SCIENTIFIC ABSTRACT MIKULINSKIY, A. D. - MIKULINSKIY, M. A.

MMItTMnY. A. S. MIKULINSKIT, A. S., GZLID, P. V., IVANOV, V. K. 36061 ?""raturnoys pole v odnoolektroaroy pechl.* V 9b: Toorlya i pra9tiKa rudnoy eleltrotendl. S"rdlovsk4b~kva. 1948. S. 72-75. SO: Lotoplal ZhurnalO YWkh Statey, 110. 1490 1949  KUWLTNSKIY, A. S. MIKULINSKIY, A. S., IVANOV, V. X., I G.-I'D, P. V. 36M1 Zl*ktricheagoys pole v dvuMwl*Ktmdnoy pedhi. V ob: Toorlya i pr&Ktika rudnoy eleKtrateraii. SverdlovskAbskvii. 1948. S. 76-78. SO- lAtopies Zhurnall rWkh Statay. No. 49. 1949  0 -. -. MIMINSKIY. A. S. I IVANOV, V. K. 36128 X rasprodolodyu toka v rudnoteradebeakiKh poebaft. V ob: Tooriya I praKtika radnoy eleKtrotendl, Sveridlovsk4ioskva, 1948. S. 79-80. SO: L*topiel Zhrunall rwkb Statey, Igo. 49, 3.949  W KULINSM A.S. - MIKULINSKIY, A. S. I IVANOV. V. K. 36089 AnaUs eleKtrichookogo polya v odnofaznoy pachl s toehKI sroniya toorit podobiyg V 9b: Tooriya i praKtiKa rudnoy elaKtroterwli. Sverdlovsk-MaKya. 1948. S. 81-82. SO: lAtopts' Zhurnall nykb Statey, Wo. 49. 1949  XMLMXIY, A. S. MIKULINSKI,, A. S., GaID, P. V. I ITkNOV, V. K. 3"o T"VsratunMe po].~ Korna grafjtl,,.,,chnoy pachi. T ob: Toori" I praKtiks rudnoy ol*Ktrotersdi. Sverdlovsk-14bakwa, 1948, S. 83-90.-BibUogr.- 8 nazy. SO: lAtopial Zhurnaill Vkh Statey, No. 49, 1949  IITKnINSKIY. A. S. MIKULINSKIY, A. S., TUWIIOVA, L. V. I P. V. 36181 0 temperature shikhty I davlonli gazov v karbidnoy pechl. V 3b: Teoriya i praktiki rudnoy slektrotersdi. Sv9r-dlovBk-Moskv&,, 1948, S. 91-94. SO: lAtopial Zhrunallrykh Statey, No. 49, 190  WY,UITNSMp A. S. Mkulinskiy, A. Do "The upper temperature limit in mine furnaces ", (Repcr t), S~obslhcl o nauch. rabotakh chlenov Vsesoyuz, khim. o-va im. Yendeleyeva, 1949, Issur 1, p. 22-23. SO: U-4630, 16 Sept. 53, (Letopis 'Zhurnal 'nykh Statey, No. 23, 1949).  A. q. an,! YWAVOVA, 1,. V. ~ 'Mikulinskiy, A. 1. an,] Ym-nnovr~j, 1. 7. vn~-' rp-*,r, - . r":-Ij I -, - - , - - - L -- -.~ of the space underthe electrorl-s of a carbide furnace", (Report, Scobshch. o nald-. . rabotakh chlenov Vsesoyuz. khim. o-va im. fle-rideleyeva, 1949, Issue 1, p.23-25. SO: U-4630, 16 Sept. 53, Uetopis 'Zhurnal lnykh Stntey, No. 23, 1949).  ff 1107 MikuUMM A. glestme W '___3VfFr-dftV- okirtronowrl. PrwgbW Technimy. No. 4. 101. pp, 161-171, n lip. Stitt $UtVeY Of the d#V*&OPMOnt Of the MkfOWOPI. IVAPrOV0. mentj~ tntroduc&J In the course of recent decades. Physical prin- ciples of operation or tlw optical and electron microscopes. Can- struc0onal details PrIncipke of operation, Vectron lensgg: eloctro.- %tatic and electrimmWnetic; advantages and defIclextelve, rww of Application. Hot and wid Whad" as a source of emL&sinn of olect- rons. Diagratng " metiona LhrvMh the electron mictomcope. Dv- sign and operation of puMps to produce the necessary vacutun in- side thp microwiVe. Relattwo sbn;)Ilclty of attendins to this see=- ate. and compliented appWaLVA  45M of-C. Ma. at thw fiffarzileft Mae ,d flard-to-111"We During Tbrir IWISCUMN 17 C411641111 10 WON* from rareness. t It Russian.) A. S. Mikulinakil. EAurnal Prikladoood K" MU;-v:,24. Dect 1951, P. 123&1245. Various problems connected with the production of materials such as Sk from BIG. The vapor stage of slo wall found to be very Impor- tant. 16 rot. (C21)  MIKULINSKIT, A.S. Role Of the state of aggTegation. of difficulty soluble oxid8s in their reduction by carbon in industrial furnaces. Zhar. Priklad. Khim. 24, 1234-45 151; J.Appl. Chem. (U.S.S.R.) 24. 