SCIENTIFIC ABSTRACT SHOROKHOVA, YE.V. - SHORSHER, I.N.

L,AVfGR.'A-E() I',;, NadeLhd a NiL'olayevt~~, ki(-,kLj v Oic otv. red.; fAlUiLkF. I-A., red. [Prerequisites of hurnan tbinking: imitative corstruotion oy apes and children] Fredposylki chelovecheskogo n7slflenlia; podrazhatellnoe konstruirovanie obezlianoi i de-Omi. Moskva, N auk a y1965. 108 p - ( MI 1-U. 18. 5 )  SHOROKHOVA, Yekaterina Vasillyevna; KOZERUK V., 'EM I - -- - ---' -' .1 red.; U AAN F.p red.; CHEPELEVA, 0., tekhn. red. [The problem of consciousness in philosophy and natural science) Problems. soznaniia v filosofii i estestvovedenii. Moskva, Izd-vo sotsiallno-ekon.lit-ry, 1961. 362 p. (TAIRA 15:1) (consciousness)  HORNATSKIY, Ivan Ivanovich, kandidat tokhnichaskikh nauk-, KAZACHKOV. Ye.A., redaktor: SHOROPIN, V.D., rodaktor; ATTOPOTICH, M.K., tekhnichaskly reWM91 [Dosulfuration of Marten stool] Desullfiratsiia martenovskoi plavki. Moskva, Gos.nauchno-takhn.izd-vo lit-ry po chernoi i tsvotnoi metallurgii, 1955. 113 P. (RLRA 8:12) (Steel--~Heat treatmant)  SHOROR, V1. "It's good to live in the Baikal region." Sov-voin 38 no.16; 14-15 Ag 1.56. (MUU 9.-12) (Baikal region)  SHOROR, V1. One's own mark. Izobr-i rats. no-12:14-15 D '59- (MIRA 13:8) (Bearing industry~-Technological innovations)  SHO-;~G.., V1. oward t~ie future. Izobr.i -rats. no.6:28-30 Jo '60. 1. 3-..etsi-,llnyy kcl-:.-osporldent zhu--r-.!Ia "Izobreta4u---!' i raL.Aonali- zatoril a:, g.Xr iato-r::;:. (Kramatoy-o'c-Tec'.,i--iologicaI inrovations)  SHOROR, V1. (g.Belgorod) Damage to an important business. Izobr.i rats. no.8: 29-30 Ag l6o. (mIHA 13:7) 1. Spetsiallriyy korrespondent zhurnals, "Izobrotatell i ratsionalizator."i (Belgorod-Boiler,;makere-Technological innovations)  ',-SHQRQ& vi. Published in Ishevsk ("Experience of mixed brigades" by N.P. Zubarev,r "Autcmati= of reeling processes" by A.K. Belopashtsev). IzobrJ rats. nool:46 Ja 161. (MIRA 14:1) (Automation) (Technological innovations) (Zubarevy N.P.) (Belopashtsevp A.K.)  SHORORI Vladimir-, With ability and with all his heart. Izobr. i rats. no. 5:2 of - 1 -5) cover 11 (0 ; ~fy 161. (MM& 14. (Containers) .1  SHOROSHOV) M.U.; NAZAROV, G.V. Phase tranformatiors in 0.- andC4 - titanium alloys in the weld zone and criteria for the salection of welding conditions. Titan i ego splavy no.10:27&283 '63. (1-f m '17: 1)  SOV/2o-1 2 1 50 AUTHOR: TITLE: The Effect . of Unequal Heating Under Conditions of Creep -on the Variation of the Stressed State (Vliyaniye neravno- mernogo naffreva v usloviyakh polzuchesti na izmeneni--ve napryazhenr go sostoyaniya) PERIODICAL: Doklady Akademii nauk SSSR, 1958, Vol 123, TTr 5, PP Bog-B12 (USSR) ABSTRACT: If parts of any engrine are exposed to the combined influence of stresses, high average temperatures and high inhomo- -eneities of the temperature field, a creep appears in them . and the rate of its development is different in different points of tile croos section 'of the engine part. This causes a rather stron(-~ redistribution of the stresses. According to the theory of solidification, the following equation can U - be jiven for an uniaxial stressed state: Ae- P/T (e k1al _ 1) 4)(p). v ~ d E /d-r denotes v ~ sign 6 . p p p the rate of creep; T - the absolute temperattirej A, P, k - experimental constants; p - a parameter characterizing the Card 1/3 solidifying plastic deformation accumulated by the creep.  GOV/'20-123-5-11/50 f1ho -Effect Unecual Heating Under Conditions of Creep Upon the Variation of the Streasel Stlate For inhomo-eneously heated bodies, the author assumes + + p p + up for 6 > 0 and p = p- + up or 6 < 0 with P+ v+d-,,, Iv- dT. + denotes the plastic de- p Pi p 0 0 formation accumulated during the period of expansion, p clurinC,, tile period of compression. Tile coefficient u charac- teriz~s the direction of tile solidifyinl- influence of'the zilastic deformation. A "fast" plastic deformation is assumed 4 to exert no influence upon the solidification caused by creep. The function 0 and P/T are approximated by linear expressions in the interval T and T . For an uniaxial stressed state (ax = d' dy = az 0) the deformation can be jiven as F_X ~ z fk(x) ~k(y'z) . A connection between stresses and Card 2/3 k=1  OV '2o-1 2j-~,-l 1 "50 S 3 / The Effect of Unequal Heating Under Conditiono of Creoi) Ul)()rl the, Variation of the Stressed State defornations is given for the special case of the expansion and bending of a otrainlht rod of any cross section. Another way of solution may be used if the sian of the stresses does not depend on time. The author ~_,ives a short. comparison of the various solutions. The law of the distribution of the steady rates of creep over tile cioss section of the rod coincides with the "kinematic" distribution law of the de- formations. From tile above-mentioned solutions, the distribu- tion law of the stresses in the steadystate of the creep can be derived. A figure shows the stresses in an e:-nanded rod for a parabolic distribution of the temperature over its cross section. In the desi--n of engine parts inhomogeneously heated to high temperatures it is not sufficient to investi- J'ate only the initial stressed state, the dependence of the stresses on time has also to be taken into account. There are 2 figures and 9 Soviet references. PRESERTED: July 2, 1958, by Yu. N. Rabotnov, Academician SUBMITTED: June 26, 195B Card 3/3  25(2) PHASE I BOOK EXPLOITATION SOV/3096 Birger, I.A... B.F. Shorr, and R.M. Shneyderovich Raschet na prochnost' detaley mashin; spravochnoye posobiye dlya konstruktorov (Design of Machine Parts for Strength; Manual for Designers) Moscow, Mashgiz, 1959. 459 p, Errata slip inserted. 25,000 copies printed. General Ed.: I.A. Birger, DOctor of Technical Sciences, Professor; Reviever: N.P. Dorogov, Engineer; Ed.: N.V. Manakin, Engineer; Managing Ed. for Reference Literature: I.M. Monastyrskiy, Engineer; Tech. Ed.: A.F. Uvarova. PURPOSE: This manual is intended for engineers and designers. COVERAGE: The book deals with mractical methods of designing parts and units of machines for strangth and vibration resistance. Special attention is given to threaded joints, tooth gearing., parts of turbines,, and piston engines. Formulas for determining stresses in struts, thin plates, and shelves are presented. No personalities are mentioned. C a r &--1--j 4 47  SOV/179~-59-1-12/36 AUTHOR: Shorr, B. F. (Moscow) TITLE: -aa-1culations on Unsteady Creep of Unevenly Haated Bars of Arbitrary Cross-Section (K raschetu na neustanovivshuvusya polzuchest' neravnomerno nagretykh sterzhney proizvollnogo poperechnogo secheniya) PERIODICAL: Izvestiya kkademii nauk SSSR, Otdeleniye tekhnicheskikh nauk, Mekhanika i mashinostroyeniye, 1959, Nr 1, pp 89-96 (USSR) ABSTRACT: Assuming the strain is made up of four components: e = a / E +- Yt +- e * +- e (1.2) p p where a is the stress, expansion, t the temperature, deformation, and E p the during the creep process, relaxation in an unevenly y -the coefficient of thermal E;* the rapid plastic p plastic deformation accumulated the stress distribution and stress heated stressed beam are found Card 1/2  SOVA79-59-1-12/36 Calculations on Unsteady Creep of Unevenly Heated Bars of Arbitrary Cross-Section mathematically, and numerical examples given for alloy Ej,- 437A. There are 4 figures and 11 Soviet references. C) SUBMITTED: July 2. 