SCIENTIFIC ABSTRACT BOGOSLOVSKIY, I.M. - BOGOSLOVSKIY, V.

SHEVELKIN, B.N., kand.tekhn,nauk; BOGOSLOVSKIY, I.M., inzh.; KRAVCHENKO, L.L., inzb. Investigating the pressure workability of steel-silver bimetallic sheets, Sbor.st, NIINHIMMASH no.3309-112 160. (MIRA 15:5) (Metalwork)  21925 luo S/164/61/000/003/003/004 12,8~ 11040113 AUTHOR: Shevelkin, B.N., Candidate of Technical Sciencest Kravchenko, L.L., Golovanova, A.P., ffi7g~slovskiy, I.M., Engineers TITLEt Investigations concerning the possibility of.working titanium alloys by means of pressure PERIODICAL: Khimicheskoye mashinostroyeniye, no- 3, 1961, 33-38 TEXT: The article contains some data of the above-mentioned investigati n 0 11 carried out at NIIKhIJMSh to be used in the manufacture of parts for devi- ces of the chemical machine building industry# The investigations have been carried out on BT1 (M) alloy sheets, 1.5 to 8 mm in thickness and on OT 4 OT 4) sheets 1-5 and 5 mm in thickness. Fig.]. shows that the stability 6B and 60.2) of the alloys decreases without variation when heated up ~ from 20 to 7000. A maximum decrease in a temperature range of 20-4000 has been observed with samples which had been out out transversely to the rolling direction. Impact toughneBs variation of M (6 mm thickness) and OT4 (5 mm thickness) in a temperature range of - 70 to + 10000 is shown in Fig.2. At temperatures close to 10000,iqmct taElwess values could not be obtained since Card 1/6  21925 S/184/61/000/003/003/004 Investigations concerning the possibility ...... DOWk13 the samples only buckled due to high plasticity; in Fig.2j this is shown by a dotted line. On investigatin the mechanical properties of the M tita- L nium sheets (12 and 25 mm thickl there was no indication of anisotropy of the mechanical properties along the length and breadth of the rolling directi--n. The mechanical and plastic properties of the alloys were tested under various heat conditions. M samples were heated in the furnace (from one to three times) up to 7500, OT4 samples up to 8000 and cooled in the air; the soaking time was changed from 20 to 160 minutes, and the samples were cooled in dif- ferent media (water, air and together with the furnace). The tests have shown that triple heating with 160 minutes' soaking at temperatures below al- lotropic conversions deteriorates only by 5-10% the'plastic properties of both alloys. A corrosion test in a 1 510 H2SO4 solution indicated that a heat- ing of up to SbOO with short soaking ~uP to 30 minutes) does not change the corrosion resistance of the metal. Prolonged soaking at temperatures of 7500 deteriorates the latter property. Table 3 shows the permissible bending-ra- dii obtained from investigations with cold and hot samples.. After the bend- ing tests, corrosion tests were carried out during 100 hours under the guid- ance of G.L. Shvarta . The technological media contained molybdenum trisulfide, molybdenum and tungsten sulfo- Card 2/8  2122 c~ S/18 l1OGxjj1M31X3/-rAD4P Investigations concerning the possibility D041 D11.3 salts, as well as hydrochloric acid and sulfide compounds. The co5rosion speed of VTl did not exceed 0.015 G/m2hour, and of the OT4 0.06 G/m, hour. Shells rolled out from titanium sheet with a lengthwise welding seam can be flanged with a local heating up to 300-3500, and in o&se the whole shell is hot, with a general heating up to 550-7500- The largest flange diameter is determined by the following formulaz D.. -_V4 :, - Goof max cimean,mo flanging The symbols are exp1hined in Fig. 6a. Drawing tests with titanium alloys have been carried out in die-sets by means of a 30 ton hydraulic press. As punch material C435-52 (SCh 35_52) ohromium-nickel cast iron is recom- mended; the dies should-be made of the same cast iron with steel inserts or of steel whose surfacelhas been consolidated to a hardness of RV 56-60. The working surface of the punches and dies must have a fineness of 7 9, and if higher accuracy-is required, the surfaces must be polished. Bottom stamping from titanium alloys was also effected. The following conclusions were drawn: 1. Bottom stamping from M with a relative elongation of more than 20% can be effected in the cold state; if the press has not the neces- sary capacity, the punches and blank should be heated to temperatures of Card 3/13  21925 S/184J61/000/003/003/004 Irvestigations conoerning the possibility ...... D04!