1399-1411 '51 [Engl. trans- letion]. (MLRA 4: 11 (CA 47 no.18:9229 153) 1. Ural Chem. Research Inat., Unikhim.  Al /.'( te 1 , AW %" /I i , . '-~' - , USSR/Chemical Technology - Chemical Products and Their 1-6 Applications, Mineral Salts. Oxides. Acids. Bases. Abs Jour : Ref 2hur - Khimiya, No 3, 1957, 8790 Author : Yumanova, L.V. and,11ilculinskiy, A.S. Inst : Uralsk Science Researea-Me-tizat-Ingtitute. Title : Phase Changes and Chemical (41anges in the Charge During the Reduction of Oxides of Calcium and Silicon by Carbon. Orig Pub : Tr. Ural'skogo n-i. khim. in-ta, 1954, No 2, 166-176 Abstract : A laboratory method has been developed for the investiga- tion of the reduction of the oxides taking into account the filtering effect of the charge in industrial furnaces using electrodes inserted in the charge. Some information has been obtained on the reduction of CaO and the mecha- nism of the reduction process. Most of the CaC2 is formed in the lower high-temperature zone of the furnace where the liquid phase collects. An increase in temperature from 1800 to 19000 increases the conversion to carbide Card 1/2  USSR/Chemical Technology - Chemical Products and Their 1-6 Application, Mineral Salts. Oxides. Acids. Bases. Abs Jour Ref Zhur - Khimiya,. No 3, 1957, 8790 above 10-30%. The excess C in the top carbonaceQU3 layer of the charge is the product of the dissociation of CaC2. The C and e1ementary Ca diffuse to the upper layers of the charge imd cover the surface of the CaO and C chunks and d:Lff)ise Into the interior of tbp- latter. SiO2 and its dissociation products are reduced In tkie vapor state. When sufficient iron filings are added to the charge to form 45% Fesi, metallic beads are formed, the carborization of tha Fe being accompanied by its enrichment in Si in tqe upper layers of the charge at 1-100-12000. Card 2/2  Mjj5/008-- Tubular electrodes used in .... AG,54/AI27 iodical flashes of the are of tubular electrodes are less intensive and less con- centrated and, therefore, they are less harmful to the furnace lining. The cur- rent load per phase is more stable, and depending on the phase conditions of the furnace, increases by an average of 20 - 30%. This can be explaine-a by the arc burning conditions being improved, due to factors affecting the arc-discharge stability, which, as time progresses, shows less change than when using conven- tional electrodes. The number of automatic cut-outs of the oil switch is reduced by 30%, on account of a stable current load of the transformer rendered possible by a physical contact between the electrode and the charge. liview of the re- sults, tubular electrodes are most expediently used in smelting carbon-free ferro- chrome in refining furnaces. They are expected to contribute to a prolonged ser- vice life of the furnace lining and due to their electric load stabilizing effect they will make possible higher voltages in electric steel smelters and ore-smelt- ers. There are 3 figures. ;LCard 3/3  MIKULINSKIY, A.S.; RYABCRIKOV, I~V, Ho.kdng cal."Lum and =L_cTe-5ijirj -alloys with silicon. Izv.