3-25/32 An Apparatus for Neutronographic Structure Analysis of 201. A monitoring, counter czan bo put into the direct beam. The electrical equiptaent cousists of a VSE-2500 HT rectifier, 3 identical counting chanitcl,,~ The cowiters are itm-ziediately fullowed by 6Zh2B cathode followers lea:O-iiig to AD-I amplitude discviminators, each having a prc- amplifier raising the slgrial Invol. bY 30 db. The unit8 are: PS-64 counter, RYa-,l rate moter, EPP-09 mech.- anical counter and in-corder. A specimen curve from a I mra3 KC1 crystal is sho%.rr,. There are 2 figures, and 3 references, 2 of which are Soviet and 1 English. ASSOCIATION: Institut 11ristallografii AN SSSR (Institute of I Crystailography of the Ac.Se.USSR) SUBMITTED: X~arch 20, 1959 Card 2/2  mmi, I.I.; nom, Yu.z. Adjustmont of Onp.,le-cry A , stal, nnerim rn enr nmitron diffraction study. KriettUografila 6 no.3-.471-473 My-je 1()j. (MIRA 14:8) 1. Institut kristallografil Ali SSSR. (neutron diffraction crystallography)  S/07o/61/oo6/O06/oo4/oo8 E132/E135 AUTHORS: Nozik, Yu.Z., and Yamzin, I.I. TITIE: on the structure ~F ~manganese ferrite PERIODICAL: Kristallografiya, v-6, no.6, 1961, 923-924 TEXT: Manganese ferrite of composition MnI.03Fel.9704 has been examined by neutron diffraction at room temperature and above the Curie point. Single crystals were used in the forms of 6 mm diameter spheres, 60 reflexions being obtained from the zones Clio] and (loo]. intensity measurements were accurate to better than 5%. The oxygen parameter U was found to be o.26o�o.ooz and X. the amount of inverseness, determined by the proportion of Mn ions in tetrahedral positions, was found to be 0.80to.04. Intensities were corrected for secondary extinctions the angular disorientation of the mosaic being 1.34. Tables of observed and calculated intensities are given for nuclear and magnetic contributions to the scattering. The magnetic moments were !A0 = 4.6o)L, (T = 4.2 OK); 111octl-'=1"ted'~ 3'1'3"P (T = 296 OK). Card 1/2  On the structure of manganese ferrite S/07o/6i/oo6/oo6/oo4/oo8 E132/E135 The disagreement coefficient was 6.0%. Acknowledgment is expressed to Academician N.V. Belov for advice. There are 1 table and 5 references; 1 Soviet-bloc, I Russian translation from non-Soviet publication and 3 non-Soviet. The English language references read as follows: Ref.l: J. Hastings, L. Corliss, Phys. Rev., Vol.104, 328, 1956. Ref.3: Hamilton. Acta crystallogr., vol.io, 629, 1957. Ref.4: Hamilton, Phys. Rev., Vol.110, 1050, 1958. Ref.5: H. Lipson and W. Cochran. Determination of Crystal Structures, 1953. Russian translation, Moscow, 1956. (Opredeleniye struktury kristallov. p.86) ASSOCIATIONi Institut kristallografii AN SSSR (Institute-of Crystallography, AS USSR) SUBMITTEDs June 27, 1961 Card 2/2  YAIIZIN# I.I.; NOZIK, Yu.Z.; BELOV, N.V., akademik Neutron diffraction study of the cubic modification of PbF2. Dokl. AN S.SSR 1)8 no.D110-111 My-Je 161. (MM !4-4) 1. Institut kristallogritii AN SSSR. (Lead fluoride)  AR "I I 1z .~ 2 vu ., R 4 0 to a 5~n 0 A 4A twat m4 A V, 5 oil o  S/070/62/007/001/006/022 E132/E46o AUTHORS: Yamzin, I.I., Staritsyn, V.Ye., Nozik, Yu.Z, TITLEi A small -s cale neutron diffractometer PERIODICAL: Kristallografiya, V-7, n0.1, 1962, 72-76 TEXT: The mechanical and electrical construction of a small diffractometer (consisting of a table for the crystal specimen and a swinging arm for the counter) is described. It follows the traditional Bragg spectrometer design, the counter arm moving only in the equatorial plane. The two rotations necessary are provided by selsyn motors connected to the work drives through magnetic clutches. A timer controls the rates of rotation. The instrument L"-/ was tested under typical conditions which were: polycrystalline specimen of Be2SiO4, 10 mm in diameter and 30 mm high; enriched BF3 counter, followed'by cathode follower, pulse amplifier and discriminator, counter, integrator and pen recorder forming one channel and a second channel monitoring the primary beam after the Pb monochromator. The primary beam was formed by Cd Soller slits giving a divergence of 201; the Pb monochromating crystal had a mosaic spread of 201 and was cut at an angle of 60 to the Card-1/2  S/070/62/007/001/006/022 A small-scale neutron diffractometer E132/E460 (111)planel there was a further Cd'Soller alit Collimator in front of the counter, 100 mm long with an acceptance angle of 201. The record of the powder trace shows a line half-width of about 201 at 0 = 150, The device was constructed by Laboratoriya struktury kristallov (Laboratory of Crystals Structure) and the konstruktorskiy byuro (Planning office) of the Institute of Crystallography AS USSR. There are 4 figures. ASSOCIATION: Institut kristallografii AN SSSR (Institute of Crystallography AS USSR) SUBMITTED: March 11, 1961 Card 2/2  IIOZIK) YU.Z.; YAM111, I.I. Measurement of the integral intensities of diffraction re- flections. Kristallograftia 7 no,1:123-124 Ja-F 