SCIENTIFIC ABSTRACT J. DOBRZENIECKI - G.F. DOBRZHANSKIY

DOBRZLWIECKI, Jozef, Mr 060.  MATZ, Laszlo, dr.; DOBZSEVICS. Sandor. dr. Cyst originating from the urothele germ. Magy.noorv.lap. 26 no./+: . 238-239 J1 '63. 1. A Nagykanizsai Varosi Tanacs Korhaz (igazgato: Fendler Karoly dr.) nogyogyaszati os-.talyanak (fBorvos: Gedeon Gyula dr.) k76zlemenya. .A.  D.OBRZHARMYA, A.K. 0 - ~-- Studies on the higher nervous function (first and second signal systems in Iteanko-Guehing disease. Zh..vyaehei nerv. deiat. 3 n0-1:119-129 Jan-Yeb 1953- (CLKL 24:2) 1. Institute of Psychiatry of the Ministry of Public Health USSR.  DOBRZHANSrATAI, A.K. Pathophysiological mechanism of certain psychic changes in Iteenko-Oushingb disease. Klin.med. 31 no.3:55-60 Mr 153. (MLRA 6:5) 1. Institut psikhiatrii Ministerstva zdravookhraneniya, SSSR. (Pituitary body-Tamors)  Characteristics of cortical function and correlations between the signal systems in acute phase of schizophrenia. Zhur.-rys.nerv. deis,to 4 no.4:502-511 JI-Ag 154. (MIRA 8:3) 1. Institut paikhiatrit Ministeretva tdravookhrananiya SSSR. (SCHIZOPHRENIA, phyeiolog7, cerebral cortical functe & correlation between signal systems) (GXFXBRAL OMTU, In various diseases. schizophrenia, cortical functs & signal systems)  DOERZHANSKATA, A.K.. nice of the restoration of disorders in the interrelatica of the first and second signal systems in reactive states [vith Inglish a a Zbur,vysenervedsiat. 6 no.5:663-671 S-0 156. ummary in insert] (KLBA 10:2) 1. TSentrallnyy naucbno-losledovatallskiy Institut sudebuoy paikhiatrii im. prof. Serbskogo. (HrSTZRIA, physiol. cerebral cortex activity & interrelation of first & second signal systems) (CIRIML CORM, in various die. hysteria, cortical funct. &'interrelation of first & second signal systems)  DDBRZHANSKAYA, All.L, kand. mod. nauic. ZoFi-s syndrome in Itsenko-Cushing disease. Ptobl. endokr. i gorm, 4 no-5:85-88 S-0 158. (NIBL 11:12) 1. Iz Institute, polkhiatrii Hinisteratva sdravookhrananiya SSSR (dir. - prof. D.D. 7edotov) i Veasoyuznogo instituts, eksperimentallnoy endokmi- nologii (dir. - prof. Ye. A. VaBYUkDV&)& (KMA Is SYN31ROMED comple Cashing synd. (Ruz)) (CUSHING SYMMME, compl. XDrsakDff's synd. (Rue))  DOBRZEEARSKAYA, A.K., kand.med.nauk (Mockya) Mental disorders in Itsenko-Cushing's disease Evith summary in Buglish]. Probloendoke i gorm. 4 no.6:56-61 N-D 158- (MMA 12:2) 1. Iz rnatituta peikhiatrii Ministerstva zdravookhraneniya SSR (air. - prof. D.D. Fedotov) i Vsesoyusnogo instituta eksperimen- tallnoy endokrinologii (dir. prof. Ye.A. Vasyukova). (CUSHING'S DISR M compl. mental disord. (Rue)) (MMITAL DISORDW, atiol. & pathogen. Cushing's die. (Rus))  DOBRZUNSKLYA, A.K. Treatment of "active conditions with electronsrcosis, Arobl, sud,polkh, 8t345-362 159. (MMA 13:6) (mental Illness) (Blectric anesthesia)  bal=ANSKATA.. Aninazins therapy of some forma of reactive conditions. Probl. sud.paikh. 8074-387 159. (MMA 13:6) Obutal Illness) (Ohlorpromazins)  DOBRMANS)rAYA, A.K. Effect of aminazine on the higher nervous activity during reactive states occurring with ezoitation phenomena [with summary in English]. Zhur.vys.nerv.deiat. 9 no.1:22-29 Ja-F '59- (MIRA 12:3) 1. Serb07 Central Research Institute of Forensic Psychiatr7, Moscow. (CHLORMOMAZIO, eff ect a, on conditioned reflex activity (Rua)) (REFIEZ. GONDITIOIM, eff. of drugs on, chlor-promazino (Rns))  DOnZHANSIrAU, A.r. Treatment of depressive states with iprasid. Zhur.nerv.i peith. 59 no.12tI485mI488 159. WU 13:4) 1. ?SentralIU77 nauohno-iseledovatellskiy institut sudebuoy paikbiat- rii imeni Serbskogo (dir, - dotsent G*T* Morozov), Ko8kVa. (InONIAZID ther. ) (PSTOKOSIS NANIC DVUSSIVI ther,)  DOBRZHAISKAYA A K.; SMMOVA, M.L. Treatment with tofranU of depressive states. Zhur. nevr. i psikh. 62 no,2:207-209 162. (MIR& 15:6) 1. TSentrallnyy nauchno-isoledovatellskiy institut sudebnoy psikhiatrii imeni Serbskogo (dir. - dotsent G.V. Morozav), paikhonevrologicheskiy dispanser Kiyevskogo rayona (glavnyy vrach M.L. Smirnova),, Moskva. (IMIPRAMIE) (DEMMSION, MENTAL)  DOERMAMAYA, A-K,; RUSANOV, F.D. Oecupational therapy of reaotive states. Zhur.nevr i psikh. 