/Dll3 0 300-3500 or the blank should be heated to 550'-750 . Bottom stamping from M with a relative elongation of less than 20% in the cold state is not recommended. Bottom stamping from OT4 alloy should be carried out by heating the die'-set and the blank to temperatures of 300-3500 or by using a hot piece with temperatures of 650-8500. 2. Die-sets for stamping ellipti- oal bot'oms should have a curvature red 'ius(of (2"3) d a clearance (unilate ral) between die and,punch of z - 1-05 f 1' 1) -, 3- Cold stamping requires XBA -21 (KhVL-21) or 9-32 lacquers as lubricants for covering the blanks, as well as'water-colloidal preparations like 8-0 (V-0) or 8-4 (V-1). For hot stamping it is recommended to use V-0, and V-1 or dry graphite to be sprayed on the surface- 4. The blank's edges should be GIV4nlyl6ut,and the burr removed- 5. In order to increase the plasticity and remove the re- maining inner strains, a heating to 55o-6ooO with a soaking of 3-4 minutes per every mm of the bottom-wall thickness must be effected. 6. Corrugations and bulges can b~ 'removed by secondary stamping or by heating them up to 400-5000 and hammering with a copper hammer on the die. Flanging, expand- ing, flattening, bending and rolling tests with cold VTl pipes (diameter - 26 mm, wall thickness - 1.~ mm) have been carrioa out. The M had a sta- bility limit of 46.6 kG/mm and a relative elongation of 21.5%. The teets C ard 4/18  21925 S/184J61/000/003/003/004 Investigations concerning the possbility D04l/Dll3 gave satisfactory results. 26 x 1-5 mm Pipes in a framework with apertures of 26.4, 26.6, and 26.8 mm, have undergone rolling testst no detects appea- red on the surface and the expansion degree was 0-7-1-5% which corresponds to the HMX-105-56 (Mh-105-56) standard. Technological tests with 25 x 1.2 and 38 x 3 mm M pipes gave bad results. The pipes disintegrated along the welding seam. There are 7 figures and 6 tables. Card 5/8  - 219?5 - - - -- - -., ~ ~ . . S/18 61/000/003/003/qO4 D041YD113 Investigations concerning the possibility .... ** I I Fig.lt Variation of the mechanica i properties of VTl(3 mmi thick) 1l t t f i a n a empera ure range o oy 20-7000. oo Legend: (1) Relative contraction 4 q;. (2) Relative elongation 0%. (3) Viscosity boundary 59 M. (4) Stability limit V (5) Samples cut out di 11 ia the rolling direction. (6) -V Samples out out transversely to Zt tiia rolling direction. E k 10 W *Vd 3W W 5W SM W *C Temoirpamypa uen6tmamup Omr. 1. H3meHeHHe meiaHHqeCKHX tisoftvi atitatia BTI (.niter t _.W 6-3 xm) 8 HHTeptinae TemnepJITYP W-70W:_ /8~ OOPB311M 1IMP01111M sAaab wantiamemmm npoxm; - 06- Cara 6 PA39M NWPe3AH1d 110"tPeg 141111PANUMUS 11POKATA.0  21925 Investigations concernipg the possibility D041YD113 2 Fig. 2: (1) kG-m/cm . .(2) Impact it twghnees. (3) Testing temperature. I alloy. (5) OU alloy. (6) I out in the rolling ai- 0. Sam'ples cut otion. (7) Sam(ples out out trans,- r e fo A z versely to the rblling direction 5 IN V f 00 JT --L -50 -30 fe -9 C fV 7W 4W SM W T r.-2. H3meweHHe YASPHOR ON 4,1 BTI (aw am Cn., -6 xm) x OT4 (amcT 0-5 x a MlitepsUe TeMnePATYP- ,oa -70-+.? . cnAss BTI;(,D-. MW OV; 06PA3%LM DUPOS"M 06RA311M SUPOMMU OwepeR WOUPAS. Card 7/8  21925 S/18 61/000/003/003/004 Investigations concerning the possibility D041YD113 Table 31 Permissible bending radii for VT1 and OT4.alloYs. .-,Tdg-4u'4a 3Table 3: (1) Bending temperature Aony"Hmue P~Amycw rK6KH AAR CUROOD BTI m OT4 in 00.(2) Alloy brand. (~) S . (1) , ) Sheet thickness in mm. For VT1 MAPKA Congo 0 alloy 1.5 8.mm, for OT4 TemneJUTYPS rV6KNC I BTI OT4 1.5 mm. 20 49* 66 3DO M U 750 1 2b 3b (3-) - TOAULKN AWLTi 9AM. AAN comm OTI A w tog + I Ats, An VT4 3.5 D,M M Dmax d, = d Fige 6a mean - sheet thickness Card 8/8  ACCESSION*NR: AR4027678 S/0276/&/0O0/001/V003/V004 SOURCE: R~h. Tekhnologip MashihostioYedyal Abs.,'IV5 AUTHOR% B6gosloiskiyj X* He TM.E: A stWy of the pressure treatment of steel-bronze, steel-braos, steol-copper bimotals CITED SCURCE% Tr. Vses, ni-it - :1 kons~rukt. in-t-khim. mashinostr.s vy*p. 43, 1963, 49-53 TOPIC TAGS: bimetal,,steel.