-rfs.uch_-b. zav*; chernamet's 5 162. (14M 15:7) 1. Institut metallureii Urtillakogo filiala AN MSR. (Silicon--iron-mag,nesiwa a.Uoys-ElectrometaUurgy) (Gulsium sll).olde) (Magneigium vilicide)  M3K A --q-; VOROBIYEV,, V.P.; KOTELINIKOVI I.A.; PriniLml uchastiye LAUTIN, G.M. Use of tubillm electrodes in industrial electria,furnaces for steel smelting. Stall 22 no.4:318-219 Ap 162. (MM 15:5) (Steel-Electrometallurgy) (Electric furnaces)  43815 5/020/62/147/004/025/027 5_~2 BIOI/B186 AUTHORS: Friahberg, I.V., Mikulinskiy, TITLE: Variation in the maso transfer coefficient for magnesium vapor condensation from a mixture with helium PERIODICAL; Akademiya nauk SSSR. Doklady, v. 147, no. 4, 1962, Be6-888 TEXT: The condensation of magnesium vapor-mixed with helium was determined at atmospheric pressure and at a flow rate of 1 am/uec. Details of the method used for the purpose will be described in a paper that is now being printed. In the first series of experiments, the concentration of-magnesium in the vapor and on the condenser surface was altered by varying the temperature of.coridensation. In the second series, only the surface temperature of the condenser was varied, the initial partial pressure of the magnesium being kept constant. The mass transfer coefficient was calculated from q - (apAT c ) ln[(p pc)/(p - ~i)19 where a = D/6 cm/~ec; D - diffusion coefficient,3cm2 /see; 6 thickness of the diffusion layer. The second series showed a to be a linear function of T.. The results of the-first series indicafe that a probably depends Card 1/2  ~/020/62/147/004/025/027 Variation tn the mass transfer ... pioi/Bi86 t.103/T , wherefrom 6 exponentially on 6p. Hence joga - 1.1537 - 0-33, c is obtairfe~ as p-0.08. Wri are 2 figures and"f table. The English- language'r6ference is: R.S~ 6vetanvic, D.I. Le'R6y, J.Chem.Phys.; 20, 343 (1952). ASSOCIATION: Inatitut meta ~llurgii Ural'skogo filiala Akademii nauk SSSR (Institute of Metallurgy of the ffral Branch of the Academy of Sciences USSR) PRESENTED: July 16, 1962~,.by S.I. Vollfkovicht-iAcademician SUBMITTED: July 12, 19621 -Card 2/2   -Card  RYAb(;HIKOV, I.V.; MIKULINSKIY, A.S. Conditions for the reduction of magnesium oxide by silicon during the smelting of magnesium addition alloys. Izv. AN SSSR. Otd. tekh, nauk. Met. i gor. delo no.2t9-12 Mr-Ap t63. (MIRA Milo)  77~ :7 fl NR tP J; 1. 4" -V bbu. Wric; 4~111 ass `13 -NO-JA740- & 4'k N l2i A96 v!;, a wK. obtglid*'~" tan v Method of . A16tin -Ats ~-distlz*l. hifi-fla it g.. -ture JS.Ab itlofii tha'm4lt-U`6ibjdoted,t* Aist urity, 0, in cmmA_t-,8--- a par Aofi is the cmdolum a:c a a .,-1e ving A -' t of,th~,..Calolum and returning the resi uiv to 'this, Uthe ~-!' OV, C, ate hi~q~~,fpstiaqter!s~;not OMPI 0~1~ grap none z4SSWIATIQNu.-'. ..jam^ - 00 DAT 'm 9 Ad4i .8", SUB. COD99.., GE No REF. iaii7* -000 "oTHEft, icoo . Caid I I.: Z 7  FRISHBERGP I.V.; -PUKULINSKIY, A.S. Prospects for developing the si-licothermal method of magnesium production. Izv. Sib. otd. AN SSSR no.2:63-66 162. (MIRA 16:10) 1. Urallskiy filial AN SSSR, Sverdlovsk.  MIKUUNSKIY, A.S.; KOZIIEVNIKOV, G.N.; BAKEREVA, L.D.; VULIKII, A.I. Vacuum-thermal separation of cesium and potassium fluorides. Izv. 90 AN SSSR no.7 Ser.khim.nauk no.2tlO5-107 163. (MIRA 16s10) 1. Ural'skiy filial AN SSSR, Sverdlovsk.  