SCIENTIFIC ABSTRACT POPANDOPULO, A. N. - POPDIMITROV, K.

'V'Y.AZIIIKOV, Nikolay Filippovich, kand. te'k-bn. nauk; FOPANDOFULO A N kand. tekhn. nauk; _i_ SLMLLING~ V.A., red.izd-va; GVIRTS, V.L., tekhn. red. ClAodern high-speed steel and its heat treatment] Sovre- mennaia bystrorezhushchaia stall i ee termicheskaia obra- botka. Leningrad, 1963. 21 p. (Leningradskiy dom nauchno- tekhnicheskoi propagiindy. Obmen peredovym opytom. riia: Metallovedenie i termicbeskaia obrabotka, no.5) Se (Tool steel-Heat treatment) (MIRA 16:12) A  .0/137/62/000/001/147/237 A006/A101 AUTHORS: Vyaznikov, N.F., Popandopulo, A.N. - --------- TIMt The ratio of the carbon and vanadium content in high-speed steels PERIODICALi Refdrativnyy zhurnal. Metallurgiya, no. 1, 1962, 39, abstract 11266 (V.sb. "Stai'", Moscow, Metallurgizdat, 1961, 469 - 477) TEXT: In high-speed C-V steels, used In practice, the following relation between the C and V content is observed: C - 0.7 + 0.2(V - 1). In this case, extended holding times are required for heating for quenching, to.assure. carbide dissolving and high red-hardness; holding time attains up to 10 see/mm or, ac- c6rding to some recommendations, up to 2D see/mm of the work piece thickness Wiameter). This causes growth of austenite grains in the carbide and the separa- tion of carbide along the grain boundaries, simultaneously rl~ducing strength and ductility. Investigations were made with 2CY*heats with a large range of alloying element contents (0.9 - 1.2 - 5.0% V) and it was established that the best technological properties, which make it possible to-reduce holding down to 3 - 4 sec/mm, are attained at a C content raised.by 0.2 - 0.3%. or by reducing V correspondingly -to relation C 0.9 + 0.25(V-1). Grade P18403MM (Rl8F3XBM) Card 1/2  Sji.37/62/0W/Oo 1/147/237 The ratio of the carbon ... Aoo6/Alol steel,(1.54% c, 3.18% V) "hen oil-quenched from 1,2400C and triple-annealed at, 5601DC, by 1.hour holding, shows high RC (up to 70, during 4-hour tests at 6500C, RC does not drop below 60. The itteel structure is fine grained and consists of non-acicular martensite, bainite and carbides. The ste;1 is suitable for the machining-of hard-to-deform alloys under impact cutting conditions. There are 7 references. Ye. Bukhman (Abstracter's note: Complete translation] Card 2/2       S/121/62/000/008/002/002 D040/D113 AUTHbu. JV, asovj' I.S., Belov, A.V., Zlotnitskiy, B.V., and PopandLpulo,_ A.N. . ................ TI MO. The cutting properties of cob<-vanadium high-twi.-sten high-speed steel F1.7210DMIL: Stanki i instrument, no. 83 1962, 33-35 'A TENT: 8 ~,4KO4 (R18F 41M.1) steel, iihich already existed iii 19~8, contains 1.25-1.40, C,4.4-5.0/o Cr,15.5-17% W, 3.2-3.8% V,7.5-8.5% Co and 1.2-1.5;'i', Xo. The results are given of cutting,tests conducted at the Nevskiy inashinostroitell- n3-f zavod im. V.I.Lenina (Neva 11.1achine-Bui.1dimg Plant im. V.I.Lenin) the Leninggradskiy inetallicheskiy zavod. im. ruCII s"yezda JCPSS (Leningrad Metal Plant. :brt. Mral s"yezd KPSS) and the Leningrads-kiy politelduiichesldy institut im. M.I.Kalinina(Leningrad Polytechnic Institute im. M.1 *Kalinin). Cutting tools nade of Rl&1'-4K&-1 proved to be. 2-6 times more durable than tools made of sirdaar standard steels, and can be.used for milling austenitic steel. The cutting, C. speed range is 20-30 M/Min, and the cutting properties depend to some extent Card 1/2  VYAZIII90v, IJ.r. I Y161114AKOV, Ii.h, I PWIA.111 A off. . -9 Cracking during the gas cutting of steel. Trudy LPI no.202:91-92 159. OURA 12:12) (Gas welding and cutting) m  S/12LO/60/000/002/015/018 A1601130 AUDHORS Vyaznikov, N. F.; Khoroshavyiov, V. G~,- Candidates of Technical sciences, PopandopAo, A.` N,., Eng~~neer- TITLE Tbe heating of turb1ne blades An a sali bw h PERIODICAL- Vestnik masftlnost~royeniya, no, 2, 1960, 71 - '172 a salt bath is being used for heat treatment of steel Nit TEYT- Heatirg in J.S 4 not for forging. One of i.be r.-zasons the salt film left on metal, But- heat-ing An a sal-, bath gives q~zick and even heating, the me"I'al sirface is riot oxidized, and a-itomatic accura--e heat control is oossible. These advantages are par-ticlilar- ly lmpor-,ant; for tjrblne blade=- Leningradskiy poji+I5khn1cheskIy Inst-itut im. M. 1. halinina (Lenlngvad Polyi echmical -Instit%lite im, M. I. Kalinin) joiTrly With NevsRly zavod.im, V, 'I, Lenina (Neva Plan" im, V. I, D~nip) have, found means for removirw- the -sal'il- f ilm af ',er saI.t- bath - by quick and. brief' immersion of the billet, inI.o cold waT~er-, f ilm instaritaneously turned into a solid c--.ist and separa-"-.ed leaving ine,;a'I. slarface pFrf=c'.-ly free from salt. A worker of average skIll easily compl-.~t-=d Ihe I.TmIersion In 2, - 3 sec, and the billc--,-s heated to 1,2500C cc-oled. no4. mo-~:~ than -20 - 023cC, -Tne expc-rimeyr~ ma:~.-=,rial were .-.jr*r-ine blade bilht;s Carl 1/3  S/122/60/000/002/015/018 The h~a4'ins oi .~1,~rbine b1ade-z ~n- -a sa.17. t,ath A161/AI,30 f rom 2K13 - 15YIIM~ (151cniM) anc4, 90,-126 M-1726) steel , 60 c.--emical composi- o 75 rrim in diam~~t.er aril 200 ~- 350 min of -7-he following lt.lon (Tahlr- 1): M G Si Mr, C,r Ni Mo W 1) 2,Kh 13 C).~v) 0,61 0.06 14,0 0,6 1 51'al I 1115' 0.16 0-5 o,6 11.5 0,6 0 . 6 o.4 E1726 0,10 0-8, 1,,5 14.0 2.5 1.0 The bille~.q were heated !