-bronze bimetal, steel-brass bimetal, steel-coppeir bimetal TRANSLATIONS" The author presents the results of a study on the stampability of bimetals steel 10-Br, 0.4 steel 10-brass 90P and steel 10-XZS. The dimensions of the bimetallio shoots was 1200 X 200 X 10 = with a cladding layer thickness of 4 mme It was establisbed . that the extrusion of bottoms and shells 400 mm in diameter without prelUdnary thermal processing may be performed oray ~dth ono-pieop billetel welded billets requize preliminary heat Card 1/1  -ACCESSION NR: "4042505 8/0182/64/000/007/0001/0003 AUTHOR: Bogoslovskly, 1. M., Maelov, Ye. 1. TITIX: Pressure workability of the bimetals steel-copper, steel-bronze, and steel-brass SOURCE: Kuznechno-shtampovochnoye proizvodstvo, no. 7, 1964, 1-3 TOPIC TAGS: bimetal. clad steel, steel 10, bronze, copper, brass, bronze clad steel, brass clad steel, copper clad steel, bImoW mechanical property, bimetal strength, bimetal workability i ABSTRACT: The expensive structural materials used In the chemical industry can often, be replaced by less expensive bimotals such as clad steel. Ito present articlo roports the results of Investigations conducted by NEMNNMash on the mechanical and technological properties of clad steel which affect Its pressure workability. The following bimetals were investigated: steel 10,-MZh Z and steel M90-2 with thicknesses of 3, 5 and 10 mm having' a 1, 2 and 4~mm-thlck cladding,* respootivft plus steel 10-Br. OZh 4-2 with thickneases of 5 and 10 m* m having a 2 and 4-mm-thick cladding, respectively. The niechanical properties of these bimetale were deter=&od In a temperature range from - 70 to + 900 C'. Card 1/4  ACCESSION NR: AP4042505 using 10-mm-thick specimenB. Ile specimens were cooled In a container with carbon dioxide and ethanol, heated in a tube-type electric furnace. The influence of repeated heating to 800 C at various soaking times with subsequent cooling in air was* also Invosti- gated on 10mm-thick specimens, as well as experiments on the cutting of bimetal sheets 1 with guillotine shears, cold and hot bending around a mandrel, and cold and hot stretch- forming in a press. The results are tabulated, and some are shown in Fig. 1. of the Enclosure. On the basis of the results obtained, the authors conclude that these bimetals exhibit sufficient plastic properties so that they can be recommended for the manufacture of details to which pressure must be applied (bending, rolling, stretching). They point i out that cutting of blanks from bimetal sheets on guillotine shears has to be done from the clad side, in order to avoid separation of the cladding from the base-mew; bending-of bimetal sheets around a mandrel can be performed with the cladding on either the outer or 1 1 inner curve of the bend, but the radius of curvature of the mandrel must not be smaller than 2 thicknesses of the sheet; (4) stamping and rolling of bimetal segments can be done from one-piece or welded blanks, whereby It Is recommended to subject the blanks -to previous heat treatment consisting of heating to 650C, a soaking period of 2 hours, and cooling in air. In case the capacity of the pressing equipment is limited, hot pressing ord 2/4 C  ACCESSION NR: AP4042505 can be used, but in either case provisions have to be made for holding down the billet edges. Neither the bonding strength between the cladding and base-metal nor the mechanical and plastic properties of the bimetal are noticeably affected 6~ triple application of heat to 800 C with soaking periods of 10 minutes to I hour; while the mechanical properties of the bimetal decrease uniformly with an increase in temperature, the plasticity decreases on heating up to 300-400 C and then increases; finally, the bonding strength of base-metal to cladding decreases *Ith Increasing temperature and Increases somewhat when, It is lowered to -70 C. Orig. art. has; 3 ftgur~es and 2 tables. ASSOCIATION: none SUBMITTED: 00 ENCL: 01 SUB CODE: MU NO REF BOV.