61 no.10:1555-1556 161. iMIRA 15:11) 1. Mentralinyy nauchno-isaledovatellskiy institut, sudebnoy psikhiatrii imeni Berbakogo (dir. - dotsent G.V.Mrozov),, MoBkva. (OCCUPATIONAL THERAFY) (NEUROSES)  DOMMHANSKAYA - A.K. Delimitation of chronic reactive etates frm schisophreniae Prakovudelmopsikh.ekoperta no.,4sIO-16 161. - (MM 16s2) (REACTION-MM) (SGHIZDPHFMIA)  DOBRUNSEMA, A.K. ~,~ ; Sme problem in treating chronic f Prob.sud.psikh.10:172-186 !61. (MCHIATRY)  GOMBER, L.M... prof., ctv. red.; DOERZFANSKAYA A. , kand. Lo.il-K. med. nauk, red.; FAVLIKMA, L.V., k8nd. biol. nauk, red. [Materials of the 3rd Scientific Cmference of Young Sci.- entists] Materialy tretey Nauchnoi konfarentsV molodykb uchenykb. 1964. Moskva, Vses. nauchno-inal. in-t f4kspe- rimentallnol endokrinologil, .1964. 109 p. (MIFA 18:5) 1. Naucbnaya konferentsiya molod,,kh uchenykh. 3d, 1964.  11111MU We A67 00, .010 Oil it It U W V1 of Is 1 1 00 0 0 f. _11-L-1 IF ?_ I IM a 11142A 4 00,11 1y! PON -:') - 4-- k'. , ~ 1! '. , 00 it t V .61 - I, ~ -_ 1111111A ion rip. mWAI.asciial., Classead.phys.-math., 19,10, No. deins. - ~ F h & b e Bla od sM JM feaults expressed In mg,equlvs. or t Wupr;% att 1:~ t bl l w8 "S Cor . Bretmecke was used and at the salinity o 18-22% It wats possi e to grimme an alky. of about 1.111-1.110 mg.-tqQiv.. but actually this value is 31X".40 6-3 ti o h Mi f th i . b4o bi d b ti ll M t M b 6 f me os o e & s an t t w was suppose eare ca w t e t y. y. expbdwdbyUwpriaboryaodv"Mky.cdUwRuzittkbamW. Tlativerticalwasixtion i i l d b i s exp a ne y div ding tM water usto an upper toot (%a a depth a( IW-20 m.) and alowerorn"alalwatine. The - 11 1lit depl h lathe h Lyt = ,r W. 150_2 -9 : o the "Nulty increases. 71W OW. Nd = o t =. depends upon tbt distribution of =It@ brovigbit In by rivers. The alky. In the Soviet sone Increases with deptlk. reaching Its -ii. at the bottom. This hicrean in the lower .3 al Usesidixte reduction at then depthii. as a restilt ad which 00,) the Nuat" Mechan4w tocarlionates and Sulflil". Thrre ktit, apparj~nt fq.ljlti(m Iw. tuft "WtY11MdMY- lUer&Uooialkalic.'-,tyt,tcl,l,oridroisdiffe"taiviiious d eP" t** value duuWhilt within the limits Of 0-27M".343R. Itisduubtfulwheth,r -WtY-Cl ratio can c et be detd , ItIOSAILL C. ERs A I S L A N91ALLURCICAL LItINATURIE CLASUFKATION lie I CP. 4.1 die It! ~., ~. .. I U VUL &V a Aiii i 1 8 a W it U it It It KW 114 0 0 9 0 0 0 0 0 9 0 0 9 6 We 0 0 0 a lop 40 0 0 J~f I j, _. 1_' w i__ 0 0 0 0 0* 00 ;:Oo 1-00 -00 M. too at 0 o age ;roe .164 S1 0" L~. it, too Od IN 9113 0 0 a 0 41 0 0 0 0 G 0 4 is  DOBRVWISKATA, N.A. "Turbid water" In the depths of the Black Sea. Priroda 42 no.12:113 D 153. (MLRA 6:11) 1. Savastopollskaya biologicheekay~t atantsiya Akademii nauk SSSR. (Black Sea)  /),-, "0 )/z '5~r, >/ /,, z V, -I -I - -~) DOBRZHANSKATA Wi--~~t~opla'nkton pr`cductlon in the Black Sea according to the data of photoornthesis. Trudy-SBS 8:303-314 154. (MIRA 11:1) (Black Sea-Phytoplankton) (Photosynthesie)  A K11,1 WBRZHA Phytoplankton production in the Black Sea according to t he data of photdaynthesis. Tru&y SES 8-315-319 154. (MIU 11:1) (Black Sea--ftytoplankton) (Photosynthesis)    AUTHOR Dobrahanskaya, M.A. 2r,-4-34/60 -.1 TITLE The Seasonal Peou arities in the vertioal Distribution of Oxygen within the Zone of Photosynthesis in the Black Sea. (Sezonnyye osobennosti vertikallnogo rasprodelonlya kisloroda v zone fotosinteva Chernogo Morya.) PERIODICAL Doklady Akademii Nauk SSSR, 1957, Vol-115, Nr 4, PP-755-758 (USSR) ABSTRACT The oxygen observations, in which the determination of 02 was carried out every meter within the layer of the largest temperature variations, disclosed several specific features of its distribution according to season. From fig. 1 A-B follows that in the warm season in the sea districts far from the shore in the zone of photOSYLthesis a aertain maximum layer develops as well in regard to the absolute content as to the percentage of relative saturation. A smaller maximum manifests itself already