-'o 1,230 - 1,2500C in Cn-2--35 (3P-2-35) salt bath. and in an electric flirnace wlt~. si-II-swe heaters for comparison, The temperature of both the bath and ilhe f~)rnace wa~-l controlled with a plat inljm/pla ti iTum-rhodi um thermo- couple, i4eating time in the f~ornace was 2c; 30 sec per I ram billet diameter, and in th,? salt. b-Mh only 10 - 12 see/mm. To cut down the heating time further and to preven4- moisture from geti-ing into the.salt bath, billets were preheated in a chamber furnace with 200 - 7000 temperature. Billets preheated to 6000 were heated finally in a salt. bath, at 3 - 4 times faster rate than in the furnace. Heating to higher temperature in the furnace was avoided to prevent oxidization of metal. Sait of two different compositions was tried - a) 100% barium chloride, and b) 7&% barium chloride + 22% sodium chloride. The second composi,;ion developed intense Card 2,/3  -.POPANDOPULO., A.N. Mechanical propertlea of high-tun-sten cobalt-vanadium rapid steel. I5V,Vys.ucheb.zav.; chern. met. no.4:119-125 161. (MIRA 14.4) 1. Leningradskiy politekhnicheskiy institut. (Tool steel--Testing)  VYAZNIKOV, N.F., Imnd.tekhn.nauk; KHOTIOSHAYWV, V.G., k-aiid.tekhn.nauIc, POFAN~OFTLO, A.11., Inzh. Heating steel billets in salt baths for stamping. Vest.mash. 40 no.2:71-72 F '60. O-IIRA 13:5) (Machine-shop practice)  S/129/61/000/002/008/014 "Lo, .2 E193/E483 AUTHORS: .,Popandopulo, A.N., Engineer and Snegur, I.Z., Engineer TITLE; Speed Cutting Steel With a Medium ,TungstWn Content 'PERIODICAL: Metall iye i termicheskaya obrabotka metallov, 1961, No.2, pp.35-40 .-TEXT:' The object of the investigation described in thic,present aper was to compare the relevant properties of teel Pgf4K8M p 8 8% W (R9F4K8M),. containing 1.3% C, 4.27% Cr, 3.65% V, ~8.10% Co, 1.03% 161o, 0.14% Mn, 0.29% Si, 0.02% S and 0.015% P1 with thoseof a standard high-speed cutting steel P 18 ~AR18) and I high (18%) tungsten content steel. It was establishN in the 1~course of the.preliminary e:iperiments'that the optimum heat area tinent of the steel studied consisted of,pre-heating-to 850 C ~~-i 1min immersion in a barium chloride.bath at 12000C, and quenching -7z-in oil followed by three tempering operations (each of 1 h duration) I-at 56occ. . The.structure of steel after this treatment consisted of finely-acicular martensite and various carbides, its properties being; Rockwell (C) hardness equal 64.to 65; bending strength equal 235 kg/mm2; impact strength ak equal 1.2 kgm/cm2; t Card I /7  89675 S/129/61/000/002/008/014 E193/E483 Cobalt-Vanadium High-Speed Cutting'Steel With a Medium Tungsten Content grain size equal 7 to 8 (in "ball".units); residual austenite content equal 3 to 4%; KP60 equal 6350C; Rockwell (C) hardness at' 6oo*c equal 54 to 56. Since the steel under consideration was found to be sensitive to overheating, the effect of time at 12000C (prior to quenching) on its properties was studied. The results are given in Fig.1, where Rockwell hardness OIRC) and impact stren 1200'0C; gth (al., kgm/cm2) are plotted against.time (sec) at I curve I shows the variation of HRC of steel in the as-hardened condition, curves 2 and 3 ak relating, respectively, to HRC and of specimens hardened and tempered (thrice for I h) at 56oOc. Fig.2 shows how the time at 1200% (prior to quenching) affected microhardness HIL (kg/MM2) of the steel at red heat (curve 1), HIL measured inside the grains, or so-called "effective red-hardnessil (curvo 2). and Rockwell bardnoms (11RC). in the noxt aerian of 1'experimentm, it was established that the impact strength of tempered specimens can be increased (from 1.2 to 1.7 kgm/cm2) by 4 increasing the rate of cooling-after tempering (i.e. by cooling in Card 2/7  S/129/61/000/002/008/o!4 E193/E483 Cobalt-Vanadium High-Speed Cutting Steel With a Medium Tungsten Content instead of air) and that internal stresses due to dispersion hardening, taking place during tempering at 560*C, can be relieved by a low-temperature (30 min at 3000C) tempering. 'Even better m/ m2) C can be attained by a treatment impact strength (about 2.0 k consisting of: 30 min at.7200C, followed by.oil cooling plus quenching'from 1200*C, plus tempering (thrice at 5600C for l.h), followed by cooling in oil. The effect of sub-zero treatment o n the properties of steel R9 ng F4K8M is illustrated in Fig-3, showi !7-..'~~AHRC (top diagram), magnetic permeability IL, in gauss/oersted (middle diagram) and Ak (bottom-diagram) of specimens quenched 1from 1200*C (first experimental point),.quenched and held at -760C for 2 h (second experimental point) and tempered once (third experi mental point) and twice (fourth experimental point) after the sub-zero treatment; branches of curves numbered 1, 2 and 3 relate I*t,o specimens tempered at 450, 520 and 5600C respectively. In the Inext.series of experiments, the comparative resistance to wear of steels 11.18, P 9K5 (R9K5) and R9F4K8M was determined. To this. end C Card  89675-. S/129/61/000/002/008/014 E193/E483 Cob I -Vanadium High-Speed Cutting Steel With a Medium Tungsten a t Content specimens of steel X25H13T (Kh25NI_3T) were end-milled with cutters (cross-section 24 x 24 mm, 45*, VI = 109, a = 8- 12 j Y = 1.5c, r = 2 mm) made of the steels examined, under the following conditions: v = 23m/min, a = 0.3 mm/gear and t=- 2 mm.'. ,The results, reproduced in Fig.5 wher the degree of wear (mm) of I I i:r ~the tool is plotted against machin X& ime (min), indicated that steel.R9F4K8M is twice as durable as steels RIB and R9K5. The ~results of-other similar tests are given 'as follows: FO-f j -Millinj End Boring of a Turning of Alloy J End Titanium alloy ~ 1 914 617,C(Fi617) steel Kh25Nl3T Steel Code Relative Womy-'Resistance in % P9!;4K8M i00 100 100 (R9F4K&O PgKio 102 80 (R9KIO) PIN '133 16o -D2KBM- lo6 Rl8t~Kft) 7- rd  s/i2g/61/000/002/008/014 E-193/E483 Cobalt-Vanadi,um.High.