1958. Card 2/2  SKORR, B.F. (Moskva) Evaluating nonstationary creep of nonuniformly heated rods with arbitrary cross section. Izv.AN SSSR-Otd.tekh.nauk. Makh. i mashinostr. no.2:89-96 Ja,.F- '59. (NnU 120) (creep' of materi4le)  24(6) SOV/179-59-4-32/40 A07HOR: Shorr, B. F. (bioscaw) TITLE: On the Experimental Examination of the Theory of Extension of Twisted Rods PLRIODICAL: Izvestiya -kkademii nauk SSSR. Otdeleniye tekhnicheskikh nauk. .111e- khanika i mashinostroyeniye, 1999, Yr 4, PP 176 - 178 (USSR) ABSTRACT: Some results of experiments are put forward here. Elongated rectangular twisted rods were stretched. A comparison of the exDerimental data with those of the calculation shows that the limits for the application of various theories are determined by the "torsion parameter" 2- At 2 (Tr) is valid, although this is not always true for non-uniformly heated cylinders. In the present article, which is based on the theory Card 1/ 6  88515 S/179/60/000/006/007/036 E022/E107 On Calculating Non-Uniformly Heated Cylinders in the Elasto- Plastic Region of small elastoplastic deformations (Refs. 4 and 5), two methods are presented for the solution of the thermoplastic problems. Work hardening and compressibility of the material are taken into account. In the first method use is made of the "elastic" solution and the complementary stresses, while in the second method the 11plast�c" solutions are employed. Both these methods are used to solve the problem of the elastoplastic behaviour of thick-walled cylinders with axisymmetric loading and arbitrary gradients of temperature, as well as of physical and mechanical properties of the material in the radial direction. In the "elastic" solution (Ref.5) for every elastoplastic strain Elk in addition to the actual stresses Cyjk occurring in the ma erial, hypothetical elastic stresses ajko,. which would occur if the material suffered these strains in a purely elastic manner, are introduced (see Fig.1). Assuming further elastic changes of volume as expressed by K(G - 3(xt) (1-5) Card 2/ 6  S/179/6o/ooo/oo6/oO7/036 B022/EI07 On Calculating Non-Uniformly Heated Cylinders in the Elasto- Plastic Region where the local values of K and a depend on the local temperature (and therefore mayvary from point to point), I- 2f& I- 21L 15 npni=k) 0 upu i--#k is obtained. Next, strain Eik is expressed in terms of displacement uj and by intrSducing Eq. (1.8) into equations Of ~I equilibrium, and taking into account the boundary conditions U U.00 + Q (a (1.9) j jk*) and a a 00 L (a a jk jk jk jk jk% Card 3/ 6  S/179/60/000/006/007/036 E022/EI07 On Calculating Non-Uniformly Heated Cylinders in the Elasto- Plastic Region are obtained, in which ujOO and 01koo. are respectively th e- actual displacement and the actual a ress corresponding-to the given temperature field, and Qj and Ljk are the linear operators of the complementary ;tresses. Finally, by means of- 4 successive ag~roximations (starting with the initial elastic value crjko( ajkoo) the required solution is obtained. The operators Qj and Ljk are then evaluated for t = 0 and for the case of an axisymmetrically heated and loaded sloping cylinder of the inner and outer radii a and b respectively, and the boundary conditions given:. b a (a) a (b) 0, a (r) r dr 0 r r a X As an example, therinal stresses are computed for a cylinder in which the temperature difference between the hot inner surf and cold outer surface is 250 ?C with the following parameterst Card 4/ 6  5/179/00/000/006/007/036 E022/E107 On Calculating Non-Uniformly Heated Cylinders in the Elasto- Plastic Region 6 2 2 Y = 0.5, E: = 1. 85 x 10 kg/cm CTT = 22 kg/mm I A = 1/39 = 17.2 x 10-6 per OC. In these circumstances there are two plastic zones formed. The convergence of-the successive solutions for ai is shown in a graph and compared with the purely elastic solution. Also the elastic and elastoplastic stresses are compared in another graph. Computations show that when there is only one plastic zone formed (as in the case with a smaller temperature gradient) then only two or three approximations are sufficient. With the development of more plastic zones the method of "elastic" solution requires many. successive approximations. In this case it may be assumed that the material is incompressible and jLfter solving the problem the required corrections may be introduced by means of successive approximations. Foz: a cylinder with an internal pressure Pa' and external pressure Pb as well as an axial force P, and heated inside so that the radial temperature gradient is 250 OC,. the results of such an approach are shown on yet another graph. Card 5/6   28969 S/179/61/000/003/Olo/ol6 Eo8l/E435 ALT ~IHOR! Shorr, B.F. (Moscow) TITLE. Vibrations of twisted bars PERIODICALg Akademiva nauk SSSR. Izvestiya. Otdeleniye teklinicheskikh nauk. MeRhanika i mashinostroyeniye, 1961, No-35 pp.102-112 I TEXT. The paper is a continuation of previous work (Ref-13: Izv, AN SSSR, OTN, Mekhanika i mashinostroyeniye, 1960, No.1; Ref.14: Izv. AN SSSR, OTN. Mekhanika i mashinostroyeniye, 1960, No-5~ Ref.15~' Izv. AN SSSR, OTN, Mekhanika i mashinostroyeniye, 1.959,, No.4). The vibration of twisted bars is of interest in connection with airscrew blades and the vanes of compressors and turbines. The approach based on the classical Kirchhoff-Clebsch theory of thin bar.-: assumes that i-rrespeL~tive of the twist in the- bar, the longitudinal strain, the angle of twist and the components of ::ur-qature are proportional respectively to the longitudinal ~~trcs!