in spring. At this season the variation of the 0 content according to depth takes place gradually, withoui sudden jumps. In summer, at the time 9f the most marked division CARD 1/4 of temperature layers, the 02 maximum reaches its  2o-4-3k/6o The Seasonal Pecularitiea in the Vertisal Distribution of Oxygen within the Zone of Photosynthesis in the Black Sea. highest stage of devolopment as well in absolute as in relative values. In August 1951 the 0 content at the ame place in a depth of 120-140 E amounied to : -9 ml/l and the Baturation 120-140 %. The ultimate limit of the 02 maxima now lies deeper than in April. Toward the end of fall (Boyember) the layer with 0 maximum con- served. The maximum is relatively redusid as aompare4 to August, but still surpasses that of April. Simultaneously the thickness of the upper layer with a uniform 02 content increased to 20-25 m. The 02 maximum layer in all aboye-mentioned three seasons usually depends on the layer of largest temperature variations. The highest 0 values correspond to the highest temperature gradients? In proportion to the blurring of the thermal division of layers the 02 in the vertioal is assimilated. Thus the 02 content is in all depth uniform in winter. The 02 maximum, or its excess, as compared to the winter quantities was in this mass of water formed in the coures of photosynthesis.In August the consumption GARD 2/4 of 02 in oxidation processes in most oases exceeds its  20-4-34/6o The Seasonal Peoularities in the Vertical Distribution of Oxygen within the Zone of Photosynthesis in the Black Sea. supply in the upper hori2ons (0,10, 0-15 m) - In depths of 20-25 m conditions are just the opposite. For spring and summer the vertical 02 distribution io in good agreement with the d'Latribution of the phytoplankton and with the daily production of 02- The direct in- fluenee of the layer of the density jump, as a physical faotor, is probably intensified by the optimum conditions of illumination and temperature which develz;p in its vicinity for several populations. Thus the intensive formation of 02 is not restricted to the layer of temperature jump alone. The increase in temperature reduces the solubility of 02' Therefore the entire 0 2 excess which develops in the upper, heated and easily stirable layers escapes into the atmosphere. In the layer below the jump 02 is given off slowlier. Thus the quantity of 02 and its Yertioal distribution in the z6ne of photosynthesis are on the whole determined by 3 CARD 3/4 factors:  20-4-34/6o The SeAsonal Pecularitiee in the Vertical Distribution of Oxygen within the Zone of Photosynthesis in the Black Sea. 1) by the intensity of the photosynthesis and by the depth position of its optimum, 2) by the quantity and the character of the vertical distribution of temperature, and 3) by the depth of intensive mixture. From this point of view the peculiarities of the vertical distribution of 0 2which are observed at different seasons may be understood. There are I figure, and 5 Slavis referenees. ASSOCIATION: Sevastopol Biological Station AN USSR imeni A,O. Kovalevskiy. (Sevastopollskaya biologiaheakaya stantsiya imeni A.0. Kovalevskogo Akademii nauk SISR) PRESENTED: By A. P. Vinogradov, Academician, -Tul-Y 9, J 956 SUBMITTED: July 6, 1956v AVAILABLE: Library of Congress. CARD 4/4  17t4 AUTHORS: Dobrzhanskaya, M. A., Pshenina, T. 1. SOV/20-123-5-35/50 TITLE: Some Data on the Content and Distribution of Iron in the Black Sea (Nekotoryye dannyye o soderzhanii i raspredelenii zheleza v Chernom more) PERIODICALt Doklady Akademii nauk SSSR, 1958, Vol 123, Nr 5, pp 895-897 (USSR) ABSTRACT: Publications contain but scanty data on the problem mentioned in the title (Refs 1,3)- In the present paper the authors present the determination results of dissolved and suspended iron fraction by thecx cl-l-dipyridyl method, modified, more or least acoording to reference 2. The determinations were made (a) in the central deep-sea region of the eastern half of the sea, (b) in the northwestern region (with a marked freshwater influence). The seasonal fluctuations were measured at the motith of the bay of Sevastopol'. Table 1 shows the results. In most cases, the fraction of dissolved iron was absent at all depths. An exception was dee sea water (from 1,000-1,500 to 2,000 m), in which 6-20 mg/M-of dissolved Fe could be detected. Roughly, this content corresponds with that of the Card 1/3 ocean. Table 2 shows the content of the suspended iron fraction.  