-Speed Cutting Steel,With a Medium Tungsten J- Content Fifiallyil'. it wa.s. shown*. that. the cutting characteria-tics*of the ~'steels studied are not affected by the sub-zero treatment. A Slight increase in. the resistance to wear can be attained by b 'applying this treatment, ut only if subsequent tempering is carried out at somewhat lower temperature (5200C). Although the Cutting properties of steel R9F4K8M-are not as good as those of the: n high (18%) tu gsten content steel containing the same proportion of; -.!'.cobalt Ithis.difference beco'mes significant only in.machining very tough materi als undef,conditions where the cutting tool is subjected to impact loads. There are 5 figures, 2 tables and 9 references: 8 Soviet and I non-Soviet. ASSOCIATION: Leningradskiy politekhnicheskiy institut (Leningrad Polytechnical Institute) Card 5/7  ....... ..... .... ....... . ~ S /129/61 V000/002/008/014 E193/E483 Cobalt-Vanadium Ifigh-Speed Cutting Steel.With.a Medium Tungsten ont nt c 44( FS 0o f g r_I_..._I'__~,_ 1.0 'T 500 V 56 x -.'j S3 !0 60 70 80 90 VO 7 0CIK OHr. 2. Bnh%HHe spemeHM., Bb[Aep)KKK nPR 6 io~ 110 %%L Ila KpaCHOCTORKOeTb OXOHqATeJlbHOld marpeze - (2) ,x (1). 944eicntampo xpacHocTOAKOcrb TnepAOCtb W. j; ropmqyio, Fig.2. 4 - C r 6/7 , , f 2: :".A  C/ 6, AUTHORS: Vyaznikov, N. F. and Popandopulo, A.N. 129-3-13/1.4 TITM: On increasing the ch iiical stability of diffusion of chromated steel. (Povysheniye Iffiimicheskoy stoykosti diffuzionno-khromirovannoy stali). PERIODICAL: Metallovedeniye i Obrabotka Metallov, 1958, No-3, pp. 61-62 (USSR) ABSTRACT: One of the drawbacks of chromating is the porosity of the diffusion layer, which is observed in some cases, and which brings about pitting corrosion of components operating inside aggressive media. At the Leningrad Polytechnical Institute (Leningradskiy Folitekhnicheskiy Institut) experiments were carried out on increasing the chemical stability and the surface hardness of diffusion chromated layers by additional cementation by means of carburisation. Diffusion chromating was effected on low carbon steel 112011 and armco iron specimens inside a "metalliser" consisting of 50% low carbon ferroc.hroEium, 45% aluminium oxide and 5% ammonium muriate at 1200 C for a duration 8f eight hours. The carburisation was effected at 930 C for four hours in a carburiser produced by the Bondyuzhskiy Works. A reproduced micro-photo Card 113 shows the micro-structure of thelayer which was  129-3-13/14 On increasing the chemical stability of diffusion of chromated steel. chromated and then carburised as revealed by etching with a 10016' solution of nitric acid and alcohol; at the surface of the chromium-cemented layer, a carbide crust of about 0.1 mm thickness, which is not affected by the etching, can be observed. The results of determining tile hardness and the corrosion stability after chromating and chromium- cementation are entered in a table which gives the hardness and the chemical stability of carburised and non-carburised chromated specimens. Observation of the corrosion behaviour of chromated and chromated + carburised specimens in sea-water have shown that pitting corrosion can be observed after three days on chromated specimens, whilst no corrosion was observed even after ten days on specimens which were chromated and then case hardened. Formation of a layer of chromium carbides during case hardening of chrom,ated specimens brings about En increase in the density of the chromated layer and an increase of its corrosion stability. This is attributed to the fact that during cementation of chromated specimens a compression takes place of the surface crust due to Card 2/3 increase in volume during the carbide formation which  129-3-13/14 On increasing the chemical stability of diffusion of chromated steel. brings about welding of the Bores in the temperature range of case hardening (930 C). Furthermore, during hardening of chromated steel, the chromium concentration at the surface of the chromated layer increases owing to counter diffusion of.atoms of chromium towards the diffusion front of the carbon and this also results in an increase of the chemical stability of chromated specimens. There are 1 figure and 1 table. (Note: Complete translation except for the figure caption and table). ASSO CIATION: Leningrad Polytechnical Institute imeni M.I.Kalinin. (teningradskiy Politekhnicheskiy Institut imeni M, 1, Kalinina). AVAILABLE: Library of Congress. Card 3/3  Politekbaichookii, institut; ivent P. r=nIr (ftyalool Metallurgy) Moscow, MAmhgLs* 1959. 107 P- (so It Trudy, vrp. 202) 2g300 copies printed- SPORiOPINg Agency: Ninigtorstvo wyeshogo obrasovealye SM. L7. V 3 SaIMOT Doctor Of Technical Soloncon. FrOrs for;, = 1 issize,*O, 6ofessorl Tech. &d.s L. Wr Sbohotin "a Operation of Ra- an the Design du R Lit t M f ure era or d. anaging: $kUsaz7 (Losingrad Division Raehgi3L), F. 1. Votteor, Inglaeor. PURPONS This collection offartioloo to Intended for angla"re, tooftiolaw, and research workers in the fields cf~911781061 mt&UuW ad the beat treatment of metals. CUTM0111 The papers In this collection contain ths results or expSrtftnt&2 work doollng with the 1, tudy of constitution diagram e" of o0opl lutions. 