- 000 OTHER: 000 Card- 34,  ACCESSION NRi "4042606-14a, ENCLOSURE: 01 IM SM M 4 -70 -0 -50 -to -.v -20 - M -C V r __TT X jog JLJ Ic -70 -10 -30 -~o -j0 -10 -to . go 61 Fig. 1. Changes In rupture strength and shear strength of 10-min-thick specitnens of clad steel with changes M temperaturo,.. a. In the temptarature range 2-0-900C; b. In the temperature range 0 to -70C. I - steel 10 + bronze Br. OZh 4-2; 2 - 10001 10 + copper MMOL- steal 10 + braps LZh 00-2. in asch praph. ordinate strength In Wmm'; abselena temperature in 'C. Upper graphs rupture strength; lower graphs = shear strength. C ni 4 /4  'I X, rC-=,IC-V, SX.,~ MCC -'Imnl Y. Im' tpn-" G.!'., v, T.S., ~~"Icfa'cv' V.A.~ SILCIFICV9 I.F., -I-BRILOV, L."T'.., 11"1-17'771,', -%G., TCI-mr., 1-.S. StrcllnJkov, D.A. Concerning the review by Prof. D.A. Strellnikov, Docents B.S. Lek-shin and Ya.Ye. Nekrasovskiy, and Eng. V.A. Florov on Acad. L.D. Shtvyakcv's bcok I'Fundmtental Theory of Planning Coal Ilines." UgletkhIzdat, 1950 (Ugol.Ino- 3, 195Z), Ugol'27, no.7, 1952. 1952 9. Monthl List of Russian Accessions, Library of Congress, Cetober _FqmH, Uncl.  BOGOSLOVSKIYV I.S., dotsent Now method of determining the length of a mine area (in connection with the article by N. G. Kapustin). Izv. vys. ucheb.(zav.; gore zbur. no.9:32-38 159. MMA 14:6) la Sverdlovskiy gornyy institut, imeni, V. V. Vakhrusheva. Rekomendovana kafedroy plastov7kh mestorozhdeniy. (Mine haulage) (Napastinp W.G.)  (_ BOGOSIOVSXIT, I,S., dotsent Owe more about mining arem of limited length. Iz*.vys. ucheb. zavo; gore shure no~12:25-30 160.' (MIRA 14:1) 1. Sverdlovskiy gorny7 inatitut'imeni V*V.Vakhruj3heva. Rekomendovana kafedroy plastovykh mestorozhdeniy Sverdlovskogo gornogo institute, (Mining engineering) It',  DOG)3LOV"'KIY, 1. T. Borpslovskiyp I. T. - "A great Russinn schol-r, on the 10th w anniversary of the death of Acadarnician 1. P. Pavlov", Trudy Sarat. gos. med. in-ta, Vol. VI, 1947, p. 3-6. S0% U-4631, 16 SePt. 53, (Letopia 'Zhurnal Inykh Statey, No. 24, 1949).  BOGOSLOVSKIY, 1. T. Bogoslovskiyp I. T. - "On the problem of the action of cheni- cal and electrical stimulants on the central nervous sys- temil, Trudy Sarat. gos. med. in-ta, Vol. VI, 1947, p. 129-33. SO: U-/,631p 16 Sept. 53, (Letopis tZhurnal Inykh Statey, No. 24, 1949).  BOGOSLOVSKIY, I. T. Bogislovskiy, I. T. - nOn theproblem of the 'rejuvenation" of the organism in connection with the study of higher ner- vous activity". Trudy Sarat. gos. med. in-ta, Vol. VI., 1947, p. 165-201. SO: U- 4631p 16 Sept. 53, (Letopis 'Zhurnal 1nykh Statey, No. 24, 194~).  an I Novi FzTROVA, XODOV DOGOBLOVSKIY. Iv T fl~ ch; NARKOT, B.G., re(laktor; ~ a as r ter. (physiology of Agher nervous activitY; RA"mml for teaeheral lizielggii& Tygmhei nervnet deiatellv*sti; posebis dlia uchi- telel. Moskva, Gee. UchQbz*-P0dm9*9- ind-ve Kininteretva pro- eveshchenlia RsMR% 1955. 99 P. (KI2A 9:5) (PSYCRUMY. PHYMOLOGICAL)  1  SHUZZIN, B.N., kand.tekhn.man ; BOGOSTOVSKIY. I.M., inzh. Study of forgeability of 123223HP3, H23H27N2T, and X23H28M3])3T steel@. TruV NIIKHIMMSH no.26:179-185 158. OUU 13:7) (steel-Testing)  87573 &-fzoo Imir I'lls 1401 S/184/59/000/006/004/006 AIWAO26 AUTHORS: Shevelkin, B.N.; Candidate of Technical Sciences, Bogoslovskly, I.M. and Kravchenko, L.L.; Engineers TITLE: On the Choice of a Method for Pressure Processing of Two-Layer 20k- X 18H12M2-t (20K-Khl8Nl2M2T) Steels PERIODICAL: Khimicheskoye mashinostroyeniye, 1959, No. 6, pp. 40 - 42 TEXT: The article deals with new structural steels. The double-coated steelcoysisting of a carbon-steel primer with a O8X13 (O8Xhl3) and iyi8N97 (1W8 N9T) acid-proof steel coating used in chemical and petroleum engineering shows inadequate corrosion resistance. For heavy boilers the use of double-coated steel with M8N12M2T steel plating is recommended. Tests on pressure processing of double-coated 20K-Khl8Nl2lf2T 35-mm steel carried out by the Leningradskiy filial NIMIMMASh (Leningrad Branch of the All-Union Design and Scientific Research Institute of Chemical Machinery) are described. Plastic properties tested at temperatures of 20-1,1800C are highest at normal temperatures and at 1,100-1,180pa The adhesive strength between the primer and the coating was determined by shear- ing and tearing tests on a 5-ton tensiometer at 20, 700, 800, 1,000, 1,100 and Card 16  87573 S/184/59/000/006/004/006 A104/AO26 On the Choice of a Method for Pressure Processing of Two-Layer 20K-XI8RI2t12T(20K- -Khl8N12M2T) Steels 1,1800C. The influence of heating time on the adhesive strength between primeg and coating was tested during 15, 30, 60 and 120 minutes heating time at 1,100 C and subsequent water cooling. The behavior of double-coated steel during bending and its influence on intercrystalline and Feneral corrosion of the coating waz tested under cold and hot conditions (1,00000 on 35-nun cross-section samples. Bending was done by stamps with a radius curvature of 16, 24 and 40 no. The im.