162. (MIRA 15:2) 1. Institut kristallo afii AN SSSR. FlIeutrono-Diffraction)  S/070/62/007/006/oi6/o2o E132/E435 AUTHORS: Kuzlminov, YU.S., I.J., Belov, N.V. TITLE: The magnetic structure of yttrium,ferrite PERIODICAL: Kristallografiya, v-7, no.6, 1962, 946-948 ions were made of poly- TEXT: Neutron diffraction examinat Fe5012 at room temperature and at crystalline specimens of Y3 3000C, which is above the Curio temp,erature. Very good agreement was obtained between the observed and c*alculated intensities. The nuclear contribution was calculated from the structure of S.Geller and M.A.Gillio 0. Phys. and.Chem. Soc., V-3, 1/2, 1957). The magnetic contribution was calculated from Neel's model in which the spins of the Fe... ions occupying the octahedral Oositions (a) are antiparallel to the spins of the Fe+++ ions in the tetrahedrAl (d) positions. The ions in (a) positions were ascribed a room- t emporn t ure magnatic moment of pn = 4.6011B and the ions in (d) positions - lid = 4.16 iiB. It was assumed that at OOK the moment of the Fe+++ ions was 5 ILB- The parameters assumed were: (in the Bpace group Ia3d) 0 in general positions with (x,y,z) (-0-0247, 0,0572, 0.1492); 1/2  5/07o/62/007/006/016/020 -The magnetic structure ... E132/E435 Y in 24(c) positions. There are 2 figures and I table. ASSOCIATION: Institut kristallografii AN SSSR (Institute of Crystallography AS USSR) SUBMITTED: June 81 1962 Card 2/2  S/07o/62/007/006/017/020 E073/r.335 AUTHORS:- Kuzltttinov, Yu-S., Yamzin, I.I., Malltsev, Ye.I. and Belov, N.V. TITLE: Determination of the amplitude of Raman scattering of thermal neutrons on yttrium nuclei PERIODICAL: Xristallo.-,rafiya,.v- 7, nos 6, 1962, 948 - 949 TEXT: The atlas of Hughes on neutron cross-section gives the -24 2 value o, (8.0 0-3) x 10 cm It can be calculted from this value that b 0.8 X 10-12 CM. 'I'liere was some doubt about Y this value since ;the references given by klughes did not contain information on the scattering of neutrons on yttrium. The authors of this paper determined b Y from the measured intensity of neutron diffraction on polycrystalline yttrium oxide, using a 15-nit'll diameter, 70 nun high specimen pressed from powder of a grain size between 1 and 5 ji, The value of b was determined from, tabulated l') Y values of b 0 0.58 X 10- CHI2 and the structural model of Card 1/2  S/070/62/007/0()6/017/020 Determination of o ... E073/1035 yttrium oxide, as publi3hed by W. Zacharin3en (Worsic. geol. t ids zkr. 9, 510 - 316, 1926; Struct. Rapt., 16, 218, 1952). The average of three measurements of the amplitudo of the Raman scattering was 12 by = (+o.816 + 0.07) -.- 10- en . There is I fi*guro. ASSOCIATIONS: 'Institut kristallografii.M SSSR (Institute of Crystallography of the AS USSR) Fiziko-telchnichaskiy institut AN SSSR (Physico- techni6al Institute of the AS USSR) SUBMITTED: June 8, 1962 Card 2/1-1  3/070/63/008/ool/oo4/024 Elu/B46o .',AUTHORSt Kuzlminov, Yu.5p, J~~mzinj I.X,j Belov, N*V# TITLES A neutron dirfrac'tion study of an yttrium-neodynium ferrite with the garnet atructure Pr.,RIODICAL-. Kriatallografiya,'V.8, no.11 j.963,'21-24 TEXTS -A polycrystalline specimen of composition 1.5 Y203 1.5 Nd203 5P0203, prepared by ceramic ' t.4chniques was examined at room temperature and at 3600C (abode the Curie point) by neutron diffraction. The wavolength wan 1.111 R.,Pautbenet O.Appl.Phys., V-30, no-4, 1959, ~90) pror~osed a Bcheme of interactions for gArnet structuren of,com osition 3M2035FG205 - J:ollowing Neel's analyst,% of spineis. ~ re ioni are iii l ~ d iti t h 6 ona e ra Fe ions are in, etra pos octafiedral positions WaY, 24(d).'and 6 rare earth ions are in 24(c) positions wit4 coordination 8 (tetrag. anti-prism). fie proposed that the sub- lattices a and A had a strong negative exchange interaction and' that the sub-lattica c wasmagnatized anti-paralInI to thOl resultant moment. The interaction c-d is weaker than a-d..: K.P.13~lov and L.A.Malevskayal on the other haind, suggested that the c sub-lattice was not ferromagnetically ordered (Izvo AN Ser",fizo' Card 1/2 . ....... .  S/070/63/'008/001/004/024 A neutron diffraction 9132/z46o v..25 no.11, 061, 1371-1375). The latter nuggeation is here :.shown experJmcntAlly to be correct. The chemical unit cell van an(I oxtra lines were not cubic., 1a3d I with a z; 19 48 9 1 -observed. - Tbe intensities were 'incasured, and were also calculated. :.The.differences between the intensities above and below the Cur point gave. the magnetic contribution which was compared with th-L calettlAted-from two sub-latticom (Bolov) and from three (Pauthenet). Very good agreement with 1jelov1#3 model waa obtained.' The C.071clusion was- checked by examining t4 specimen of composition .5 Y203 I . _5 IM203.5AI203 which should Fshow extra lines if the NO ~veire ordored these were not found. Thero are 2 fir ASSOCIATION: Institut kristallografti AN SSSR .(Institute of Crystallography,AS USSRV SUBM17'rZO: .,kugust 9, .1962. 0~ ~!' -r:4