49" of astal syst:so, the nature, or solid soi ad cooling or or. u ti , ng a alloys, proem Nos o0ouring during the hea ----Card 1/9 was do awroociwalcal treetwat at ~I- XTA=U=Z--R-A*v A~ ~-yOr~kov, ad N. 9- SalAgtom, Carburi zL1 - Or Chrome Stainless Steel 7 . . we given for neovarixing, quenching. end tempering. = rmulte Of a detrroluation of the hardness &md chemical stability of the ease are given. Cracks VYB=Lk*v- 11- P-, S.S. Termakov, Led r=m.A-!jC. is the Goet.cutting Of Stool Result& arm given Of A mt&Ucg, phic investigation of the cause Of crack formation in the cut Zone Of caso-hordened alloy s cut with An czy"stylena flaw. Methods of ocatrolling st"I Wro.roblem am Prevented. koihs P and 3.3. ygrm&kov. Investigation or Steel for 11ata am givem an the testing of three typ" or casehardened ..I under conditions theme --d-r which drill bit$ Old- of these Operate. A method of heat treating theme bits 10'outlined. jkftMAk2-A-T- DoO= sltIOz of 11"IdUll. Austamito During the - j UWA Wing or Carbon S I &rt'cl* and the 'ns following give the results of on in- fdstlgstl*n Of the dependence of segnstin saturation cm tompor- Ing tdm"rg*uP* In the 0*80 OF carbon stools havLQ9 a carbon dcntont of 0.2 to 1.7 Percent. It can be concluded from an analysis Of the OUPT08 that the decomposition of rogIdual ougtwnlto " independent of the OArb- content and begins at IWO' C. lazaronko, 0. T.~ and W. V. Rozhd.otvorlmkaya. Invo~ .tigation of the Tempering of Stools by the Magnetic Method 102 I Card 7/8 Properties of' th so 1 opr ng alloys tin_pho. homm , p , a berylltus-bronz ; r~ Germ n silver. The elastic limit and t me elastic afteref it ttl:-fitudled characteristics, are &g~uw at to be of bsxlc importance- It to oho~n that heat treatment is dooldoly selpful in 'mPrOT' ng the alloys with respect to them* proportio  S/148/61/000/004/006/008 E193/E580 AUTHORi Popandopulot, A.N. TITLE: Mechanical properties of a zobalt vanadium high-,speed cutting steel with a high xungstei_ content PERIODICAL: Izvestiya vysshikh uchebnykh zavedcjn,~.y, Chernaya metallurgiya, noo-4, 1961, pp-119-125 ~ TEXT., The object of the present investigation was to atudy the effect of various heat treatments on the transverse bending strength, impact strength, and impact fatigue strength of a high- speed cutting steel PIF~Iti4K,77` (Rl8F4K8M),, containing 1,25-1.4% C' 4.4-5% Cr, 15.5-17% W, 3.2-3A% V, 7.,5.-8.5% co and 1.2-1.5% Mo~ The impact tests were carried out on unnotched bars, pure bending impact load (30 kg cm) was used in fatigue tests on 12 min diameter cylindrical specimens. The results c_an be summarized as followsa 1) After annealing at 850'C.. the mechanical properties can be improved by a supplementary treatment, consisting of heating for 1 hour at 7200C followed by oil.-quench-ing. Thistreatment causes an insignificant decrease In hardness (from 277 to 269 Brinell) and a smail increase in bending strength, 11~'~l (from 150 to 156 kg/mm but consIderably improves the impa4c~t strength, at k Card 1/5  Mechanical properties of a s/148/6i/ooo/oo4/oo6/oo8 E193/E580 (from 2.0 to 5.6 kgm/cm 2 ). 2) The supplementary treatment Is beneficial also in cases when the steel is subsequently hardened and tempered. Steel, hardened (by quenching from 1240%) and given three tempering treatments each of I hour duratir) at 560GC, has OvQ, (abend)= 184 kg/mm and a k = 0.95 h9m/cm , the ''corresponding figures for specimens preliminarily tempered at 2 720*C being 188 kg/mtn2 and 1.3 kgm/cm . 3) The steel R18F4K8M .is prone to temper brittleness both in the annealed and hardened condition. To avoid this brittl6ness (closely associated iiith precipitation hardening), components should be oil-quenched from the tempering temperature. The effect of cooling rate after tempering is shown in Fig.2; specimens were annealed at 850'~C, oil-quenched from 1210, 1240 and 1270*C, and tempered twice for, .1 hour at 560% and once for 2 hours at 600*C~ The blocks in each of the three groups relate (from left to right) to specimens cooled,after tempering in the furnace, in air, and in oil-, the height of the hatched blocks gives 0 (kg/mm2, left-hand scale), bend that of the plain blocks ak (kgm/CM2 . r.4ght-hand scale). It will 2 be seen that the optimum combination of properties 10 250 kg/mm Card 2/5 bends  Me6hanical properties of a S/148/61/000/004/006/oo8 E193/E580 end ak 1.4 kgm/cm 2) was attalried in specimens quenched from 12404C and cooled in oil after tempering. 4) The cutting properties can be improved by a supplementary tempering at 400-5OOcC which removes the internal stresses caused by precfpitation hardening during the high-temperature tempering. 5) Temper brittleness is reversible, as demonstrated by experiments. Specimens quenched from 127OcC, tempered three times for 1 hour at 5bO"C, and then subjected to one of the following treatmeiits gave a (kgmlcm ) values as shown in bracketsg temper for I h at 600rC, ~k furnace cool (0.5); temper for I h at 6oo':C, oil-quench (OA); temper for I h at 6000C, furnace cool + temper for 15 min at 6oo"C, oil-quench (0.9)-, temper for I h at 6oo*C, oil-quench + temper for 15 min at 60ocC, furnace coal (0-58); temper for 1 h at 6oolc, ,oil-quench + temper for 15 min., furnace-cool + temper for 15 min at 600*C, oil-quench (o.86).6) In the :impact fatigue tests, the number of loading cycles causing the fracture of specimens quenched from 12400C And subjected to one of the following tempering treatmepts varied as shown in brackets% tempering thriceat 5600C (8 x 10't); tempering thrice at 5604C + a short tempering treatment at 450*C (2.2 x 105); tempering twice at 5604C + 2 h tempering at Card 3/5  Mechanical propert'-- 00 off 00 to. 6ooOc (2.8 x 105). relationship betwe of the steel studie about an increase i does not affect th- impact fatigue cha, 3 h at -76*C after the impact sirengt tempering with rapi 400-4500c, or by normally employed. 