~, the twisting moment and the bending moments. This approach has had only limited success and more general Vf( relationshi.ps, involving coupling between longitudinal, bending and twisting deformations, have bten proposed. In the present Cai d 1/3  28969 S/179/61/000/003/olo/oi6 VibratiGns of twisted bars E081/E435 pape! , the problem is investigated using the general relationships proposed previously by the author (Ref.13,14). These relationships are stated in matrix form and, with the aid of the equIl-ibrium ",quaticns, the differential equations governing the vibr-iticGs are derived. These equations,together with the boundary -ondition5 appropriate to one clamped and one free end, ie,ad to a system cif -Lntegral equations. The expressions for the potential arid kizieti-. energies are also derlived. In considering the .101%rest nl'~;d~-S Of vibration, the longitudinal inertial forces and berLding in the plane of maximum rigidity can be neglected; them simplified t-quations obtained in this way are solved to give the frequencies of the first and second bending modes and the first torsiorrai mode of an axial turbine vane. These frequencies are ~-Owpared with Chose (a) calculated ignoring the twist, (b) -~al,--xilated from the Kir,~hhoff-Clebsch theory and C-) -zbtained f.-om experiment. The values calculated from the present theory agree closely with experiment, whereas the remaining ca.1--ulated valued-: differ considerably. Experimental frequencies are also given for a number of twisted duralumin bars and compared with calculated VillUes. Thanks are expressed to Card 2/3  289610 S/179/61/000/003/010/016 Vi I, j-.,i rof twis ted I) a rs Eo81/E435 N.N.Akimcva and N.V.Zemskov for participation in the work. P.M.Riz, A,I,Lur-lye, G.Yu,Dzhanelidze. V.M.Marchenko, S.A.Tumarkin and I.A.Burger are mentioned for their contributions in the fields There are 5 figures and 16 references: 10 Soviet and 6 rion-Soviet. The -four most recent references to English- language publi~-,ations read as follows: Rossard D.D. J.Appl.Mech., 1953, June, v.20, No.2, p.241-244., Carnegie W. Proc- Inst. Mech. Engnrs. 1959, v-173, No.12; Sato Tal~ce:shi. Trans:. Japan Soz. Mech. Eng., 1958, 24, No.147, P.866-872; 2nd i-ept., Trans. Japan Soc. Mech. Eng., 196o, 26, No,161' P.4-11ir Knowles J.K., ReL3sner E, Quart. Appl. Math., 1960, 17, LNO-4, p,4og-.42-2. SUBMITTED.- March 7, 1961 Card 3/3  23740 S/089J61/010/006/005/011 -7 9 ~2 47, AS-0 B136IB201 LUTZORSt F~idman. Ta, B., Sobolev, N. D., Boriaoy, S. V. Yo logorov, anko, V. P., Morozov, Yo. M. Shapovalov, L.A. _Lt, Konl)plr ard Shorr, 3. F, TI'L?6i Some problems of thermal strength in reactor construction PFIIIODICALj AtomnAya onorgiya, Y. 10, no, 6, 1961, 06 - 619 TEM The gurioral idea of the failure of thermal strength Includes two zypo3 of fractures the gradual (ouberitioal) fracture as a consequence of an extreme deformation or of a groat number of cracks ur of largo-cized cracks; cauao:3 and manifestations of those fraoturon are discussed, and the loss of olaatic or plas~iC 3trangth on the passage through the critic- al state. Either type of fracture may ba brought about by four causes rif stresss 1, mechanical or thermal ahock stresses; 21 brief static loads for some minutes or hours; 3 9 static loads, for -some months or years; 4 periodic loads. Fig. 1 presents examples in the variation of elastic and plastic conditions in a tube, and a fictitious elastic tension is shown to arise in th4 plastic zone (dashed line), while the forma of mechanical Card  23740 S/069/61/010/006/005/011 Some problems of tharz;al strength ... B1361B201 and th6rmal stress are intercomparad in Fig. 4- Creep arisen In non=i- for=ly heated structural elamonta, and cracks appear as EL consequence of plaotic dullorr-ation, particularly with materials having a low plaatiait)r at room turaperature. For calculating the creeping process the assumption in made on the basis of the creep theory that there is a functional relationship between the rate of creep vi, the instantaneous atresarq, the temperature T, thd timorU, and the plastic deformation P, namoly, v Hbra, P4VOT; vi P..f.(6',,T). Tb~a thermal N P fatigue fracture has much in common with the mach&nical one. It can be therefore du~ormlnad from 'he known x6chanical properties of a material. Whareas, howuvor, the thermal fracture appears after 103-104 Y01013, thn menhanical one takes 107 a c _10 yclea to appoar.. 1 characteristic feature of U-Pthermal fracture is the local deformation in zonon-vith a. particularly la.rga taraparaturo diffarqnca also in homogonea-un fisldB of atress. Thin ia also rolateii to the appearance of high microstrevaos (Table 3), For sudden thermal ahocks the temperature jump giving riae to a brittle fracture nay Ckrd 2A~  23740 5/089/61/010/006/005/011 Some Droble=s of thermal strenGth ... 31361B201 bo estimated by an equation. Of importanco in the practice, however, is the creep character and the durability of the material under combined machanical and nonstoady thermal loads. Experimental results are illu- ztrated in Fie. 91 where the curves of varijation of lonCth-versus-tims (scale 400:1) are compared with the cyclic temperature curve I! and the thor=al and elastic deformation III. As opposed to combined stres3 con- ditions, in which the strain-3tro3s characteri3tis concerned is -noraenod with Increased tooperaturo3, stros3os in case of a purely thermal stress are of a thermal origin and lead to bulging of structural elements in the hot zones, without, however, causing their breakdown. The micromechanic- al properties were chocked in two ways. The principle of the second is illustrated in Fig. 1~j while the results of the former - for static. elongations and at 1400 - 15000C in vacuum or in a controlled atmosphor are presented In Fig. 12. In Fig. 13, 1 denotes the sample with a cro3 section of 2 X I or 3 X 1 =m, that in placed in a groove milled out from block 2. The pressure is yielded by stamp 3 made of tungsten briquettes 4. The resulting breakdown is indicated over contact 7. There are 13 figures, 3 tables, and 39 roferancest 27 Soviet-bloo and 12 non-Soviet- bloc. The three moo'. recent references to Engliah-language publications Card 3A  2Q000 6100 5/011 S/089 61/~ Some problems of thermal ntrangth ... B136/B201 road as followst Fracture, row York, Wiley and Sona, 1959; B. Sternb ry, I. Chakravorty, Quart. Appl. Math., 17, no. 2. 