- proving properties of heat processing on strained xetal was tested by annealing at 750 - 9500C for 3 hours followed by air ecoling, and tempering at 1,OOOOC for 25kin and subsequent air cooling (for austenitic steel alloys), Metallographie tests revealed no damage to the adhesion of 20k (20K) and KhI8NI2M2T double-coat- ed steel during bending, despite of the separation of a carbide layer of 0.03 - 01 am at the contact line of the primary layer and the coating. Doublecoated steel can be strained either hot or cold for stamping purposes; stamping itself should be performed at 1,180 - 9000C. As the shearing and tearing strength decreases during prolonged heating prior to stamping, this should be curtalled as npach as possible. The permissible bending radius in hot or cold conditions is: 3 - 3-5 a (cold) for outward bending (T = 1,200 - 4oooc) and 4 - 2.5 a for inward bending. Card 2/3  87573 S/184/59/000/006/004/006 Alo4/AO26 On the Choice of a Method for Pressure Processing of Two-Layer 20 - 18 12 2 (20Y, -KhIM2~tT) Steels Three month tests proved that all samples subjected to bending, welding and v&rl- ous thermal processings revealed hardly any oorrosion losses. 'n)ere are 5 flgure!~. Card 3/3  8/184/60/000/005/004/021 A104/A026 AUTHORSt Shevelkin, B.Ne, 'Candidate" of Technical Saiencesi Kravohenko, L.L; Bogoslovskiy, I.M.j - Bhgineers -------- ------ Tr1Wt - Investigation of the Processability of Laminated Steel-Silver8heets FERIODICALs Khimieheskoye mashinostroyeniye, 1960, No. 5, PP. 37 - 39 TMS -pe of silVer coated steel was developed by the Giprotsvet- A new t) Otobrabotka or (State Designing, Planning and Scientific Research Institute f ?,yocessing Nonferrous Metals). The sheets consist of a "steel 10" basic layer N-V1-W7W- rM coated with 99.98% silver. Firm adhe- .~~,Cjfj sion between the base metal and the coating is ensured by a special-alloy N1 interlayer, vacuum heated prior to hot rolling. Tests were performed in the -Union Designing and NIIKhIMMASh (All 7~ Scientific Research Institute of Chemi- cal Machinery). Figure 1 shows the structure of the base metal (1), inter- layer alloy (2) and the silirer coating Card 1/3 89584  S/184/60/000/005/004/021 A104/AO26 Investigation of the Prooessability of Laminated Steel-Silver Sheets 0 Figure 2 shows the effects of heating at 20 - 6000C, i.e., relative contraction (q)); relative elongation and tensile strength (db). Buckling tests were performed at 20 - 7000C. Elongation properties were tested on solid or welded ingots, which were cold jorged into 400 and 700 mm diameter bottoms with in- verted plating. Only the carbon-steel layer was weld- ed before forging with 942A (ECh2A) electrodes, the i coating was applied afterwards. To avoid damage of coatings during forging the.ingot'was protected with C_ parchment paper. The porosity of ingot and 'bottom coating was examined by application of filter paper 10 r .- 1 4 _j soaked in a solution of 10 g NaCl, 10 g gelatine and 20 A" IN XV W M ANIZ 1 9 K3Fe(cN)6 in 1 1 of water. No porosity was found. Rolling tests included two 400 and 700 mm shells. Coating damages were avoided by interlayers of thin alumiftum foils or strong paper. Afte~r rolling the coat- ing was inspected as to porosity according to the described method. The authors! conclusion is: silver coated steel-sbeet of 5 mm 0r6 less showed satisfactory Card 2/3  89584 S/184/60/000/005/004,,'021 A104/A026 Investigation of the Processability of Laminated Steel-Silver Sheets tensile strength and elasticity when subjected to buckling, elongation and roll- ing in cold state. Bottoms should be made from solid ingots or heat-processed welded ingots. Protective interlinings of parchment paper are necessary during pressure processing of silver-coated steel for'stampings