9 Soviet and I non as followsa Refoq.-~ M 1948, No.46 ASSOCIATIONs Lenin SUBMITTED: Decem Card 4/5 RION  OPI A-N-. inzh. Rapid cobalt -vanadiulj steel with a high tungptpn content. Izv. vys.uchob.zav.; chern.net. 2 no.5-83-89 MY '59- 1. Leningradokiy politekhnicheoldy Inatitut. Relcomendovano kafedroy metallografti i terylichaskoy obrabotki Loningradnko", politoldiniche- 81-togo instItuta. (Cobalt -vanad lun-tyW, ton alloys-Ifoat treatrient) (Tool ateel)    5.0~ ;5;v9 lll~j.TME143M  -PO Pqm))O-pu 1- 0 / IOMMSHIR, L.K.; PW 9,3).X.; SIIATIV, A.Y., SPSteiallnyy redaktor; reclaktor TRurINOT, A.V.; to Ic IPMtOrmmking-, work experience of stakb&norito ship repairmen] Isgotoylonle modelel; OPYt stakhmovtoov sudoremontao Nookya, lid-vo "Norskol transport*" 1952. 83 p. (Microfilal (MM 7:10) (fttternmakIng)  ;.!~A;  "Ilo 12-66 " - , CWSIOWNR 024408 , : , COD'Et SIJB' MVTEDi.`---J6AU40 19 . NO W'.-, 606 T.,T  POPANDOPULO, Q.V. Treatment of pulmonary tuberculosis by intratracheobronchial administration of streptoiaycin. Zhur. ush.., nos.-i gorl. bol. 20 no.5:71 S-0 160. (MIRA 14:6) l. Iz Ll.vovsk6go mezhoblastnogo tuberkuleznogo gospitalya d1ya invlaidov Otechestve voyny,, (TUBE,,U,nin,O~. (STREFTOMYCIN) 7  -/4- fY Z/L~ t_ YBVSTRATOV, Boris Vasillyevich, geroy Sotsialisticheskogo Truda; HIKITIN, TMSHCHEWrIO, N.I., redaktor; VESKOVA, Ye. I.,- --te-khnicheskiy'i aclaktor; PAVLOVA, M.M., tekd"UA cheski7 re- daktor. (The state farm in the struggle for -profitable operation; practices of the OTSilinskiil State Grain Farml Sovkhos v borlbe za rentaballnost'; opyt TSelinskogo ordena lenina zernoipogo sovkhoza. Moskva, Gos.izd-vo sellkhoz.lit-ry 1956. 134 p. (~iU 10:6) (State farms)  POPANDOPULO, G.F. ~'~Autbiiit--ic syst a ze s- electrom-agneti Z' z 1. Zavod 'Frol T~  r1w ACC.NR: AT5022094 UIR/2778/65/000/014/0003/OW9 AUTHOR: Popandopulo. G.K. 6 TITLE; Remote C'ecor.dero sea curren a GN-27 SOURCE% Uningrid...Nauchno-issledo~itellskiLAinatitt~t cne eoro!21L esk2p -priborostroyeniya, Trudy, no.14 1965, 3-9 TOPICTAGS oceanographic instrummt ocean current, ocean dynamics.* ABSTRACT: elrenote recorder of.-ocean curren6parameters 9GM-27, developed by the NITGNP,-is intended to solve pro of remote measurement and,recording of current velocity vectorvs~ depth. The aim was to develop instrumentation combining adequate Precision with operational suitability. The system consist aof a submersible sensors and transmitter-package (weight - 10 kg.), anda shipborne recorder (20 kg.), connec- Aed-b a five onductor cable. y -C It recordi at a SeVdepth the current velocity (3 - to~360 cn/sec)i And current, azimuth (0 366 degrees). It_can.also compute and record the'average azimuth of the current.-:.The,water velocity sensor is a vertical axis im- peller, the azimuth sensor. - arudder.,vane, measured against aninner magnetic compass card. A magnetic cou ling picks..up the impeller RPM inside the sealed instrument body P where photoelectric conversion to discreet electric "pulses and transmission to the -recorder occurs. The recorder,,13 a 3 min..Iivdt run step~motor. Azimuth is sensed pho- toelectrically by an internal..seeker step motor transmitting its search Impulses to the synchronized recording shipborne step.motor, Depth is registered by a reel counter, Caid    I  Ess-Lohy iTR: AM25736 S/aBh/6h/000/001/0009/003.1 Samar-in) A, Ii ORS: Popand:?Assj~-4'"'(Eeginear) A.,(Engin9er);.Starkova,, He (Engineeryl-111. E: Installation for the regeneration~of hydro'gon RCE: Xhimicheskoye mashinostroyeni ye,, no. 1, 1964., 9-11 IC TAGS.- hydrogen., hydrogen regereration.,dichrome catalyst, silica gelj, drying t, ~-ieating unit., reduction furnace, cooling unit RACT: 1411khimmash has develop&d an installation for the regeneration of Progen from reduction ovens of tunr_sten and molybdenum recovery plants. The imated capacity of the unit was 200 ia3/hr hydroven with a residual moisture tent'of 0.15 gN/in3j, which corresponds to a dew point of -4000The hydrogen the reduction ovens is passed through a contact apparatus containing nichrome alyst to br 61:f. ing the oxygen content down to 10- - It is then mixed with hydrogen the system's leak traps. From there hydrogen moves to a cooler where most of moisture is conderLsed at 12-14C and is subsequently pumped by a rotary blower n electric oven where it is heated to 300C-~ The final stop consists in 1/2  ACCESSION NRI AF4025736 passing.the hydrogen through two drums of 0.75m3 capacity., filled with silica ge :The first drum contains hydrouisilica gel., while the second., separated from the 'first by a cooling device., is filled with anhvdrous silica gel. During passage through t4e first drum the hot hydroffen removes the moisture irom the silica gel Vallation under working and deposits. it in the condenser. 'The capacity of this ins' conditions was 420-450 m3/hr.,'the orjgen content of the infl(n,-in- hydrogen averaged 04%, and the moisture content of the regenerated IWdrogen amounted to ~1-2%. Orig. art. has: 6 figures and 1 table, 'ASSOCIATION: NIlk1iimmash SUBMITTM: 00 DATE ACQ: 1hreb64 ENCM-1. 