205 (1959); E. Glenny t al. J. Inst. ketals, -"2.y (1959). SUBMITTED: September 19, 1960 Logend to Fig. 1: Distribution of axial streasea and onlargumant of tho plastic zono in a thick- val'Ie'l Val')z, ulth Jumps: r - radius of an arbitrary point; a - inner radius Card 4/9,z f  STIORR, D. F. (Moscow) "Periodical processes in creep" report presented at the 2nd All-Union Congress on Theoretical and Applied Mechanics, Moscow, 29 January - 5 February 1964  - - 01 ACCIESSION NO: AP4020048 S/0032/64/030/003/0340/0347 AUTHORS: Shorr, B. F.; Dullnev, R. A. 7.TI-LE: TrivestIca"on of temperature stresses and creep during variations in temper- ature SOMICE: Zavodskaya laboratoriyal v. 30, no. 3, 1964, 340-347 TOPIC TAGS: creep, thermal stress, temperature change, shearing stress, thermal fatigue, strength, material failure, static failure ABSTRACT: This is a survey of a great number of papers, Soviet and other~,relative to strength of materials when subjected to changes in temperature. It is pointed out that increase in temperature effects the thermal resistance directly (by changring mechanical properties) and indirectly (by formation of thermal stresses from expansion). Many papers have been writ *ten on thermal fatigue, and it has been found that shearing stresses play a dominant role in the failure of material becave of thermal fatigue. In some cases a connection has been found between characteristics of thermal fatigue and static failure. Some authors have proposed using-steady static loading to test thermal fatigue. This survey of the literature pointi out that future advances in studying thermal resistance at different Card 1/2  AccEssioN No: AP4020048 temperatures will depend chiefly on investiGation of the actual ccnditions cc the operating parts under natural conditions. Standard methods must be developed for cmparative tests of materials applicable to definite c.onditicas of operatica, and. it is urgent to study the kLnetics of the processes leading to fractures and failure and to work up a _mro_mer technical theory of strength. Orig. art. has: 6 figures and 1 table. ASSOOIATIM: ncae SM41TTED: 00 DATE ACQ: 2714ar6~ ENCL: 00 SUB CME: AP NO IW SOV: 043 019 Card 2/2  L 12863-65 ( V - - 1UP k EPA(bb)_2 Pe-5777 77N_4 AEDC(b)/z!iSD(p)~~-3*/AFTC(a)/-4FA-~C(a)V/APGC~a)/AS.D 27TZE.- 1Qe.'7d,417,6~-AVJ-9tJVff 101SC111atf-Ons' Of t"SCedconzare"ar. A SOURCE: Prochnoa t i dinamika'av late 10M~0"Al Olsft 10AIM"I"Itl WA te V0 of aircraft engines); abornik statey, no.- 1. AoSrC& rzd compress TOPIC TAGS: comprerisor blade, compressor, blade vibration aIxW 2.s o e---,----:~.K pproac ea--t _jjf on.on e basis of- the. 6 e~he_ 'I the ad U n t t t~ equations from the point of view of the general of, the _the of-elaqtirAty;~~::_ 3) the solution on the basis of the theory of plates ~ And shells., . 'in the presen -7- article, the author bases his calculation of the -flevo-torsional osctllations~ of twisted working compressor blades on the-ap e rods of -ee' pli d,theory of tvf~ttd X. rb tended or elongated profile (Ri - F.. Shorr. Kolebanlya zakruchennyfth- ster ney, Izv. AN SSSR, OTN, "Hekbanika i mashinostroyeniye',,1961, No. 3. andzt teo-rit zakruchenny*kh neravnomerno nagrety*kh sterzhney, Izv. ANSSSR, UM, llfek6nika Card 1/3  L 12863-65 ACCESSION NR: AT4046189 mashinostroyeniye", 1960i No. 1). Theiauthor poin.ts.out.- in this c6nnectiont - that in recent times this method has been subjected, -to ~rathAir broad-based-ex- _7 perimental verification with favorable.results. In-employing this the- ory, attention is called to the principal peculiarities--of-twisted blades- such as-ihe-- qu-ncy, the deformation relatior marked. fallmoff -of the f-irst,fre e of the bending-twisting vibrations which occuri:-~.even.. when--thd pod itions "idf-the:. centers y--of the-secti of gravity and the centers of elasticit ons_O`dincidei the d:jon amic stress redistribution due to twisting, etc. The atithor notes,that.-at the time, the general method presented in this article for the cvmp~utation of the flexo-torsional oscillations of a twisted blade has. been ~ success fully- programmed for electronic digital computers. The fundamentals of the.. theor **- of twU ted -xddiL Y- of extended profile are first-discus.sed in the article, with special'attention to the basic relations between internal force factors. -and deform4tions-.- Deflections or shifts are also considered, along:,with.baiance equations and -the ,geometric ch cteristics of the blade:' problem of the determination of the special ara In the second main section of the.paper, the 'author takes up the-:P"roblem of the free oscillations of a nou-rotating blade. Basic-equ'ations are derived and analyzed, and the energy ratios and the condition-of orthagonalltyare discussed. The rotating blade is the subject of the third chapter of the article, while- the forth section is dedicated --to- the -genera:,I-:-method,-of,-caleullation.-for-bending-.--~--:* -L-- Card 2/3   GRINBERG, S.M,, inzh.; SHORR, B.F., kand. tekhn. nauk 11- -, . 7, .1. 1 - ~ T'heory of the vibrations of rolling-around hinged vanes. Rasch.na proch. no.10:324--351 164- (MIRA -181l)  BIRGER, I.A... red.; DAREVSFIY, V.M.; KIIIASOSFVILI, R.S.; SERENsai, S.V., red.; ~PRR, B.F., red.; RODZEVICH, S.S., red. [Stability and dynamics of aircraft engines] Prochnost? i dinamika aviatsionnykh dvigatelei; sbornik statei. Moskva, Mashinostroenie. N0.1. 1964. 287 p. (MIRA 18:10)  L 11618-66 9,;T(m)/B-IP(w)/EWP(v)/T-2/EKP(k)/&d(m -- -WW ACC NR, AT6001270 SOURCE CODE: AUTHOR: Shorr, B. F. ORG: none TITLE: Vibration calculation of hinged blades~- 114 'UR/0000/65/000/000/0292/03.' SOURCE: Prochnost' i dinamika aviaLslonr, kh dvigateley (Sti?.,pth and dynamics of aircraft engines); sbornik statey, no. 2, Moscow, Izd-vo "Ma-shinostroyeniye,11 1965, 292-315 TOPIC TAGS: turbine blade vibration, turbine blade, rotor blade, blade vibration, vibration theory, vibration analysis ABSTRACT: A general meLhod is presenpad for :alcula.-Ang z.sh'.ned flexural- torsional vibrations of curved bladesi-a 'F Ltacbed to the rOL-. jiz2 y hinges. It is assumed that the hinge axis is parallel to the rotor shaft, ti.at the hinge pin mass is insignificant in comparison Eo the blade mass, and -azt. the .-.mplitude of the vibration is small, thds permitting the use of linea: ec.- -tions. The method is an extension of the one previously developed for rigiuly ;.,)unted iblades. (Shorr, B. F. Izgibno-krULil'nyye kolebaniya zakruchennykh kompressornykh lvpatok, sb. "Prochnost' i d-namika aviatsionnykh dvigateley," no. 1, Masi-Anostroyeniye, 1964.) Orig, art. has: 9 figures and 101 formulas. [AS] SUB CODE: 21/ SUBM DATE: l7jul65/ ORIG REF: 007/ ATD PRESS:-~t/  1. ;-,-:-7cR -, F. A. 2. !-~SR (0`00) 4. Sif iLll- Abnormities and Defonnities 7. Csteodystrorhi--, fi:bros.n of the cranium. Vest. oto-rin. 14, no. 6, 19~52. 9. 'ef,-nthl%- List of Russian Accessions, Librar-y of Cona-ress, March 1953. Unclassified. W  SHORR, F.A. Sarcoma of the ear in early childhood. Vest. oto-rin. 25 no.2:103-104 Mr-Ap 163. (MIRA 17-1) 1. Iz otorinolaringologicheskogo, otdelaniya bollnitsy No.11 Timiryazevskogo rayonnogo otdela zdravookhraneniya Moskvy.  1. SHORR, M. A. 2. USSR (600) 4. Medicine - Formulas, Receipts, Prescriptions 7. Sim-lified receipts. Apt.delo no. 6, 1952. 