MOLEVA, N#G.; ZHUCHKOV, V.I.; MIKULINSKIY, A.S.; KUSAKIN, P.S.; YEFREMKIN, V.V. Gliange in the phase composition of materials in relation to the height of the thermal ore furnace in obtaining manganese sinter. Trudy Inst. met. UFAN SSSR no.7-3-19-125 161. (MIRA 16:6) (Sintering) (Manganese ores)  FRISHBERG, I.V.; ~MLINSKIY, A.S.; V-ETREIIKO, Ye.A. Device for measuring the quantity of a condensing substance. Zav. lab. 29 no-9:1143-1144 163. (MM 17:1) 1. Institut metallurgii Urallskogo filiala AN SSSR.  FRISHBERG, I.V.; MIKULINSM,-A.S. Study of the kinetics of magnesium vapor condensation and the design of a condenser with variable temperature. Zhur. prikl. khim. 36 no.5:949-953 My '63. OURA 16:8) (Magnesium) (CondenserB (Vapor afid ganes))  POLUBOYARTSEVp A.G.; MIKULINSKIY, A.S. Mechanism and technology of the thermal reduction of potassium chloride. Zhur. prikl. khim. 36 no.12:2610-2619 D'63. (MIRA 1712)  ZHUCHKOVI V. I.; SUCHILINIKOV, S. I.; MIKULINSKIY. A. S.; MOLEVA, N, G. Electric resistance of ore and lime mixtures used in the manufacture of metallic chrom!.um. Izv,vyo,ucheb.zav.; chern. met, 7 no, 4:62-67 164. (MIRA 17:5) 1. Urallskiy politakhnicheskiy institut.  A,STAFIYEVA, M.N.; VETRENKO-, Yo.A.; MIKUUNSKIY, A.S.; FRISHBERG, I.V. fciwi~a f,,r calTulating the coeffi,-Ipn+ ef ~ondanaqatirjn. Zhur. fiz. kni.m. 38 no.29.523. ~525 F ( . (MIRA 17'8) % lwtltu~ w4jillurgill llrallokogo filiala AN SSSR.  BROKOVOKTY, fl..F~p red. .................... , , - I (Determination of parw-rit,:er.,i c,!' usir4y, the 34milil.,ide theorny] npf-.~,jej,~MF~ pwar,:31t.r-5v ricj-, riotermi,~heslki~.h pi-Inei ria tonrii,~ jjodiobi,la. Fnc,rp,,iin, -1,964. 85 p. ( I;k 1, ---, ~* I p t ). )!  i&A k 7.7,11 7. -7 777~7 MLE:"~',~P_" duft OW.0 77 )URCE,-:. 4,,JI,6~7101: 964. zifiii :(Pr6oesiks of~- mining. -eleRi~~thairmjw 13-8-14 - 3 pos tJ oa~--. emo 'eids~L Oki a alumi-~ T -7' a a--,, ompos bve. T ~b y_. ~9*:6i qqi, Fmpo A 41, M_,Yzq_~ hp V16 rmo am ca 'ibiments w re tr-"of- the.: w3re: dted_--fdr_t e~Or_ eL eas illill pro esseffi;; pu twe, e, e3:4 A ed:ln cru6516~ --,COMPOUU ac ------ -'iniiyz~d-_fot~ lde-~ ous---temperatulpost..~th*6,.Jj~~'sult ng_:produars:wem~ ox si6red' i&_;~ihough-.y el&Ad "Tor. PrO-,-' 6 It a --d ei, OiLL~ it a d~ cdul a, produced: '~3 OiC- d at. s s_--Of -0.05.4o 'm- gi,,~ or-a~~ prie sure 0 5 A f  -AT501589 A SS C(Z WAS bhemlca~ nfed'- ej~ ~'iratures, w-A OOC, range,'and at 4 -th fate-__- 4;~cajnb _-iag i _after,thik-lfie -Of Q_ 05 H, w4B d t--diss ate ~u 9 at,1300~14000C ac- -d- cooin&3,to,'_-.the- react on-As ips 2 i lo! F.Me (I -Aljoi~~ alto'-establishe -Ahat~f6 __500;400PC..wL visidual-ptiessures ty ou dtoxide- -6 ld bd-dehy- ~iid--,emd~--a-~yi*eld~:of..vBS~gl%'-.L~pO'.'6btaitoidi--.Wheri--'-Ithe-.'tenp4ratiLri-Ilig-redtfced to-:'. _100 ~:7 bf, ce:at~l A, h 66 0 i=, ~~ k# ' d Ifth gend 1 1, k, .ii, b 6 hi i d _J fu i duit.