00. i .-SUB CODE: CH: 140 REF SOV:- 000 OTHER: 000.      FOPANDOPULD. S.G.. ordinator. Dacr7ocystorhinostmW according to clinical materials for the past 12 years (1941-1952). Trudt7 AN Tadsh. S.SjL 40:119-124 155. (MM 9:10) 14 Iw kafedry Clamykh bolezney (zav. Prof. L.P. Paradoksov; deceased-) stalinab&dskogo gosudarBtVSnnOgO meditzinskogo Insituta-imeni AbUFLI1. ibn-Sino (dire chl. -korr. Akndemit, nauk Tadshikskoy SS Ta.A. Ra- khImov). (XACRYNAL MANS-SURGERY)  _0 10 9 1 1 0 1 4 1 r . A f 0, 9 It Is I . r . a I k . a s 4 b 1110 1 2-21 a 3t J233 3436363131ifeal Qo Glo l Is, 9 AM& L . 0 p go A r -I- Is 4 F I 000 I-TI u ~ 1 -ee 00 A c s go vu : ' . V ",sit. Fe 201. ISW. The aln., 04 i Pute n. C dW.. c6., Tbnmsh Ho U%il rull, has as "b" buMb caPe am ri"y vamaini, Tht 0 go qrr" ,o,41, lb, ll,,* w,,,, I M. liumh see 00 goo lies moo 1100 see logo lie* Ile* lie I low O"in. =~ goo] daw Odd le"A"Moll oft "I IF a". all , I :Lu- I I M 8 Id 0 a v I v IN 9 a a 3 0 T xv, ID m EV, 'a' a .4 IN dim o..*ogooo 0 0 0-0 0-0 0 9_00 0 too *-*go o go 00000 00 **off - 9_1 W'o" 0 0 w 0 0, 0. wo. 0 0.-0.-0. O. W)W Wo 1.0 WOO 0.0 0 0 _0:w o 2. 0 0 0 0 0  M --- -- -1   POPARA, Vedelfto Social tftanagment in the Yugoslav Postal.. Telsgrayhv &nd telephone Services. -PTT Zajed 5 no.2:34-39 Yw-Ap 163.    PWAZOV, D. 1. s --i, a 35382 Vopro ' Sozdmiiy-n C-ocnidarstvenny':h Itconyll.-I Pol V U o I 1&- 3 dio I Polupuswyni. Los i Step', 1949., No. 5, S. 52-56 .SO: Letopis' Zhiwnallii~.kli S'Atey Vol. 34, lloskva, 1949 0 1 PZTROT,.A. 1.  Soils Astrch-han Province Forest vegetm-tion conditions of AstraIdmn anJ creatic;:-, C~f der- ifafj- foro~ils 0.1 econon-ac significerice. Les i step' 4, No. 195-'.  14-57-7-14966 Translation from: Referativnyy zhurnal, Geografiya, 1957, Nr 7, p 125 (USSR) AUTHORS: )?opazov, D. I.) Bugakov, P. S. TITLE: Peculiarities of Soil Formation in the Northwestern Caspian-Plain (Nekotoryye 6sobennosti pochvoobrazo- vaniya v usloviyakh severo-zapadnoy chasti Prikaspiy- skoy nizmennosti) PERIODICAL: Dokl.,Mosk. so-kh. akad.: im.-K. A. Timiryazeva, 1956, Vol 1 Nr 26, pp 60-66: ABSTRACT: The southern lake-and-estuary depressed part of the 'Caspian'Plain and the ancient Volga terrace which adjoins it exhibit a specific combination of soil formina s in which steppes develop over re- processe ceding turf. -The steppe development process is active in the:lower parts of the relief where grasses grow during the moist periods of springs and autumns. Card 1/2  0 USSR/Soil Science. General Problems. I-1 Abs Jour: Referat Zh-Biol., No 6, 25 March, 1957, 22419 Author Popazov, D.I. Inst ---------- Title Genesis of Lime Accumalations in Different Soils. Orig Flab: Dokl. Moak. s.-kh. akad. im. K.A. Timiriazeva, 1956, No 22, 276-283 Abstract: Analyses of the total composition, vater soluble and organic sub- stanees, contained in carbonate fozmations "zhuravchikakh" taken from loamy chernozem soil of the Orlov oblast' and from gray forest argillaceous soil of the Yaroslav oblast' revealed a striking si- milarity in their qualitative and quantitative compositions. It is noted that "zhuravchiki" vere formed under the influence of soil-formative processes. The formation of "zhuravehiki" in dif- ferent soils, evidently, has similar characteristics. Card 1/1 -4-  USSRISDil Science S,)il Genesis and Ge.)i~Taphy Abs Jour Ref Diur Diol., li~ 1, 1959, 1322 Author P;.-)pa zov j D. I., Inst miscow Agricultural Acaderiy in. K.A. Tij:iiryazev Title some Mechanisms in the Development of Solonetz, Solonchak, and Soloth Soils. Orig Pab Dokl. t43sk. s.--kh. akand- in. KAA. Timiryazeva, 1956, vyp. 25, 23o-236 Abstract Consideration is given to the physical and chemical (K.K. Gedroits) and biological (V.R. Williams) theDries of solonetz, solancILak processes of sail fornati.3ii and solodizatioof the soil. Soils of -the droughty reGions are characterized to different degrees by the nailifested solonetz, solonchak, and solodized conditions of the Boil. Prevalence of one of these processes indicated only that Card 1/2  USSR/Soil Science - General Problems. J. Abe Jour : Rof Zhur - Biol., No 15, 1958, 67859 Author : Bushinskiy, V.P.,-Jb ~-,, ~D.I. Inst : Timiryazev Agricultural Academy. Title : Agrobiological Soil Science in the Timirynzev Academy. Orig Pub : Izv. Timiryazevsk. s.-kh. akad., 1957, No 4, 77-90- Abstract : A review of the work accomplished in the soil science department of the Timir5razev Agricultural Academy for the period 1917-1957- Short descriptions are given of the basic scientific works of members of the department. Card 1/1   FOPAZOV. D.L. kand.sel'skokhozyaystvannykb nauk Comments on the article "Single soil formation process." Izv. TSKhA no.2:2?5-229 '59. 12:8) (Soll formation)   PO IPAZOV, D. lot DOG,,AOR SC,Iq "SOIL FORMATION PROCESS AND FERTILITY OF SOILS. (ON THE OR96 OF CERTAIN NATURAL 1961 ci RES INS-y", OBLASTS OFIASR),," MOSCOW9 tlftt 'Irs T OF t=4W%1F THE A&90W~ACAD OF AGR SC.~, BS3R)0 (KLq 3-61 9 224)& 309 S-C,~i.l z3aifXjC0* "Soil crune;!js and Goograpw, 11~DS- JOUR. FtZhBiol. 140- 3 19,59, P0, bUgakov, P. S. AQVcow kgricultural Acafjc-my Woni K. A, Tj T I In TL P, Some Ghmractr-,r48tjC2 of ;30il 4vorg;atiol, in t-fte Of j"'Orthwesterr, jPart Of PrikaspiyBkaya Depreas; ()DT G. PUB. DOM- 14o.41c. u.-Mi. aked. im- K. A. Timiryazeva, 1956. 1, No. 26, 6o-66 A33TRACT Tha characteriatics of the biological cy(.19 of 7-0+tor in 1 the SOUG of 1.1Fh.t-ah~8aut aubzone are exazjjlne~sd. ~;Ijs 4,jin-! lial falling-off of the plaut root ma--s on SoU15 is 'I-) tlimeu groBter then that ot t1io moiia.