9. monthly Lists of Russian Accessions, Library of Congress, 11arch 1953, Unclassified.  SHORR, M.A. Vislinevskii salve. c;;)t.delo no.1,1,:47-10 J1-A,.- '53. (URA 6:8) (Oint=ents)  SHORR. M.A. Care for men. Apt.delo 3 no-3:31-32 My-Je '54. (HIMA 7:6) (HUM4ACT, *in Russia)  SHORR, U. 1-5-6V ifn~ .0 -- tvg Atomic batteries. Dos. such. fiz. no.5:227-230 157. (MIRA 16:6) (Atomic energy-)  Distr CYS 4E3C Heat transfer between a liquid-fluidIze bed and t e c6ir puler wall. E. Rucketistein, V. Shorr, anti G. Suciu (Poli-- technic Inst. Uticarest). A aa--re-p-p-nTtil,zre--Rotti-ine. 5 171. 77~~- S1ndiicrrcrtdrifiz. 10, 235-46(.951.,.- --r. Uvenspiel and Walton, CA. 48, 5,562h, Mickley an~~ Trilling, C.A. 43, 647M.-Prelimitint-v results of heat trans- fer betucen a gas oil or 1120 fluidized bed and the container wall are reported. Tile expti. data are interpreted by means .1- r)f the modified model proposed by L. and W.,which is in satis- factory agreement with present data, as well as that by pre- vious investigators (Nf. and T., loc. cit.). The results have been correlated by means nf 2 empirical equations repre- . 5epted generally by Nit F(Re. Pi,, Ylr). M. Lapidut.-  7 s c P f, n ra, 49 7 T-j- 83 -3 J- (nn ",i!(. 1, r"a t, t ry f Lht. 'f-,-j ros I L I n 3 i i n !,,J, icif~y )and, 14i,111cinc, V ovo~i 1 b t--Ik  a , ZABORMIKOI, K.B.; POLYAKOV. V.P.; SHOR~QaE4 Application of the ccnplex emarvition-thermal method to the study of phase diagrams as exemplified by the system KCI - CaG12, Radiokhimiia 7 no.3024- 329 165. (MIRA 18-7)  4 1:;- t 1~ r I - I L -e t h. c tlM t ., 1 ;0-, fz:adl ia 'I nr~ .14 18  0 0 0 0 0 * 0 0 : o 0 o 0 0 0 0 0 0 4 0 0 0 0 4 : 0 0 : A l C 0 L 1 It if If JD i it n a J4 a 26 a in M 1 4 it j A L a m P1 0 all U1101 11AA34" v U~ to 11 31 it is it it a 61 # I a j 4, of 0 of,,@ , f _ ..A, so -.00 of -00 00 The influence of oxidation on the Rotation of sulilde -00 00 C mineMs, ti. ChatcopyTite. 1). A. Shvedov and 1. N. 11 Zhu,. 2, N.J. I;,,. l(r 12m- -00 0 1).'7; cf. C. A. 32. 12110, -410 0 A.. v':m-The mlation between the d(iiatability 0( viiitco- pvrite and the drsm Of O'CidAtiMi IIV HA WAI .00 Witbirwrtmv it% Ilivciinen. W 11,0~ the thatahilltv 1xv-111'r -00 so 'r Thk efirci wa,4 dur to th: loft"Alit", t4 % lawr of Fv(011).. Ulien ihi,, FC1011). od 111maliv -*i aCid. the original flaalability wa~ re-mmil. Stiltillilion ttf 00 thr urface of thr chalct")yrite with Na,() bit] a strongly --ive effect. Terpincol i, a% wdl uittll [?r t1matim, deprt a, tanthate. %t-r. zoo so 00 pro 9 0 4 1 L A NfTALIUPGXAL LITFIFAILif CLASSIFICATIGO. EZ 0 2re 0 r v 71- 0 IL 1% 1 Sp tv K K or it it K a 11 io n An A % Is 04 0 1 ~14 0 0 0 0 0 0 0 # 0 * 0 4 * : 0. 0 6 ;0 0 o ~ 0 0 o 0 v o 0 0 4 0 0 0 0 0 0 0 0 0 9 * 0 00 000 1 00000006400000004  1 6 P 1 0 4 11,11jiatlaa low also A -651$ A of a of 00 A 00 j a ..0 POOPIPOF41 1.01. The re&Wom of zu4sts raad pyrite. V. A. Shytdov mid 1. N. Shorshm Gormo-Ob%laild. Zhgr. No. S, 29- xanthaic tdm a stable Pdfide-un- thale canupd.of Fc. tem which the zmanthate lov, can be rertuoyrd by Off or other kram At it rulotbatc room. of 1111K) 9./Im. the ulathate srut pyrite rmLt completely ia 15 Inial. It. Z. KA&nirh -I-L A AITALLUJIGICAL LITERATUNE CLASSIFICATION Waarm ll-aall- W 11 U U 14 U U U to to W do U 44 43 It -00 -00 -00 -00 -00 -490 Igo 0 C, see a** use =00 ve 0 0:1 OJI131 are C.- at$ in 0 I I ad a a, I rar 0 5 As a 3 b It In im 10 H 0 0 0 0 a 0 o 0 a 9 old 0 * * 0 0 0 0 40 0 0 0 0 0 *Is 0 0 0 70 or 0 0 0 0 lip re  1 4 1 6 1 1 t 4 11 t2 1i mi Is 14 Or 11 11 if AS Is it IF A a of a influence of olidAtillik oil tile flitittion of sulfide min, Craig. 1'. A. oild 1. -N. 6w"., No. 9 10. :214 Jll~IV ,177 _-_1Tj - oxidation ZA." N ,I pwite ajid if other Sullid" ronsists probablY Of succeii- j jnv 11,11IX-fif till- Mill's X14111 1.%Vtl% f1`0111 $lure %lilfillr 10) 00 a -lutfi,le mill 4 t r ato Imally ill ulfab-. Duttita the mallide Atilt M1111,11 1141f.41V 11111(c' till -Wllbl~l 11111~ Use C01111CCIel 11ii,cmim,16m i,I,mkvn vilwit the 00 SulfAte stage l4ruach"I. If $Ili 11) dto%y Suilitics are fintuttl 40 a .,it the mitfact: faver, of the cry,t. ItAttice during oxidation i .4 Ow pytic'. (.1 real.( with other slitt' OR -r tarirc. indulfing -what, ,It lii gowrtic4l Its- it- .-rift -00 otlidwAsurfitev. [list ~i,iitli.liztd%aufik"o(t)yriteglAUI* .411,611" by it.-mill'ist with NA,,li will Previrm tr-wtiou -00 .114 ?-tilt, it'll I'MIC -00 Atilt dmitywi lonshurn Ib, llvdmk~ wllul,- I tic 'Ictiolk tit the it~ 1.1 Upi-it Ih% PILAII M*e tieprts-cd pyrite con,isti, tit ncutrAlutinS the mikAit to tit. t pulpaim to dimulving t lie hydroxide films on the pyri e~ur- (a, v. letiv,timm dow% itivi %tm t until addul. aridific, 11,011 ZO 8 hA-hoialtrd tile hv.*~mv millid"tubvilmitide atul itnaily 10 111,, .611fiste, tile I.V111V cl9j,c9lItAjC fildy Int IbInvilsirif Act liptaling with L*,.().w Aah. I film is till,- 1.) 0 plwtm~ljt u1 [lie %J11111.3tv by 011 14-113 alld the furmAillK) Croo .fahydroplaileLiyt:rufliyttr.%Ytutfidt,,i. Thepyritemn- i "W"Itall. it, alml its irlWalwal by tile A,.tk)tl of itig 0 wkidititig act ut%. I l:sp !* 41u, tit the ill%litwtioll of tile ::o 0 111%wr lay.-IN if Ill, , 1 %,1. Lot 1, v &:Hit tlw butm.,111clit (,a - lI1AAbA60bJtlJwU 0 IhAt N11,N), if-W1 WIt IlAVc At-Y d~P11--sliC "171-C Uj~n tim: tha"ti'm of pyrill. provill"I Illvrv i, It,, li,~,ibijily of in. I elliLlill); 111ct, Of 111L 1111111 b) tit, hydioly~L-f till NA.'41, wim, 0 me-T.I.LUOICICAL LiTINATMI CLASSWK&TION too" smajL- too .10 iin. 0.9 oaa li~l Lsk -0 .3 --y-frA- - - --- - a AV 10 11114 9. 1- *31111i"Cl U of a K 111 11 It HAD 1 1 114 An A 4 aw 0 IN so -3 a a OR 0 0 OR 0 0 0 OR, 0 4 0 : 0 a 0 0 v 0 0 0 0 0 0 0 * 0 0 0 40 0 0 Is; 0 0 0 6 igif 0 0 0 OR, 0 0 4 It 0 0 0 so 0 a : 0 0 0 Or 0 0 4 0 0 0 0 0 0 * 0 a 0 0 O&A 11 1111 UIS 1631 1111111041 all Is- _.t. -t-L. a A 4 hp I .  o 000*00000000 00000 1 - t 0 1 0 go :; ' 4P- ~1 m 36 . W *60006606*00 0 ( Q -1 to it It In It a III u 14 is 1 11 111 170 05 V A CC U AA I . b ' . 9 a 11 1 1"ll I T 1 - - - is 00 A 9 Pike 11 1 t -"Q 1., 0,11"11,111 WI ..so 00 r so 00 A 00 Flotation of Camaiteriter. 1. N. Shomher. 7'mdn w wili,.It apprikwh thAt it( Ste 1. 1:1 A W lite rrettlilr -0*0 it t. to. N- 1%, 1:1 IkI(IjIj4V). -"t. 