come Data on the Content and Distribution of Iron in BOV/20-123-5-35/50 the Black Sea Despite the wide range of values, the fcllowing rules in the horizontal and vertical distributions of iron in the Black Sea can be established: (a) Sections with a marked influence of the outflow from the mainland have maximum contents; (b) in the regions close to the shore the iron content is comparatively higher; (c),in the surface strata of the central region of the sea, especially in the halistatic (khalistaticheskiy) zones (apparently zones with constant salt content) the iron content is slightly lower than in (a) and (b)(Fig 1). These A regions also differ with regard to the vertical iron distribution. Maximum contents are found in the range of the upper 300 m of the deep-sea regio4 (Fig 1). The absolute maximum is found in the stratum of maximum salt content fluctuations. From 300 to 500 M, the iron co4tent deorqkLses rapidly with increasing depth. The minimum suspension fraction content can be detected between 500 and 1,000-1,500 m (down to 7,Zg/1m3 pe). With in- creasing depth the content rises; at a depth of approximately 2,000 m, due to an increase in the dissolved fraction, it attains values similar to those on the surface (about 26 mO m3 Card 2/3 Fe). Along the shores the iron content rose with increasing  Some Data on the Content and Distribution of Iron in SOV/20-123-5-35/50 the Black Sea depths to the bottom of the sea. The minute iron particles from detritus and feces are apparently arrested by water strata of greater density. Larger particles pierce this barrier and enrich the lower strata. In the photosynthesis zone no marked differences from the other seas can be found (Ref 4). Seasonal fluctuations of the iron content could not be observed. In the Black Sea, iron is not the factor which limits the development of phyto-plankton. There are 1 figure, 3 tables, and 5 references, 3 of which are Soviet. ASSOCIATION: Sevastopollskaya biologicheskaya stantsiya im. A. 0. Koval- evskago Akademii nauk SSSR (Sevastopol' Biological Station imeni A. 0. Xovalevskiy 0:~ the Academy of Science of the VSSR) PRESENTED: June 3, 1958, by N. M. Strakhov, Academician SUBMITTED% May 5, 1958 Card 3/3  DOBRZHAX,SKAYA, M.A. Nature of vertical distribution of oxygen in the upper 100- meter layer of the central part of the Black Sea as related to the time of the year. Trudy SBS llt284-296 '59. (MIRA 1-3:5) (Black Sea-Vater-Oxygen content)  V DOBRZHMXkTA, M.A.; FSHENINA, T.I. Some data on the amount and distribution of dissolved and Suspended iron in waters of the -Black Sea. Trudy SBS 11:316-326 159. (HIRA 13:5) (Black Sea--Iron)  - DOBRZHANSKAYA.. M.A. Availability of biogenic elements in the zone of *hotosynthesis of the BUck Sea. Trudy SBS 12:396-400 159. (MIRA 3-4:16) (BIACK SEA-WATER-COMPOSITION)  DOBRZHANSKAYA, M.A. Main features of the hydrochemical regime of the Black Sea. Trudy SBS 13:325-378 160. (MIRA 14:3) 1. Po rabotam Sevastopollskoy biologicheakoy.stantsii AN SSSR. (Black Sea--Sea water-.Composition)  DOBRZHANSKAYA, M. A. Cand Geog Sci - (diss) "Basic features of the distribution and dynamics of phosphates in the Black Sea." Sevastopol', 1961.' 2-1 pp; (Academy of Sciences USSR, Inst of Oceanology); number of copies not given; price not given; (KL, 10-61 sup, 208)  DOBRZHANSKAYA, M. A. w------------------- ------ Dissertation defended in the Institute of Oceanography for the academic degree of Candidate of Geographical Sciences: .,. -7~1-1~m- "Main Features of the Dynamics and Distribution of Phosphates in the Vlack Sea..P Vestnik Akad Nauk No. hj, 1963j pp. 119-145  PQRV!!,~NSYA~A, M.A. Content and distribution of orkanic riatter Jr the 81..