- Alkali eartil b0803 PYUdanzinmhte oVer Vir) J-11 the corapcsitic-L of. anh of wormwood (Artemiuia)-f~i-;eiAe grgiris (Fontuca suljcat~&) iisaociation groving, on dfric cred zoila of I;hfj ajwk-Li. Paverso propnrt-ton JS In the cronpohition of tho osh of bltkck growittr-', oil Brilonot?. bejIs. lyhe omollint of ash ejormntp m Sc,lonetz; i C."IRD- 1/2  T L -t~ o F., 1. C! Pun, P. Z'l C. T vniln, drawit into tim, miuor biologicol cYclv above-gr-ound maen oil t,11ack warmwu~,d comprimet: per hectore nnd that of t1he rootfi 2850 centners. Tho amouat o,' ash elemerms on dork colored. ac-ils of wc-,;-v~mcd (Artemisia)-fesaue grass (restuca wulcata) PS5OCiaX-;,Oy1 oomprises 707 and 13,559 centners per hectare -;5spoctive- ly. The principal rolo In the cycla of substEmces b-t- lowas, to tht,,roots of herbar-cous plants. -- S. A. Nikitin ~,Jr 2/2  US(~.'Soil Science.- Soil Genesis and Geography. Abs Jour Ref-Zhur Biol., No 19)` 1958r86712 Author Popazov, D.I. Inst Moscow Agric.-Acad. im. K.A. Timiryazev Title :Certain Data on,the Chemical:Composition of Manganese Iron Concretions of Turf-Podzolic and Solodized Soils Orig Pub Dokl- Mosk. s.-kh- akad. im. K.A. Timiryazeva, 1957, vyp. 29, 208-213 Abstract Data are given on the chemical composition of samples of ort.stein grains of turf-podzolic soils of Moskovskaya Oblast' and.bean plants of soloths of the Western Kazakhs- tanskaya and Stalingradskaya Oblasts. These new formations consist chiefly of S102) Fe20 ) A120~, Mn20Y The sun, of these substances forms 95 to A% of he gross composition. Medium reactions in new formations are weakly acid. ...Card 1/2 -15  POPBACHEVA, I.P.; POPSKRINA, P.S. Changes with age In the amino acid content of swine embryos Lwith sumakry in luglishj. Ukr.bifthim.shur. 29 no.1:96-100 #57. (KIRA 10:5) 1. VsesqyuzW nauchno-iseledoystallskiy institut shivotnovodstvo.. Koskvs. (SWUN-PHTSIOLOGY) (AMINO ACIDS) (32TUS)  MAKAROVO G.N.,- KAZINIX., Ye.M.;-P-OPCHENKO,, R.A.& SEMENOVp A.S.; YERKIN, L. I. RYVXDi , k-LOY.-T.Ye. - kOTAFIN, F.A KMNETSOV I.Tu.; PRX P.V.; ZOROKHOVICH, G.Ya. Coldng of the coal charge in an oven with,a rotatirw ring floor. Roko i khim. no.3-1234-41 162. IKRA 15912) 1. Moskovskiy khimiko'-t-ekhnalogicheskiy institut im. D.I.- Mendeleyeva (for Wtarov, Kazinik, Pbpchenko, Semenov). 2. Vostochrqy,uglekhiini'eh-eakiy,.institiit-(for Yerkini Ryvkin, Privalov). 3.'Nith~e--Tagiltskiy metallurgicheskiy kombinat (Mustafin, Kuznetsov, Zoid~hovlch). (Coke)  POPCHENKO, S., kalid.tekhn.nauk; IEONDV,-B., inzh. Experience with the use of cold asphalt waterproofing. Zhi-1. stroi. no. 3:7-9 Mr 161. (MIRA 14:4) (Waterproofing)  GLUBOV, P.D..prof..doktor tekhn.nauk- POPCIMITKO, S.N.,kand.tekhn.nauk- Impregnation of chalk with organic binclers. Izv.VNIIG 49: 114-136 '53. (MIRIL 12:5) (Chalk) (Hydraulic engineering)  T- USSR/Chemical Technology. Chemical Products and Their Application Silicates. Glass. Ceramics. Binders, 1-9 Abst Journal: Referat Zhur - Khi iYa, No 2, X957, 5344 Author: Glebov, P. D., Popchenko, S. N. Institution: None Title: Filling of Joints in Hydraulic Works Structures with a Cold Asphalt Cement Original Publication: Gidrotekhn. str-vo, 1956, No 6, 18-22 Abstract: Description of the properties, production technology and use of cold asphalt cements made with bitumen emulsion pastes, which are pro- posed for filling joints in hydraulic works structures, in lieu of the presently utilized bydroinsulating materials, asphalt plates, etc. Card 1/1 -------------------------------------------------------------------------------------------------------------------  kax~j!:bs#4n.iiauk; LEONOV, B,V., inzh. Using vachinalry in cold,la ng.of vaterproof bitum tic coatings. Using sac nery I Kekh. stroi. 15 no0'4:17-19 Ap 1580 (MIRL ll:-;j, Nekh -stZi- 15 r (Bitumen)  (ZIBOV, Petr Dmitriyevich; ILIYAWMV, Grigoriy Mikhsylovich;_LOPCHEMO. Sergey Nikola7evich; GIRSMW, I.A., red. (Forming imnervious curtains by injecting biruminous emulsions] Ustroistvo protivofil'tratsionnykh zaves nagnetaniam bitumnykh awallsil. Moskva, Gos.energ.izd-vo, 1959. 44 P. (MIRA 13-3) (Bituminous materials) (Soil percolation)  POPCEENKO, S.N., kand. tekhn. nauk; 2EDBIOV, Yu.S.j. inzh., red. (Waterproofing and roofs of cold asphalt mastic; accord- ing to materials of the All-Union Scientific Research Institute for Bydraulic Engineering] Gidroizoliatsiia i krovlia iz kliolodnykh asfal'tovykh mastik; po materialam Vsesoiuznogo nauchno-issledovatellskogo instituta giaro- tekhniki im. B.E.Vdeneeva. Moskva, Gosstroiizdat, 1962. 31 P. (MIRA 17:6) 1. Akademiya stroitellstva i arkhitektury SSSR. Nauchno- issledovatells'kiy institut organizatsii, mekhanizatsii i tekhnicheskoy poroshchi stroitel'stvu. 2. Rukovoditell laboratorii gidroizolyatsii Nauchno-issledo-vatel'skogo instituta gidrotekhniki im. B.Ye.Vedeneyeva (for Popchenko).  POPCHENKO Serge), Nikolayevich; LEOVOV, Boris Vasillyevich; 1 401v,,St'a~n~i7,s~'l-a'v"'Georgiyevich; STARITSK11f, P.G., red. [New developments in the construction of nonrolled roof- ing of cold asphalt mastic] Novoe v stroitel'stve bezru- lonWkh krovell iz kholodnykh asfal'tovykh rastik. Le- ningrad, 1964. 21 p. (MIRA 18:1)    POPONEM,-Bargey-Nikolayevich, kand. tekhn.nauk; JJECRAYEV, G.A., inzh., nauchnyy red.; ROTENBERG, A.S., red.izd-va; CHERKASSKAYA, F.T., takhn.red. (Cold asphalt waterproofing] Kholodnain aafalltovaia gidro- isolistaiia. Leningrad, Goastrolizdat, 1963. 