'V"j~ mv,tilable mab,tom-r. Ph 11.32 A I t- t. lim .4, 00 o0 a '111"Aliml "t Ow suffilev prolwFlieN .I ra-it'rite It. mit t-1 m it,, N*it-l Pbi N0i), A. eed,-pt, mw for lirS and - so 4 that it cited I be 11'eitted with itanthatc. flowd, Hildrirable ctotlixt~ . M1.011 gave, beer mule, 00 S, 1.1 'e.'t j- JL=l with Ilu te-inthate anti filter oil. N11,011 etexi III dri'tr-int .11wrts, ferld.1'ar. -00 so a Items: cassitterite should not be Completely reduced for tourmaline, and lim-mile. A -tildex c2s"ittrite [Hilt. 0 litilatiOn. The lite them III Ix reducrd to the biviiII-nt , was reduced anti InItillized for :9) Him, at 4011', three A111C. Clitillik-dity I)MINI. tift() Was I'M(fily fiCIII(I'd With floated In a mjII,f:II#jjjj,l rittki of 1-2.A. Marc the op. 0 mdy a frollivit (pine Oil). Na,3,0,, NeS.S01,, forinic acid, rrallon 0.7 X. per tim of cresol was added. As drIr,-Iw 00 C11,10, and pheiny1hydraziHe were tricil without Sucre" Nilaull 4.2 leg. pcr ton, as collector Isemmyl tianthate stgrtitie few r"hicinc Sn In cassite-rite to the bivalent tate. 0.24 kg. jx,r time, and ai acti"tur I'MN00, 0-375 leg. per r.0 0 flowd. Sit kept in ami attn. o( 11,8 for ~30 Hein. at 183--2(** ton wrre u%ctl, The 111iit. will agi(Ated with Ifelimmor - l dd d i 11110 so a It) iltial tbr pierlicirs with a Men of SnS was Hitt Boated by lcctt)r wt re a r n two far 15 mill.; activator 41161 rg) xmithate and pine oil. To rem ct with xanthate the Ind. steps 0/a anti '/, of the total). After each adtin. the r0 0 10 0 IM,- i,m inuiii Iw oxitlimi. Oxid;ttion of SnS with CuSO, flotation Liebted 5 tuin. The concentrate of this operation 60 a A~ all 4ctivat,w gave a pr,.Iuct Chat Ott flotation with Bit contained 47.8 and the tailings 0.101 " ofSn0:- Thectim. I tialithate yi'-Wett ir-.31-. .1 the, So in 5 An. The, siejac, of Sj) was 28.701"r. Thr 12110141C flotation was ttied rf. go Of ca-itcrite wa, reduced to a bivalcitt -,tate by tussibig ' Th-~eent-t-cc,n- 50 d f h 2 i . =00 If and If,,i over it at a te-rup. above Xkl (cf. C.A. 39. - y remov. wit 00 i 1 WhICIi gTilphite, Which wits ri,a N971). The activation of tims tualcerizil with CuSO4 ecal not g. of starch lwr I"11. M. 110"Ch effective. As activators, !Otis were sought with radii 300 'Is 114,1UR'IC11, 1,11EIA11141 CLAIIIIICAIICII Aid-SL z- ties t30 0 1.1041 It O.W Oat flj.1110-tt 1,11111 aK all III U 0 AV $0 111 "C it " N 0 m a I W 54 5 a a I I .3 1 Its "Mo a I I 0 0 0 0 0 0 0 0 0 4 4 0 0 0 0 0 a 0 is 0 a 0 0 0 0 0 `W 0 0 0 0 0 0 0 0 0 I oooooooooeo_ogg,o t2~q*-94LL00000-000000 0  14 A blail 1011 11 11 w 5 It 11 it A~ A A L k -a-l-L- 6- F A ..-I AA 0 M W EE Ii t d a 00 41 G, 0 60 Flotation of amithacintite. U.S.S,R 69,W, Nov. N), 107. lit adilit it) the comilmoly II,.,l reagritts, Ca %Ats ac ustil f(Fr the flotation olsmilli")IIII, 00 go 04L ji A S a OTALLUROCAL UYINATURE CLASSIPICATION L A x; It! u u &v to is' g V t 4. u u a po -00 -00 "0e see ;:** !roe =go -:;woo izee tool f I- uge f A- An L S 9 N 0 N 4 1 W N 9 .1 a 3 I 0 0 0 0 0 0 0 0 04 0 0 0 * 0 0 9i  2i  :5 the Mew a --Tin rrudy k e PfGek, ' - P kA za a, e- ny IskoPaemykh (Mo-cow) 1955i 214L~&. ZhUr-, Afel. 1956 Absur. No. c4m6.-If the Qri cout,*S size Irldus;0lis of valuable runr - gethei with SizzaAft. 4 -. - ;;, 7- cur,~idmrablc amf it J!, re to !ess Ena., use Eaw 25 for, ibc he jractio 44 d a net d U No PIP ts is Present ,  137-1957-12-23014 Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr 12, p 22 (USSR) AUTHOR: Shorsher, I. N. TITLE: A Method of Gravitational Testing of the Concentration Capacity of Rare Metal Ores (Metodika gravitatsionnykh ispytaniy obogatimosti rud redkikh metallov) PERIODICAL: Kolyma, 1955, Nr 9, pp 15-19 ABSTRACT- A method for the gravitational testing of ores is presented. Author's comments for some types of ores are given. A.Sh. 1. Metallurgy-USSR 2. Ores-Gravitat-ion-Test raethads Card 1/1  SOV/ 137-57-11-20795 Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr 11, p 22 (USSR) AUTHOR: TITLE: Flotation of Zinc Blende and Pyrite From Polymetallic Ores and Bulk Concentrates (0 flotatsii tsinkovoy obmanki i pirita iz polimetallicheskikh rud i kollektivnykh kontsentratov) PERIODICAL: Obogashcheniye rud, 1956, Nr 5, pp 7-11 ABSTRACT: A description is provided of a new method of depression of Fe sulfides and sulfoarsenides (arsenopyrite) in the zinc flota- tion cycle. This method consists of regular additions of small amounts of limestone to the tailings of lead-and-copper, lead, or copper flotation, with the purpose of preventing activation of Fe sulfides by copper sulfate. The pulp is mixed with the latter for a short time to activate the ZnS. Then a little cya- nide is added to depress the sulfides of Fe and arsenopyrite. When the cyanide additions are small, the activated ZnS yields to flotation quite as energetically as do the Cu minerals. A number of specific examples of successful employment of the method, with data on the consumption of reactants, and in- Card I/Z dices thereof, is provided. A method, not previously  SOV/ 137-57-11-20795 Flotation of Zinc Blende and Pyrite (cont.) described, of activating pyrite after prior depression in the lead-and-copper cycle, is communicated. C02 is utilized as an acid to fix the Ca ions, but to function less powerfully than hydrocyanic acid. A detailed description of the experimental results is provided. 1. M. Card 2/2   137-1958-3-4538 Translation from: Referativnyy zhurnal, Metallurgiya, 10,58, Nr 3, p 9 (USSR) AUTHOR: Shorsher, I. N. TITLE: On the Flotation of Slimy and Oxidized Copper Ores (0 flotatsii mednykh shlamistykh i okislennykh rud) PERIODICAL: Obogashcheniye rud, 1957, Nr 2, pp 3-16 ABSTRACT: At the Mekhanobr Institute studies were conducted in 1952 in order to develop a system for the concentration of kaolinized slimy ores of the Kounrad deposits. Investigations indicated that the dosage of Na,S has a decisive effect on the extraction of Cu into the concentrate, The amount of NaZS required is readily determined visually: an optimal charge of this reagent should produce a momentary depression (10-20 sec) followed by a progressively increasing mineralization of the froth. The employ- ment of water glass is expedient in the case of slimy ores. In comparison with trimodular water glass the consumption of mono- modular water glass is lower. The amount of lime charged into the mills of both stages is of great importance, if water containing Mg salts is used ("Balkhash water"). The employment of Card 1/2 "aerofloat", in an amount of 45 g/t, accompanied by a reduction  SHOROHM, I.N., kand. takhu. nauk. Efficient flowi;hests for the treatment of scheelite-n-olybdenum ores. Obog. rud 2 no. 2:70 157. (MILA 11:7) (Schnalita) (Molybdenum) (Ore dressing)  SHORSHER, I. N., (Mckhancbr) "The f-lotational separation of collective mclybdenite-containing ores" a- I Z ~,D L r- f tl  SHORSHER, I.N. Separating by flotation molybdonite-containing concentrates. Obog. rud 3 no-1:3-12 158. (MIRA, 11:10) (Flotation) (Molybdenite) I  -SHORSHEP I 