-~rk based on oxidizability. TrMy ~~BS 16:472.."S7 I Content nnd df.5tribution of nltrlLes iri O~i W -.Q.( ~EI. -4W-495  NETREUP N.M.; SOBOLKV, Mae; Oboudogyringomyelia6'syndrome in periarthritis of the ohoulder joint. Vracb.delo no.lsUl-343 Ja 163* (MIRA 1612) 1, TSentraltnaya klinicheakaya paikhonevrologicheskayn i leyro- khirargehaskaya bollnitea Ministerstva putey soobahcheniya. HOUWER~DISWSES) (SYR3:NGMffMU)   EXCERPTA nDICA See 13 Vol 13/8 DervlatolOgY AuF, 59 2060. THE PROPHYLAXIS OF SUPPURATIVE SKIN DISEASE IN THE NEW- BORN (Russian text) - Dobr a a and Stefanovskaya N. V. - ZDRAvodxtTff-.Tu-ffKM.- i 2.862 case histories of deliveries and the newborn were reviewed. The Incidence of disease to in January, The maximum in July (82%). The nut=-.ur cases of suppurative skin disease in premature cbfldren increases In March, June, and November. and decreases In February, May, and October. There were no deaths in the group of premature children. The development of pyoderma in pre- mature children depends not so much on the rise of temperature of the environ- ment, an on the mother's health, the general condition of the child. Its vigour. and the care giver% by the nursing staff. Contagious disease (impotiginous streptoderm It - is and epidemic pemphigue) is found in the newborn mainly during summer. Sweat rashes are not infrequently complicated by staphylococcal infection. For its pre- vention, painting with 0.5% iodine and powdering with xeroform is recommended. Impetiginoun streptodermitte Is found only two thirds an often an staphylodermitim, but is more co.ntaglous. (S)  I~CERPTA MICA See 13 Vol 13/8 Dermatology Aug 59 2081. PRESENCE OF HELMINTHS N' PATIENTS WITH CERTAIN SKIN DIS_ EASES (Russian text) - D o b r z h a n a k a ~aA STurkmen Dermato- Vener. Rea. Inat., Ashkhabad -TRUDY M. KOZHNO-VENER. INST. (Ashkhabad) 1957, 5 (200-203) In 15 out of 170 patients with various pruritic dermatoses. the presenco of hel- minths was diagnosed (including 6 out of 99 eczema patients, 4 out of 40 cases of pruritus of the skin and one out of 3 patients with urticarla), Eight of Vie 15 cases were treated for helminths; the treatment resulted In the complete disippearance of the condition in 2 cases of pruritus of the skin and In one patient with neuro- dermatitis, some improvement was noted In 2 patients with skin diseases. References 4. Mashkillelson Jr Moscow (S)  D0311MOSKAXA, R.S. --111-1- -, Epidemic pemphigus among the newborn in Turkmenistan. Zdrav. Turk. 2 no.4:li-15 JI-Ag 158. (MIM 12:6) 1. Is Tarkmenskogo, nauchno-isoledovatellakogo kozhno-vanerologicheskogo institute (dir. - doktor mod. nauk N.Y. Rodyakin). (TUMOVISTAN-PEMPHIGUS) (INPAYM(NEWBOMI)--DISPASMS)  DOBRZHMKkYA, R,S, Treatment of the tuberculoid form of cutaneous leishmaniasis. Zdrav. Turk. 4 no.4:8-14 JI-Ag 160. (MIU .13:9) 1. Iz Turlmenskogo nauchno-isoledovatelisko o kozhno-venerologiabe- skogo instituta, kdir, - prof.(W.F. Rodyakin5. IC R) (DEMI BOIL ANTIKONY-THEWEUT Us (GLUGONIC ACID-THEUPBUTIC USE)  I old f (-.f t,!.-! Vc; 29-34 '64. I . Tix1criensk 1 y o:; I ~~],A,- I, (dlr. - kazid. mc--,% iarwak I.I.E. ral.-O"Odi t e N.T.F. Rodyakin).  DOBRZHANSKAYA, R.S., kand.med.nauk Cutaneous leishmanianin of the eyeball. Vent. derm. i ven. 38 no.3:83-86 Mr 164. WIRA 18.4) 1. Turlanen-W , nauebno-i-gsledovatellskly institut ko-zhnykll bolczney (dir. - kand.med.nauk M.E.Ereshov; nauchnyy rukovoditell - prof. N.F.Rodyakin), Ashkhabad.  DOMMANISKAYA, Z. S. ; POWYACHEVA, I. B. Cement Method of determining individual oxides of alkali metals in raw material and in clinkers. TSement 19, No. 1, 1953. 9. monthly List of Russian Accessions, Library of Congress, June 1953. Unclassified.  ARONS, Ta.A., Insb,; DOBRZHANSKITI.A&A*-,,,Inzb. - I I., The now B-389 motor tank, for cement triansportation. Stroi.i dor. maabinostr. 4((:no*5:17 W '59. (143RA 12.- 7) exe~i--Transportation) (Commercial vebicles)  ARDWS, Ta.A., insh.; DOBRZILILNSKIY, A.A., inzh.; MitCHEM, I.G., inzh. New design and operation of hoisting machinery in building. Strol,i dor.mehinostr. 