-lithim  ",diiL-A'~- teto: m6iaiu~ pdt i~eticm t -is ..,l" a 3-8 UW'py~thC:~-,'~   MIKULINSKIYP A.S.; RYSS, M.A.; RUSAKOV, L.N. Role of silicon carbide and the rotation of the furnace bath in making silicon and its all(rfs, Stall 24 no.7:620-623 Jl 164. (MIRA 18i1)   J~ 1 C Sri rurnace ~rudy" i i in _,p seur (!dnde e MA it a furthcm. work I ro Pn~i UKMF. i; A ILW 41 ty.. q L% CL2V t11; 4, 4~ I M t. LOU UK, MCE W L TLEt, GUZI"! -41s6w`a~61yzid - . .. __ 1, 11 it :., Ii Prey oua~ *oray.,i uines (Boydilo H. K i~ ---Vyp-- 10 -go- 3 1957-- -ffeVskokho tvinno 6', rust tutai runze he, -Ahe latt ce para-1, Owin systaig , are t e OfAfa_,on the:p' a- rip'p pii-,,aim.was_- a -More_~ efficient, :uum ~rurnacei -c s e al.::fi&re.'16 givem which outlines-, t e, kjfion.- -.The--- I h. explan oal U- ~i' Om ~ijf -Na Incl a US'e- ie': In "the p ra. ading proce-- LCt Of t a-furna ropr ate transforaid L eLexper n1AJ tibni -40 thew--lbe4ting tb~aja 3.5-4 hrai n,ge,4_ The NaVapor"Was aftii. fAdal,:. fiioiiirij;~faiiii., UM C__ authom con Tho. alude,that id.. 'U '16r& ;t eatabl"fv~ 6ptibitw-olectr -cA conditions -for necess of: real JO  NAKRABIN V.P.; STIOLOKHOV, V.F.; NEVSKIY, R.P : MIKULINSKIY, A.S.; 4HIJCHKOV,V.I.; EPSHTEYN, R.Ye.; VOROL'YE-T,--7-.P-. Using semicoke as a type of reducing agent in the production nf silicon-chromium and carbon ferrochromium. Stall 24 no.11:1006- 1008 N 164. (MIRA 18: 1)  I FF~ . 'V'~ I. ; VC)YtCJB'I- - .- - I .- EV, V.P.; 141KLJLi!!SKIY A.S m(-;af:ijrem(-,rt of temperaWrP, eluct.-ic'Ll of' the charge, and position of electrodes as a v.ethcd for :Jtw~yirle, the operation of charge-resistance furnaces. Izv. vys. ucheb. zav.; chern, met. 8 no.2:73 165. (MIRA 18:2) 1 " .1. _,vordlovskiy metallurgichaskiy institut.   on-,-,-t ik h 'd ei'largw' axw, an -ts -~~A-athe- -dt- ff-itti 0--r-L ki6id4 g~-' artc. -Of 't *.reaLdd6n--'-is7 indrease4---to Vh aD.L at Kin SLM-. Cobi*, MW z, T~ -6~-gR !V C F I Jr~  ACC NR, AT70011208 sou Re i-666-i T_u V-66W16 6_/o6d/o6d/od69/bdV- AUTHUHS; Mikulinakiy A. S.; Frishborg, I. V. OKG: none TITLEi Investigation or condensation of magnesium vapors from a mixture or magnesium vapor and helium gas ? SOUICE: AN SSSR. Institut meta1lurgij. Eksperimentallnaya tekhnika i metody vysokotemperaturnykh izmareniy (Experimental techniques and methods of high temper- ature measurement),. Moscow, Izd-vo Nauka, 1966, 69-73 TOPIC TAGS: magnesium, helium, metal vapor deposition ABSTRACTs An apparatus for determining the mass transfer coefficient during metal vapor condensation from a mixture of metal vapor and permanent gas was developed. A schematic of the apparatus is presented (see Fig. 1)* This apparatus was used for determining the rate of condensation of magnesium vapors from a helium-magnesium vapor mixture. The experimental results are shown graphically# 1t was found that the condensation rate obeyed the Stephan-Maxwoll law* Ye. A. Vetranko participated in  ACC NR& Fig. 1. Apparatus for determining the mass of condensed substance. 1 - balance case; 2 balance; 3 - cowiterweight; 4 steel shaft; 5 upper removable hood; 6 lower flange of reaction vessel; 7 - reactions vessel; 8 - steel screen; 9 - furnace; 10 - evaporator; 11 - steel shield; 12 - con- r densation surface; 13 - inlet Pip0s;. 14 - steel cylinder; 15 - steel bushing; 16 - thermocouple; 17 - out eta for vacuum pump, gas and measuring devices; 18 - damping cup; 19 - magnetic d&nper; 20 - arrest the investigation. Orig. art. haa: 3 graphs and 1 equation. SUB CODEt ll/ SUBM DATEs none/ MIO REF 2 003/ OTH REF% 001 Card  JIT ,) . -" I .j - , , :~, k ' ; 2 1.4 t, 7 -T7T F. ry anu ~`iermcolu-2trorwtve f~-ice ri at Jjgjj t.,trlyplratur,3s, lzv. AN SSSR. V~~, r,o-4. JI-A,-: '~,5.  