1j.. Flotation of molybdenum-bismuth ores. Obog. rud 3 no.2:6-11 1 58. (NIRA 11:11) (Flotation) (14olybdenum ores) (Bismuth ores)  SHORSHER, I.N. IM-21 collector. Obog. rud. 3 no-3:3-7 '58. (MIRA 12:1) (Flotation) (Linoleic acid)  SHORSH&R, I.N.; GUAMONOVA, K.N. Flotation of iron ores with 3 no-5:3-9 '58. (Flotation) cation collectors. (Iron ores) Obog.rud (MBU 12:5)  ISHORSHER, I.N. Reducing the loss of metals in the discharge of thickeners. Obog. rud 3 no.6:50-52 '58. (MIRA 14:8) (Flotation)  "I.SHORSHKR, I.N., kand. tekhn. nauk. 11 Finish dressing of molybdenum half-finished products. Mul. TSIIN tsvet. met. no.9:14-16 158. (MM 11:6) (Molybdenum-Yatallurgy)  AUTHOR. Shorsher,' I.N. SOV/136-58-12-3/22 TITIE: Joint Action of Co 16--etor-reagents in Flotation (K voprosu o sovmestnom deystvii reagentov-sobirateley pri flotatsii) PERIODICAL; Tsvetnyye Metally, 1958., Nr 12, pp 11 - 14 (USSR) ABSTRACT: The author states that the recent articles (Ref 1) of V.A. Glembotskiy and Glembotskiy et al (Ref 3) on the action of mixed collectors contained no reliable experimental evidence for the flotation of ores. His own experiments with M.I. Gorodetskiy (Ref 2) following work at the Institut gornogo dela AN SSSR (Mining Institute of the Ac. Sc. USSR) gave to o great e,. divergence of expe rimental results for drawing valid conclusions for ores while Yu.I. Yeropkin (Mekhanobr) found no improvement in lead-ore flotation from using several instead of one xanthate in full-scale tests at the Zyryanovskaya Works. The author goes on to give detailed criticisms of Glembotskiy and his collaborators (Ref 2) disagreeing with many of their contentions', including the following: isopropyl xanthate is the best collector for the test ore; addition of butyl Card 1/3 dithiophosphate to xanthates improves lead recovery in the  SOV/136-58-12-3/22 Joint Action of Collector-reagents in Flotation lead flotation cycle while zinc recovery is maintained; that the combination of a fatty acid with a xanthate is of practical interest (an editorial note suggests that this may sometimes be so). Dealing with the'combined use of collectors of one class but with different radical lengths, the author refers to his own work (Ref 5) and suggests that increased collection of mineral in the froth sometimes ob- served can be explained by decreased flocculation of grains. he produces evidence against Glembotskiy's views on collector adsorption from a paper by I.N. Plaksin and Ye.A. Anfimova (Ref 6),,tabulating some of their results for chalcopyrite with mixed xanthates and a single xanthate, and maintains that the former failed to allow for the nature of such effects in evaluating his results: when these are corrected, sorption of all his xanthates is virtually the same. The author finds Glembotskiy's results on bubble adhesion and galenite flocculation entirely unconvincing. He concludes by stating that there is Card 2/3  SOV/136-58-12-3/22 ,Joint Action of Collector-reagents in Flotation experimental evidence that no benefit results from the advocated use of mixed collectors in leadflotation from polymetal"lic ores. There are 1 table and 5 Soviet references. ASSOCIATION: Mekhanobr Card 3/3  --rmour;1wa, I-'Iu. Reducing the loss of molybdenum in the separation of coll"tivo concentrates.. Obog. rud 4 no.1:14-15 '59. (MIRA 14-8) ...I (Flotation) (Molybdenum) - - YdAIP A  SHORSHER, I.N. Incorrect suggestions concerning the use of spiral separators. Obop. rud 4 no.1:42-43 '59. (MIRA 14:8) (Separators (Machines))  StNC!q,-;[IER, I.ij. M no -2: 50 Molybdenum balance in ore dressing plants. Obog. rud 4 '59. ORIRA 14:8) (Ore dressing) (Plolybdenum)  AUTHOR: Shorsher, I.N. SOV/136-59-6-20/24 TITLE- CritiCism-4f'-Several Published Articles on Enriching Ores (Kriticheskiye zamechaniya po nekotorym publikuyemym stat'-~-am po obogashcheniyu rud) (Letter to the Editor) PERIODICAL: Tsvetnyye metally, 1959, Nr 6, PP 93 - 94 (USSR) ABSTRACT: The articles criticised are Izv. AN SSSR, OTN 1958 Nr 4, pp 16-22; Dokl. AN SSSR, 1958, 119, N .r 5, 961-963;' Byull. tsvetnoy metallurgii TsIIN, 1958, Nr 1, pp 10-16 and a pamphlet by V.A. Glembotskiy, TsINTI GNTK, KazSSR, Alma-Ata, 1958. The authors of the first two articles assert that there is a relation between the crystal lattice energies and the flotation properties. The minerals are classified in three groups. If we take cerrusite as having a lattice energy of 100, the bemaining five minerals in groups one and two vary within + 7.7 and -8.2, i.e. the difference between the first two groups is small. In group one, corrusite has the best flotation properties, contrary to expectation, from energy considerations. The minerals Ln groups three Cardl/2 differ from the others by having Fe as the predominant  SOV/136-59-6-20/24 CPiticism of Several Published Articles on Enriching Ores cation. This and not the value of lattice energy is the main difference. It is difficult to see what is meant by a natural hydrophobic nature since it has been shown that grains of cerrusite are covered by films of air (Refs 3, 4). In the articles, it is recommended that minerals are mixed with sodium sulphide for 20-30 min. It'has been established, however, that long periods of sul- phidisation are only necessary when excessive quantities of sulphide are used which impedes the action of the collector (Ref 4). Willow oil has been suggested as a collector for flotation of minerals difficult to flotate. It contains, however, organic acids and high phenols which will not flotate such minerals. There are 5 Soviet references. ASSOCIATION: Institut Mekhanobr Card 2/2  ,~HEEVTSOVA, G A ~; SHORSHER, I.N. Nitronic acid salts as collectors in the flotation of oxidized ores. Obog. rud 4 no.4:7-9 159. (YURA 14:8) (Flotation-Squipment and supplies)  -- SHORSHER-, I.N.- II Improvement, of flotation processes at the Balkhash Plant. Obrig. rud 5 P-0-1:3-6 160. (MIIU- 14: 8) (Balkhash-Flotation) II I  SHORSHER2 I.N. Improving the procedure of separation by flotation of molyb4enite bearing concentrates. Obog.rud. 5 no.Zill-16 160.. OMW -3 (Flotation) (~b2ybdeate)  EOMAROVSHIKH, P,V.; i011YIN, M.F.; SHORVSHER, I.N. P. V. Komarovskikh and M. F. Anikin's letter to the editor entitled "Use of helical-type separators" and I. N. Shorsher's reply. Obog. rud 5 no.5-.62-6.5 '60. (MIRA 14:81 1. Sotrudniki Irkutskogo nauchno-issledovatel'skogo instituta redkikh metallov (for Komarovskikh, Anik',). (V-Inbir - ))  SHORSHER, I.N. Improving the work indices of the "Sorskaya" molybdenum plant. Obog. rud 6 no-3:7-11 161. (MMA 11,: 11.) (Krasnoyarsk Torritory-Molybdenum ores) (Flotation)  SHORSHER, I.N. Purification of Ore-Dressing Plant waste waters from hydrocarbons, TSvet. met. 31+ no-5:~6 My 161. (MIRA 141-5) 1. Nauchno-issledcivatellskiy i proyektnyj institut mekhanicheskoy obrabotki poleznykh iskopayemykh. (Ore dressing) (Water-Purification)  S/137/61/000/011/038/123 A060/A101 AUTHOR: Shorsher, I., N. TITLE: On some problems of flotation by cation collectors PERIODICAL: Referativnyy zhurnal. Metallurgiya, no. 11, 1961, 8, abstract 11G58 ("Tr. Vses. n.