4 no.9:12-14 S '59- (141RA. 12.611) (Hoisting machinery)   1) J 13 R 2 /1 A IY!;k' / Y A - ~,~ 137-58-5-10971 Translation from; Referaelvnyy zhurnal, Metallurgiya, 1958, Nr 5, p 296 (USSR) AUTHORS: Valov, G.G., Dobrzhanskiy, A.V., Zhukhovitskiy, A.A. TITLE. Analysis by Beta-ray Reflection (Analiz metodom otrazheniya P -izlucheniya) PERIODICAL: Tr. Nauchno-tekhn. o-va chernoy metallurgii. Ukr. resp. pravl. , 1956, Vol 4, pp 22-29. Comments pp 30-31 ABSTRACT- A description is presented of an instrument for analysis of the percentage content of heavy elements by P-ray reflection. When radioactive radiation passes through a substance, the in- teraction of Oparticles with the atomic nuclei of the substance causes the particles to be deflected from their original direction. The intensity of the, reflected ~. radiation (RI) is approximately proportional to Z2/3, where Z is the charge an the nucleus or' the atomic number of the element. Consequently, the RI may be employed to judge the composition of the substance. T1204, with a half life of 2.7 years, is used as a source of P radiation . 20 millicuries of TI?04 are placed on the bottom of a Pb cup which directs the beam of electrons (E) upward onto the specimen under Card 1/3 investigation. The reflected E pass through a filter to an  4 13 7- 58- 5- 109 71 Analysis by Beta-ray Reflection ionization chamber with a cylindrical tinplated brass body 300 mm in diameter and height. The collecting electrode, in the form of a centrally- positioned pill, is introduced into the chamber through a polystyrene insulator and is under a potential of + 300 v relative to the housing. The thickness of the filter is selected experimentally so that the majority of the E reflected from the heavy element will pass through it, and the E reflected from the rest of the sub- stance will be retained therein. The result may thus be attained that the magni- tude of the RI is in linear relation to the content of heavy element. The RI passing through the filter ionizes the air in an ionization chamber. The result- ant weak ionizing current is amplified and delivered to a galvanometer. To prepare the specimen, 10 or ZO g of the material, reduced to powder for analysis in the usual way and screened through a 100-mesh sieve, is sifted into a metal adapter, the bottom of which may be made of any material trans- parent to A rays. e.g., tracing cloth. The powder is gently packed by tapping the adapter against the table. Analysis is performed either by plotting a graduated curve against standard specimens or by comparison with a standard. The method has been used specifically for determination of Fe in Fe ore and of W in high-speed steel. The employment of this method in analysis of Fe ore shows that its accuracy corresponds to that of rapid chemical analysis, but the time is reduced to 1.5 - Z .0 min. The method is simple in execution and Card 2/3  137- 58- 5- 10971 Analysis by Beta-ray Reflection does not consume any reagents whatever. The instrument is compact and can be used anywhere. The immediate and prospective value of this new method are noted in the discussion. T.M. 1. Beta rays--Reflection 2. Heavy elements--Analysis Card 3 /3  TKACHENKO, N.S.; DAVIDENKO, P.I.; DOBRZHANSKIY. A.V. ......., Determination of metallic iron in the presence of oxidizi agents and free calcium oxide. Zav.lab. 29 no.5:536-538 1631MIRA 160) 1. Gikyushruda. (Iron--Analysis) (Oxidizing agents)  STEPIN, Vaoiliy Vasillyevichl SILAYEVA., Yelizaveta Vasillyevna; PLISS, Anastasiya Mikhaylovna; KURBATOVA, Vera Ivanavnaj KRYUCHKOVA, Lidiya lierkurlyevna; PONOSOV, Vladimir Illich; INMOV, A.M.p doktor khim. naukp prof.p red.; FEDOROV, A.A.s at* nauchng aotrsp red.; TKACHEVKO, N.S.j inzhaj redo; J?WZWS)=v,A.V*j StvApmb&j.&vd.; LEVIT, Ye.I... red.izd- va; ISLENTIYEVA, P.G,, tekhn. red. (Analysis of rerrous metals) alloys and manganese ores) Ana- liz cherrWkh metallov, splavov i margantsevykh rud. (By] V.V. Stepin i dr. MosWaj Metallurgizdat, 1964. 498 Ps (MIRA 17:3) I* TSentraltzU nauchno-iseledovatellskiy institut chernoy metallurgil, (for Dymov., Fedorov,, Tkachenko, Dobrzhanskiy).  