and thin aluminum foils and of strong paper for rolling. High surface cleanness of stamps and rollers are essential. Silver-coated steel is not suitable for cold or hot manual stamp- ing. Porosity checks are indicated, any defects can be removed by dressing or welding. Thickness of welding should be chocked with calipers, and the adhesion between base metal and coating by the eleatroacoustic method. There are 3 fig- ures and I table. Card 3/3  VOIMKOVSKIY, S.A., prof.;, Boris Alekseeviah Stoilov; an obituary. Izv.v7s.ucheb.zav.; gor. zhur. no.4:147-148 159. (MIRA 13:5) (Stoilov, Boris Alekseevich, d. 1959)  -7 ACCESSION NR: AP4011184 S/0286/641000/00110048/0049 I AUTHOR: Korenchenko, M. it. A,9.&pA.;.oM's~iy,,.K.--.Ye.;,Kutuzova, G. A.; Lelekov, V.1S.; Smirnov, B. V. "~od for calibrating acceleration pickups r~rorking 'under TITLE: A mat ii pulse conditioAn, Class 42, No. 159668 SOURCE: Byul. izobret. i tovarn. znakovp noo 1, 1964, 48-49 TOPIC TAGSt -acceleration pickup, accbilerometar, acce'larometer calib ration,'.acceleration pickup calibration ABSTRACT: The patient describes a method for calibrating accelera- tion pickups working under pulse conditions in a shock tube under the action of a gas dynamic pulse load. For determining the sensl- tivity of the pickup in a widerange of acceleration$, the pickup is mounted in a sliding piston inside the shock tube. The dipplaca- ment of the piston due to the action of the gas dynamic pulse load determines the sensitivity of the pickup.(see Enclosure 01), ASSOCIATION: none .Co,d*. -- - ------------ - -  EWT (I (a)/EWA(h)/EWA(1) WW ACC NRi AP6013206 SOURCE CODE: UR/0421/66/000/002/0108/0114 AUTHOR: Bo& 8,lqvl~"M .K,_Xa,jMoscow); Kireyeva, N. 1. Moscow); Makarevich, G. A. (Moscow);-T6iretayev, Yu. A. (Moscow),- Ehimarev, S. K. (Moscow); Tarantoy, Ye._X_. (Moscow) ORG: none TITLE: Investigation of unsteady flows past models in an electromagnetic sh6ck tube SOURCE: AN SSSR. Izvestiya. Mekhanika zhidkosti i'gaza, no. 2, 1966, 108-114 TOPIC TAGS: experiment aerodynamics, electromagnetic'shock tube, strong shock wave, detached shock wave, shock wave reflection, supersonic flow ABSTRACT: An experimental Investigation of unsteady flows moving behind strong shock waves produced by ele tric discharges past models of v us shape was ca-r-rle-cr -out ele tromagnetiyshock tube. The purpose of this study was to determine the time of flow transition from an unsteady to a steady state in the stagnation-point region and to check the theoretical data on flow parameters behind strong shock waves. The electromagnetic shock tube, experimental set-up, instrumentation, and test proce- dure are described.. The results obtained in an electric discharge shock tube with .Wave velocity of the ~rder'of 8000 m/see show that: 1) the obtained dependence of the nondimensional value of the relative shock wave detachment on bluntness as a function of nondimensional time makes it possible to determine the time of the estab- LCard 1/2   POWLMSM, r.. D. Ekskavatornaia r.a*z'rabotka grunta ffixeavation word. Gos. izdat. lit. po stroitel'stvu i arkhitekture. 219~f 49 P. SO; Monthly List of Russian Accessior~p Vol 6 No 6 September 1953  BOGCSLOIISKIY, L.~ D. MR/Engineering Comtruction, 39quiWrit Feb 5~ "Use of Walking Excavators in,Construction of- Canals," N. A. Osmer, Engr Laureate of Stalin Prize, L. D. Bogoolovskiy, Engr "Gidrotekh Stroill No 2, pp 7-10 Discusses advantages of walking excavators and describes construction and gives specifications of 2 Soviet-made dragline excavators: ESh - 4/40 and'Esh - 14/65 withbuckets 4 and 14 cu m in voI;and boom length of 40 and ~5 m, resp. 212T64  Y BOGOSLOVSKII',M, Md GRISHIN, M. M. Probleme. raki Dona. L-The Problem of the Don riverje Qa Kompleksaye vodokhoziaetvennye problemy SSSR. Xaterialy k Vaesoluznol konferentsii. Moskva, 1932, v. 2, p. 39-52), DLC; TD285,AlA5 1932 SO: Soviet Transportution and Cormunications. A Bibliogrn2hy Idbrary of Congress, Reference Department, Washington. 1952, Unclassified.  BOGOSLOVSKIT, MR CMMM, I J/ Science and technology abroad. Opt.-Makhoprome (251 no.3:56 Mr 158. (MIRA 11:9) (Optical instruments)  BONSWUlalt XA. BOOOSLOVSK17 I M.A. Inlaid vaterways; a tiad-book for technical schools of the river fleet Moskva.. Rechisdat,, 1940. 