-i. I proyektn. in-ta mekhan. obrabotki poleznykh iskopayemykh", 1960,.no. 125, 57 - 62) TEXT: On the basis of studies carried out upon cation collectors, it was establish-ad that it is possible to choose the synthesis of a mixture of amines with various radical length, varying between certain limits. This mixture will not be inferior to individual collectors in Its flotation characteristics. It was also established that in flotating with a cation collector there occurs its sorption on the grain surfacej which differs sharply from the sorption of oleate and xanthogenate ions on minerals well flotated by their respective collectors. A very easy washing off by water makes it possible to treat the process of its sorption as a nearly physical, in contrast to a chemical process of the sorption of oleate and xanthogenate. The possibility is indicated of a considerable lowering of the expenditure of cation collector by the use of recirculated water. Card 1/2  S/137/62/000/003/030/191 Aoo6/Aiol AUTHOR: Shorsher, I. N. TITIZ: A scheme of testing the concentration ability of rare metal ores by the gravitation methods (for tin, tungsten, tantalum-niobium and other ores) PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 3, 1962, 7, abstract 3G52 (V sb. "Issled. po obogashcheniy-u i tekhnol. polezn. iskopayemykh", Moscow, Gosgeoltekhizdat", 1961, 56-61) TEU: A scheme is presented for the testing of concentration ability, whUch is applicable when developing a system for the concentration of rare metal ores. A method is given for the refining of coarse gravitational concentrates. A. Shmeleva [Abstracter's note: Complete translation] Card 1/1  S/137/62/000/003/034/191 A0061AI01 ATMOR: Shorsher, I. N. TITIZ,: Flotation concentration of scheelite and molybdenum ores PERIODICAL: Referativnyy zhurnal, 14etallurgiya, no. 3, 1962, 11, abstract 3G78 (V sb. "Issled. pc. obogashcheniyu i tekhnol. polezn. iskopayemykh", Moscow, Gosgeoltelehizdat, 1961, 61 - 66) TIM: During concentration flotation of scheelite ores, basic flotation is made with the aid of soda (0.65 k&/t), water glass (UP to 0.7 k&/t), fat acid (4 0.20 kg/t) and a frothing agent. Prior to the steaming operation, the concen- trate is refined, and condensed to 60,'-o' solid. The concentrate is then steamed at 85 - 900C by charging the least necessary amount of water glass within about 60 minutes. After steaming the concentrate is cooled and flotated again, and the frothy product is refined. The control-flotation concentrate contains much 6al- cite; it must therefore be condensed and steamed together with the coarse concen- trate of the basic process. The tails from refining are condensed, if there is a high amount of water glass, and they are directed to the tail section of control flotation. To reduce scheelite losses, it is expedient to direct the overflow Card 1/3  S/137/62/CGQ/003,/G-3V191 Flotation concentration of scheelite and molybdenum ores A006/A101 from condersin~.; coarse concentrates to the top of control flotation of the basic process. A flotation method for separating barite from scheelite was developed ~_~nd assimilated at the Chorukh-Dayron plant. To remove the apatite, "lie concen- ~-rates are lixiviated in HC1. Collector Vi,"j-21 (IM-21) is recommended for the flotation of scheelite ores- the collector is a mixture of linoleic and linolenic lo-ores are L acids. flotated with the use of any neutral oil as a collector (~:,~roseno and others) and my sturong reagent of this series as a frothing lGciit *fi~ine oil, lenol, etc.) . Soda and w_-Oter glass are often used as addit-ional re- In tine basic flotation cycle. plixing of the concentrates with kerosene ` o `he-'i, rc'-Inirig increascs 1.1o extraction. The pre-re-ining operation of I U -1 1 - L. - U -:---concentrate should be carried out after preliminary refininS for the rur- 2_,O-~_ of sulfide elimination so that the Mo content be raised by 20,c"o and more The technical and economical calculations indicate the expediency of -the hydro- metallurgical processing of Polo-containing wastes even if they contain 0.5~')' Mo. ',7aor cyanide salts should be used as depressors of sulfide minerals with si- E'Itaneous charge of soda. When using Na2S during the refining of 10jo-concentrates it is expedient to intrGduce a collector; without it Na~)S exerta an Increased depresGirig- effect on MoSo. To z!.vo-id over-refining of McLE2) 'he introduc-4on a-P U~ stage flotation might pr8ve OXPedient in the basic concentration cycle, if the Card 2/3  S/137/62/000/003/034/191 Flotation concentration of scheelite and molybdenum ores A006/AIOl _rrist is sufficiently coarse prior to the initial flotation stage. The intro- duction of two cycles "a basic flotation is planned to raise MoS2 extraction from hard-to-flotate ores, namely: a top cycle, to obtain a concentrate which is re- fined to condition, and a tail cycle to obtain a product subject to hydrometal- lurgical. processing. A. Shmeleva [Abstracter's note: Complete translation] Card 3/3  S/137/62/000/003/035/191 A006/A101 AUTIM: Shorsher, I. N. TI=.L: On the problem of molybdenum balance at concentration plants PERIODICAL: Rcferativnyy zhurnal, Metallurgiya, no. 3, !962, 12, abstract 3G83 ("Obogashcheniye rud", 1961, no. 2 (32)j 25) On plants ahere the metal is calculated from its content in the ore, iderable discrepancies in the metal balance were observed. Apparently, the consL content of oxidized Mo in the ore increases at an analysis on account of the par-lial oxidation of Mo sulfide with hydrochloric acid in the presence of con- siderable amounts of Fe3+ salts transferred into the solution from mixed ores. This reduces the content of Mo sulfide, which is the cause of Mo sulfide dis- crepancy in the balance and of the artificial increase of connercial extraction at the plant. it is recommended to determine tleMo sulfide content in the ore from the difference between the total. Mo content in the ore and the oxidized Mo in the tails. A. Shmeleva [Abstracter's note: Complete translatLon] Card 1/1  SHORSHER., I.N. Depression of zinc blende during the flotation of complex metal area, Obog. rud 7 no.2i17-a8 162. (MIRA 16:4) (Nonferrous fi-4) ~me . (Flotation)