IKONNIKOV, V.V., prof., red.; DOBRZHAMIY, A.Ye,, red.; UIAVAM, N.I., takhn.red. [Financing and issixing credit to the national economy] Voprosy finaneirovaniia i kraditoveniis narodnogo khoziaistva. Pod red. V.V.Ikonnikova. Moskva, 1959. 167 p. (MIRA 12:11) 1. Moscow. Gosudarstyenun ekonomicheakiy institut. (Finance)  SHMMIN, I.N.; 'DOBR HANSKIY, A.Te., red.; KHAYATET, N.I., tekhn.red. [Socialist transformation in the U.S.S.R. and its economic prerequisites] Sotsialiatichookie proobrasovaniia v SSSR i ikh ekonomicheskie predposylki. Xoskva. X-va vysshego obra- zovaniia, 1939o 210 p, (MIRA 13:2) 1. Moscov. GosudarstvamM ekonomicheskiy institut. 2. Zave- duyushchiy Wedroy Istorii narodnogo khozyaystva Koakovskogo gosudaretyannogo skonomichookogo institute. (Russia-loonomic conditions)  =10 -10 SAVCHENKO-BEL'SKIT,A.A.,dotp;DCBRZHAYMaT, A.Te., red.; KHAVAMo NoI-9 takhn.red. [Shelterbelt forestry; a lecture] Zaahch!Ltnoe lasorazvedeaie; lektaiia. Moskva, Mosk.goo.ekon.in-te 1959. 51 p. (KM 13:4) (Windbreaks, mhelterbelts, etc.)    A I f 12-0-6-28/36 AUTHORS'. Distler, G.I., Bondarenko, X.P.,and Dobrzhanskiy, G.F. TITLN: A Polarizing Attachment to the OKC-11 Infra-red Spectro- meter (Polyarizatsionnoye prisposobleniye k infrakrasnomu spektrometru. IKS-11) PERIODICAL: Pribory i Tekhnika Eksperimenta, 1957, No.6, pp. 106 - 10B (USSR) ABSTRACT: The(AKC-11 infra-red spectrometer is widely used in the USSR. A simple polarising attachment to this spectrometer was developed at the Institute of Crystallography of the Ac.Sc.USSR (Institut Kristallografiij AN SSSR). The polarising element consists of 8 polished plates of silver Shloride 0.2 - 0.25 mm thick. The set of plates is at about 26 to the beam and is isolated from metal parts since silver chloride reacts strongly with metals. Provision is made for the rotation of the speci- mens and the device as a whole. The instrument has an average transmission of 30 to 40% and the degree of polarisation is 99 to 100%. The instrument can be used in the region 1 - 20 A. Yig.1 shows a sectional drawing of the device; Fig.2 its general appearance and Fig.3 a typical spectrum obtained. There are 3 figures, ASSOCIATION: Institute of Crystallography of the Academy of Sciences Card 1/2 of the USSR  RIGILI, VeRo; GOVOMV, V.G.; DOBREHANSIly, G.p. uiowlft Jffect of the temperature and the rate of deformation on the parameters of tension curves for silver chloride single crystals. Opt.-makh. prom. 25 no.6:28-32 Je 158. (MrRA 11:10) (Crystallography) (Silver chloride)  nomw."'glyl, 0, V, low r li Ir t, IFW I I I 'F' t!. ~ I i E I It gi 1H t 0,31 k AA A 42 11; r.  'RV.T V, L.M., MMILOVA, G.S, DOBRMUMIT. G-7- - ........... I Crystallizer.for groving organic crystals In the melts Rout krist. 2F1'02,--"4 159. (KIRA 13:8) (Crystallization)  24-7100 76oio SOV/f 0-4-5-32/36 AUTHORS: Belyayev, L. M., Vitovskly, B V., Dobrzhanskiy, G. F. TITLE: Some Changes in the Methods of Crystal Growth PERIODICAL: KristalloGrafiya, 1959, Vol It, Nil 5, PP 791-794 (USSR) ABSTRACT: The three changes sucessfully tested by the authors are: (1) The temperature at the face of a crystal grow- ing of molten phase changes because of the changing solid ratio changing concentrations of admixtures, liquid etc. Consequently, the composition of grown crystals may be uniform. To avoid the temperature change, a heater was placed in the molten phase and slowly pulled toward the growing crystal to maintain its temperat-ure, controlled by a thermocouple, constant. (2) The crystals whose solubility hardly changes with temperature are usually grown by evaporation of the solution, for example, in the crystallizer developed by Robihson. The changed variety of the method pro- Card 1/4 vides constant temperature of a growing crystal and  Some Changes in the Methods of Crystal Growth 76oio SOV/70-4-5-32/36 absorption of the vapor. The crystallizer (Fig. 2) consists of glass container 1, placed upon electric heater 2, adjuster 3 providinr, a constant temperature, thermometer 4, cap 