238 p.  DOX5 i -C Bo-oslovskii, I.I.A. Vodnye puti; kurs cilia ekspioutzitsionnykh fa.-.1d,tutov institutov in-henerov vodnogo trarisForta. Ibskva, Aucidzdat, 191~j- ~91 F. Title also in lerzuan Lnd En-lish. I IfFerechen'literatur-j": P. 336-j89. DI,C: TC745.B6 SO: LC, Soviet -reograpby, Fart 1, 1951, uncl.  macums-110 H. A. ur BOGOBLOVSKII.. M. A. Tn1mr-d waterways; confiratid as a textbook for river fleet sohools and technioal institutes Isd. 2., parer. i dop. Utverzbdono... v kschastve uohobnika dlia rechzqkh uohilishch i tekhnikumov. Moskva, Izd-vo Ministeretva rechnogo flota SSSR# 190. 363 p 41 (49-25886) T0745.B57 1948  dote., kand.tekhn.aaak; DOMANL Nw4kkkAskmeg TUIY,. kaud.tekhn,n-a~uk. retsentent; SEZRIAIKOV, A.P., retsenteat; HELMMIN, A.M., rateenzaht: OV, S.L., kand.geogref.nauk, red.; MAKRUSHINA, A.N., red,izd-va-, SAIAZKOV, H.P., tekhn.red. (waterways and portal Voanye puti i porty. MoBkva, lzd-vo "Rechnoi transport."- Ft.le (Investigation of waterway93 Iseledo- vanita voduykh putei. 1957. 251 p. (MM 11:4) (Inland, navigation) (Fydraulic engineering)  -S - 51 HOSIK, Josef; GUMOGINOV, A.V., re.daktor; SUPOVAIM, V.I., tekhnicheskiy redaktorl DORODNITSYN, A.A. [translator]; DOGOSLOYSM. M.K [translator] (High-speed aerodynamics] Aerodinamiks, bol'shikh skorostais Pareyod s cheshakogo A.A.Doroduttayna i M.M.Dogoslovskogoo Prediel. A.A. Doroduitsyna. Moskva, Ind-yo, inostrannot lit-ry. 1954. 547 p. CM1crofum3 (MLRA,7-9) (Aerodynamics., Transonic)  BATUYEVJ, A.S.; BOGO-SuivsKly" M.M. Relations between the occipital and motor areas of the cerebral aorter in oatsf electrophysiological research. Flziol. zhur. 49 no.9slO17-1025 S 163. (MIRA M12) 1. Kafedra, fiziologii vysshpy nervnoy dayatellnooti. Gosudarstvennogo universiteta imeni. A.A. Zhdanova, Leningrad.  SHOSTAKOVICH, D.1 CHULAXI9,Mol PNMO, N,;(~19LOfFVSKIT, Nikits-, VOLKOXSKIY* A.; AWRIMO N.0 akadamt1c; awurvi-, WOORKINA, A. More discussion on the photoeleotronio music synthesizer, Znan.sila 35 no. 11:28 1 l6o. '(WIRA 13:12) (Ilectroacoustics)  Is W. 7ri-2-6/064 AU'MRSt Yakubovich, A. Ya., Pravova, Ye. P., Boaoslov3kiy, IT. A. TITLE: Syntheses of Vinylmonomers. 2. Some Derivatives of cv--Chloroacryl- ic Acid(S'intezy. vinilovykh monomerov. 2. Nekotor,-.1,e pro2.zvodnyye U -khlorakrilovoy kisloty) PERIODICALs Zhurnal Obshchey Khimii, 1956, Vol. 20, Nr 2, pl:. 520 - 321 (USSR) ABSTRAM From the acid halides of o(-chloroacrylic acid the authors pro- 7 duced the fluoride of this acid which was hitherto not described. The synthesis with a yield of 45 % was performed acccrding to the method of A. N. Nesmeyanov and E. Kan (reference 1). The attempts to synthesize the acid fluoride by heatin,~ (160-1700C) of oe--chloro- acrylic acid witb benzo,,l fluoride or bj the excban~'e reaction of the chloride of chloroacrylic acid with potassitif-i fluoride yielded no positive results. The acid eblorides of oC-chlo-roacrylic acid was not obtdned b- dehydroclilorinaticn of the acid diloride of di- chloropropinic acid (refererce 2), but directly from oC-chloro- -acrylic acid. The bust yiull (QO was obtained by the action of benzoyl chloride upon the acid. When other acid clhloride3 (PCl , Soci 21 C6H Ccl ) were used, the yield of Ot -chloroacrylyl cEor- id e Was smalleE By means of chlorine- Cx -chloroacr,7lyl it was pos- Card 112 sible to synthesize p-cyclohexaphenyle the r and IT-phenylamide (hith-  Synthene.9 of Vinylmonomero. 2. Some Dorivati ves of cv- -Chloroacryl-ic Acid erto not described) as well as the ethyl other of oc-cliloroacrylic acid in the usual manner. Accordi-nZ; to its prolBrti.,s othylof-chlo- roacrylate did not differ from the ether which earlier described (references 2-4) and which was produced by the authors by neans of etherification of X-chloroacrylic acids with ethanol. '.Mie above- -mentioned ck-chloroacryl derivatives can Lgive polymers and co- polymers with vinylijonomers. There are 5 refererms, 1 of which is Slavic. SUIRUMM: April 25, 1957 AVAILABLE: Library of Contgress Card 2/2  AUTHORS: Yakubovich, A. 80V/79-28-8-62/66 Pravova, Ye. F.p Rozen9hteyn, S. M. TIITLE: Syntheses of the Vinyl Monomer (Sintezy vinilovykh monomerov) :, IV. Fluoro-Substitutea