MIKI,~'LINSKIY, U. V. Prim-nenie tokcv vycolcoi cha3tcty --Iia z-a3hc-tv linii I U, z e of high frejuency current- for -~rot-:.ctlnf, e,ectric transmissicn linss_/. Moskira, GosenerUoizclat, 1953. P p. SO: Monthly List of Russian Accp-ssi(-,nz--,, 'lol 7 Ito 2 May 1954.  MIKULDISM. X.M. (Chelyabinsk) ftanization of tuberculosis control in industrial enterprises. Probl.tub. no-3:3-7 MYTe '55. .(MLRA 8-8) (TUB'MCULOSTS, FULKOURY, prov"ntion and control, In Runsta. in Indust.) (IMUSTRIAL HYGUM. antituberculosis serv. in Russia)  MI M L, iNS KIY , I . 'M . ~1.1-,tlrn if 1,a~'er-tz -*, Che nsk F-Aa c tr,- '-a 12 jjre~ -' -- C ~nmbi rir-, . Pro b--, . r il b. 4 no " 8'. V _,, o 164. ( 1.4, T I . ~,r- 18 ~ i;, ) I. C,~:- I yi-ibi ri-gk I y r ;-I-, t I - ) tuiberkulleznyy n G:11-vy"yy N.P.IioiJylt~vll .) .  MINWISKIT, I.N. (Chelyabinsk) Are district public health derartments necessary in cities. Sovet. zdravookhr. 5:49-52 163 (MIRA 17:2)    Coll I ""007  3, f 3 00 91. f t61c, AUTHORSs Mikulinakly. TITLEi Determination Data of ExperLmental ,)630 3 S/15 B01 2YI3067 L. _A., Engineer, 11ironov, P S . Eririnec-r of the Stroas Tensor in an Explosion From Seismic Studies PERIODICAL: Izvestiya vysshikh uchebyiykh zavedeniy Gornyv zhurnal, 1960, No. 11, pp~ 69--72 TEXT: A method is given for calculating the stress tensor from data of seismic observations. To use the conditions of 0. Mohr (Ref 1). the three components of the stress tensor and the total stress tensor must be known Formulas are derived for an infinite hcmogeneous, isotropic medium First the Lame'2constants A andp are determined from the formulas (Ref 5)~ Ct ~_ (C2 - 2c2), where c and c denote the velocity of g g 1 t 1 t the longitudinal and transverse waves, respectively, 10 the density of th'~ rock investigated, and g - the gravitational acceleration.. The components of the matrix Card 1/3  Determination of the Stress Tensor in an Explosion From Data of Experimental Seismic Studies QAX %Y I~Az N Qx 'dx ~Ax -dA y JA Z .) Y b ~y 1 8 6-.c~j. S/150/60/00G/011/00-,/(-)o? B012/BO67 qAx QA y /dAz are then determined from the formula Qz Qz OZ QAi Ai vi x j - = - ( - + -) with the velocity vector v and the displace- qx i r r1i r ment vector ? being known from the 03r,41logram I and j may b-~ 1, 2, firi(J 3. v is the oscillation velocity of the ground particles The deformation tensor Cij and the vector W i can be determined from the quantities V Card 2/3 1/,'.  Determination of the Strestj 'Ienoor ir, a~. 3/15 6 o /0 rj A o Explosion From Data of Experimentul B012YI,067 Seismic Studies i Since and F_ are known, the com.ponents of the stress tensor 1~ xi * ij can be determined. At large distances, the stress tensor can be obta--,r.;.-,-i from simpler formulas. When the stresc tensor has been determined, the stability of the respective structure or massif can be estimated on the basis of Mohr's stability conditions, The publication of this article was recommended by the kafedra gornykh mashin i rudnichnogo transporta SGI (Department of Mining Machines and Mining Transportation Lf the SGIY There are I figure and 5 references: 4 Soviet and 1 German ASSOCIATION: Institut Unipromed' (Unipromed' Institute) SUBMITTEDt June 27, 1960 Card 3/3