5, mantle b for holding vapor- absorbing cotton 7, capillary pipe with cock 9 to control draining of the condensed vapor, rotating magnet that rotates stirring rad 10. (3) Verneille's method of crystal growth of' molten phase, Is changed as shown in Fig. 3. The quart., tube of' the chamber crystallizer, p:~aced on plate 1, Is heated by winding. Crystal holder () extending through Wilson's packing a joins reducer that transmits rotation from motor to the crystal holder providing the latter's rotation at the rate of 2 rpm. Cap 11 and other parts join through vacuum packinf.T. The chamber is pumped out to high vacuum or filled in with Inert or any other gas through pipe B. The compressed powder briquet 5 of the compound to be crystallized is placed in protecting mantle 3 with heating winding in, and is coaxial with the crystal or its seed 6 stuck on the rotating crystal holder. The Card 2/4 briquet-to-crystal distance is controlled by moving the  Some Changes in the Methods of Crystal Gru-.%'-h 76olo tig 2 Card 3/4 5-32/36 Fig 3  Some Changes in the Methods of Crystal Growth 76olo sov/7o 4-5-32/36 briquet-holding shaft up or down. The heater of the protecting mantle melts the briquet gradually; the molten matter drops upon the crystal and provides its growth. The X-ray diffraction data proved that the grown crystals were monocrystals. There are 4 figures; and 3 Soviet references. ASSOCIATION: Crystallographical Institute of the Academy of Sciences of the USSR (Institut kristallografil AN SSSR) SUBMITTED: May ~3, 1959 Card 4/4  24-7100 (6oti SOV/Y0 -4 - -3 - 3 1 "36 AUTHORS: Belyayev, L. M., Dubrzhan:31,,i.y, 0. F., Chadayeva, V V., Panova, V. P., i*7i-Tlrnttna-,-,K-t---B-~j---Varfaloiii(,y,--~v,'I, V. N. TITLE: Growing Activated Lithium Fluoridu Crystals PERIODICAL: Kristallografiya, 1959, Vol It, Nr ~, PP 794-795 (USSR) ABSTRACT: The admission of impurities into tile structure of LiF crystals to activate them for detection of thermal electrons, as for example for use in scintillators, is difficult, because of certain crystal-chemical properties of the crystals. The authors have grown LiF crystals by the Kyropoulos method in open Pt crucibles. In each case, a seed was attached to a cooler, protedted by a Pt mantle. Mg, Al, Fe, Cu, Ga, In, and U compounds i-.,ere added to the readily molten LiF. The luminiscence and absorption spectra were examined by monochromatizer UM-2 and spectrophotometer SF-It respectively. The excitation by ultraviolet rays disclooed the highest luminescence Card 1/3 .of LiF(Mg) crystals and of those activated by uranyl  Growing Activated Lithitun Fluoride Crystals '16oil SOV/70-11-5-33/36 ASSOCIATION: SUBMITTED: compounds. The former ~thowed higher absorption than LiF, especially of ultraviolet rays. The luminescence intensity of' the LiF(ML'.) cryjtals increasej with the duration of a-ing of the molten phaso prior to crl,lrstalliza- tion. The vxcitation of the LiF crystals, acti.vated by uranyl compounds, wau hiEh by both ol6ctron bc~ams and X-rays. Thu scintillation intensity ol' LiF(U) crystals was about 4% of that of NaI(Tl). There are 4 fiCurez; and 4 references, 2 Soviet, I German, I U.S. The latter is: R. S. Moon, Phyo. Rev., 13, 1210-1211, 1948. Crystallographical Institute of the Academy of Sciences of the USSR (Institut Icristallo-rafii AN SSSR) June 15, 1959 Card 2/3  Growing Activated Lithium Fluoride Crystals ~k 'we 76oli SOV /70 - It - 5 - 3 3/36' 0 Fig. 4. Luminescence Spectra of the LiF Crystals Card 3/3 Activated by: (1) UO 2(NO3)-6H20 and (2) UO 2SO4-3H2O.  S/070/60/005/009/009/017 S132/9360 AUrMORSt 11,JyMyoo, L.M ftl.k.linn. Z.B., -&-nown, V.P. and V~br.haoskx . 4.Y. TITLItt Th* 1,nal . t pr rti f L Pl-id. VMW=ALS KrIAt&1uxrariy-4 1960. W.L. 3, So- 5- pp. 737 -; 760 12=1 crystal. of Lit - 0 war. grown by the x1ropule. method in air. Uv&aj~ was introduced a. rmyl nitrate Or sulphate, IA aosawatrati-fts Of 0.01 t* 0-3 -t-%- CxT-t-Im with 0-01% "tivater hm4 . blu-Sr.on lmlm.--soo. and with 0-02% -04 ot-1- a yuo_g-am rho P"tr. of the I.-Inamoono. aNnited by a porcury LOOP inpi