235 p. (MIRA 16:5) (Waterproofing) (Asphalt)    Waterp 39 no. (Wa    PC "'C *~ 7v TECETCLUM, vol. 10, no. 5, 1958. Ponchev, V. Some cauncs for increasi-11c, the deviaticai bi:Al.4een tho c~peraticnall and t=--ii~f net ton-kilometers D. 11 Monthly Index of Ea3t Elirc-pean Accen3-cns 'I' T-C Vc1l. EA Jan. 1959.  EXCERI/2A CA See-13 Vol-11/2 Derniatology.0tc.FeW COV A., ANGELOV V-. GEORGIEVG. 539. p0PCIlRlS'r0V P., LEWKOV A.. TOSCHK OV St. Wissenschaft]. Dermatol-Vencreol. Forscl..-lnst., Sofia. a n ff TATI -NI I *Ober die %Vechselbezichungcn zwischen Penicillin, Arsunobenzolen und Wismut in vitro und in vivo. The into r- re la t ions hips be t we on penicillin, arsenobenzol and bismuth in vitro and in vivo DERM.WSCHR. 1955, 132/47 (1225-1235) Tables 2 In the authors' opinion, treatment of syphilis with a conbination of neosalvarsan. bismuth and penicillin produces much better therapeutic results.than treatment with penicillin alone. Heavy metals and arsenobenzol do not reduce the effect of penicillin. Penicillin decreases the toxicity of arsenobenzol and bismuth (experi- ments In mice). The bactericidal activity of human serum is enhanced by peniciffin. This increase is promoted by simultaneous administrationof neosalvarsan. Rust - E lerlin M   il A case of a cw-b4inerl hearl. defa--t~ existing with bone chpnFec;. Pat. -:'ol. 15 1 . Z I KJ ~m ik I ;;:t i e ARD(latril Med, yczni~;! Ez-tikuw'*. "ka z Medyc 3 rowni . prof. dr. ~rny P-1cadem.11. Ne-l-iyc..%il~'f w Kra-kowls (Kier owi ik". dr;c. dr. med. J. Koblela)o    SOCIIA, Wladyslaw; Endocardit 1. Institu Ilead: Pro of Medicins  KOBIELOWA, Z.; KUCHARSKA, K.; POPCZYNSKA-MARKOWA, -;- SOKOLOWSKA-PITUCHOWA, J. Diagnosis and anatomo-pathologic picture of the bland-white-garland syndrome. Acta. medica polom .2:no-4:391-396 161. 1. 1 Pediatric Clinic Medical Academy, Cracow Director: Prof. Dr. T. Giza Department of Pathological Anatomy Medical Academy, Cracow Director: Prof. Dr. J. Kawalezykowa. (HEART DEFECTS CONGENITAL pathol)  DAVIWV" Si.M., prof.; FOPDINITROY, I. Raperimental studies on neural trophic conditions and on periodontal insufficiency; PA preliminary commmication..Stomatologiia no.j: 33-40 '54. (ML 3--7) 1. Is Katodrata po kbirurgichna stomatologiia pri Ked. akadeniia IV. Chervenkov.1 Sqfiia.Nauchan rukoyodltol: prof. 31. Davidov. 2. 1z Katedrats, po patofiziologiia pri. Ned. akademila wV.Cherven'- kov" Sofila. Zav. Katedrata: dots. St. Pisarev. (PJRIODONTIUM, diseases, *expor.. corebral.decortication in animals prod. neural dystrophy & periodontal insuff.) (CXRZRRAT, CORTU, physiology, *off. of decortication in animals on periodontal Insuff. & neural dystrophy)  SIRA IMOV. V.; OPD Resuscitation of the organiss following clinical death in dogs with a denervated carotid sinus. Biul.oksp.biol.med. 42 no.6:16-19 is 156. 1. Is patoft2tologicheekoy laboratorit (zav. - kandidat meditsinakikh nauk V.Seraftmov) Inatituta gematologli i perelivantya krovi (dir. A.A.aastasov). Sofiya.,Predstavlena daystvitellnym chlenom ANN SSSR ~.N.Chernigovsklm. (RMSUSCITATION after exper. death in dogs with denervated carotid sinus) MATH exper. death o dogs. resuscitation, in off. of denervation of carotid sinus) (CAROTID SINUS. physiol. off. of denervation on resuscitation in dogs after exper. death)   SERAFDIOV-DIMITROV,v V.;*--PQ*~ ~TROV~,I.~ STOICHKOV, I. (Soflya) Pressor and depressor regulation of blood circulation in resuscitation following clinical death. Pat. fiziol. i eksp. terap. 4 noo 5:47-51 S-0 160. (MIn.13:12) 1. Iz patofiziologicheskoy laboratorii (zav. V.Serafimov-Dimitrov) Bolgarskogo, nauchno-issledovatallskogo instituta.gamatologii i perelivaniya krovi, i (WUSCITATION) (BLOOD CIRGftj!ATION) ~-m R0  POPDIMITROV, Ir. A. txperimental data on the role of the central nervaas a7stem in pathogenesis of tuberculosis, preliminary communication. Suvrem. mod., Sofia 5 no-8:3-10 1954. I, Is Instituts, po patologichna fiziologito, pri Mod. aka4emlin V.Choryenkov, Sofita. Direktor: red. dots. St.Pisarev) (TUARGULOSIS, experimental, pathogen. role of CIS) (CRITRAL WERVOUS SYSTIM,An various diseases, exper. tubere., pathogen. role)   POPDIMITROV, Iv., Al., kand. na mod. nauki k~~~~ ` The role of the central nervous system in the pathogenesis of tuberculosis. Suvrem. med., Soft& 7 no.7:14-21 1956. 1. Is latedrata po patologichna fistologit pri VMI-Softia. (MICRCUWsrs. exper. ~ pathogen., role of CNS) (CENTRAL NMMUS STST124, In various die. role In pathogen. of exper. tuberc.)  COUNTRY Bulgaria C A T f, G 0 RY H-17 AB3. jOUR. RZ,011 ila 0 - i~:1'50, 17o. 87576 AUTIHOR Poedimitrov K I'V3T. belentiric Research Institute of Pharmacy T 1 T LIE, Production of Nucleic Acid for the Preparation "Nuklevazan". ORIG. AT B Tr. N.-J. In-t farmatsiya, 1957, 19 11+7-11+9 ABSTRACT In industrial-scale production of nucleic acid from bakers' yeast, for the preparation "Nuklevazan" which exhibits a hypotensive action, a siphon-centrifuge has been used in.the step of separation of extract from yeast hydrolysate. Separation of inert materials from the thickened extract was effected by mixing the latter with 50% alcohol in alkaline medilam (pH 8); this leaves the N-la-salt of nucleic acid in solution, while the precipitate of proteins is separated by centrufuging and is discarded. Preservation of the finished reparation is effected by adding to It 20k alcohol (95. ~ and 5$ glycerol. From author's summary. -R-D