Aorylat (IV. Ptorzameshchennyye akrilaty) PERIODICAL: Zhurnal obehohey khimiii 1958, Vol. 28, Nr 8t pp. 2288 - 229 1 USSR) ( ABSTRACT: The number of the fluoro-subatituted acrylateB known is small (Ref 1). The authors synthesized an entire series of fluorinated acrylates. Starting from P-fluoroethyl alcohol and 1,1,1-tri- fluoroisopropyl. alcohol and the ohloroanhydride of methacrylic acid they obtained by oidinary synthatic'meaus the trifluoro- ieopropyl and P-fluoroethyl methaorylates (these are only mentioned in the patentp but are described in detail in the experimental section ) . The attempt to synthesize fluoro- methaorylate by replacing the halogen atom in chloro- or bromo-mothaerylate with fluoride from potassium fluoride was unsuccessful. Attempts to use the synthesis described in reference 5 *ere also unsuccessful. Of those acrylates which have fluoride in the acid part of the molecule the Card 1/2 authors synthesized the methyl-a-fluoromethylacrylate  Syntheses of the Vinyl monomers. IV. Fluoro-Substituted SOV/79-28-6-62/66 Acrylates and the a-difluoromethylacrylate and their derivatives. The eynthesia of these compounds was carried out according to the procedure already mentioned. All intermediate products (CYanhydrins, a-oxypropionic acid and its eaters) which had fluoromethyl and difluoromethyl-groups were separated and classified. The starting materials, fluoroacetone and difluoroaoetons, were obtained by reacting ohloroacetone and dichloroaactono with potassium fluoride in diethylene glycol. There are 5 references, 2 of which are Botiet. SUBMITTED: June 3, 1957 Card 2/2  82678 B/079/60/030/008/001/008 B004/Bo64 AUTHORS: Yakubovich, A. Ya., Bogoslovskiy, No A.p Pravova,, Ye. P., RAWU_M_0y__Gk_1_~ 9- Belyayevap 19 Top -T.- TITLE: Synthesis of Vinyl Monomers. 11. The Synthesis of a-Chlorohydronorylates and a-Chloroaorylatee ? PERIODICAL: Zhurnal obahchey khimii, 1960, Vol. 30, No- 8, pp. 2496 - 2498 TEXT: The authors report on the following syntheses: a-chloro-p-hydroxy propionitrile (I) from aqueous solution of acrylonitrile7by introduction of chlorine gas at 1600. The compound was extraoted with ether. Yield: 38.5%. a-chloro-p-aoetoxy propionitrile (2) from I by heating with V~ acetic anhydride and sodium acetate over the water bath (yield 55-8%). Mothyl-a-chloro-p-hydroxy propionate (3) by chlorinating methyl acrylate (yield 23-5%)- Methyl-a-chloroacrylate (4) a) by dropping 3 into a mix- ture of H2so4 and Cu 2C12 (yield 74%) heated to 125-130OC; b) by dropping 3 into a mixture of P 2 05and Cu2Cl2 (yield 64%). a-chloroacrylonitrile (5) Card 1/2  82678 Synthesis of Vinyl Monomers. 11. The Synthesis S/079/60/030/006/001/008 of a-Chlorohydroaorylates and a-Chloroaorylates B0041BO64 by heating I with sodium bisulfate. Phenyl-a-ohloroacrylate (6) by addi- tion of triethyl amine solved in benzene to phenyl-a,P-diehloropropionate solved in benzenev filtering off of the triethyl amino hydrochloride precipitate, distilling off of benzene and the excessive triethylamine; fractionating the residue in the presence of phenyl-p-naphthyl-amine (yield 49~)- In 6 the authors found the refractive index nD20 to be 1-5325. They consider this value to be more oorreot than that of 1-5808 given in Ref. 3. There are 4 non-Soviet references'. SUINITTED: July 31, 1959 Caid ?_/2  BOOOSIDVSKIY, N.A.; SAMOKHVAOV, G.I.j MOBRAZHNSKIYI N.A. Complex lipids. Synthesis of cr. -(OL I-oleojvl-,8 -stearoyl) ca- phalino Zhur. ob. khim. 31 no#4:1143-131#.7 Ap 161. (MM& 14:4) 1, Vsaaoyuznyv nauchno-isoledovatellskiy vitaminnyy institut. (Caphalins)  SHVETS, V.I.-, ~~GOSLOV, %lY, NIL,; POLYACIIENKO, V.M.; VOLKOVA, L.V.; SAMOKHVALOV, G.I.; PREOBRAZHENAIY, N.A-. Synthesis of phospholipides containing repidue3 of higber alipbatic polyene acids. Dokl. A14 SSSR 1.40 no.4:851-854 0 '(.1. (MIRA 14:9) 1. Moskovskiy institut tonkoy khimicbeskoy tekhnologii im. M.V. Lomonosova i Vsesoyuznyy nauchno-issledovatel'skiy vitaminnyy Institut. Predstavleno akademikom A.N.Nesme anovymo (Phosphatides) (Oleft ~  BOGGSLOVSKIY, N.A.; SAMOKWALOV, G.I.j PREOBRAMENSKIY, N.A. Complex lipides. Synthesis of X-(dL"-linoleoY1-,6-staaroYI)- cephalin. Zhur. ob. khim. 32 no.lsl35-137 Ja 16Z. (MIRA 15:2) 1. Vaesoyuznyy nauchno-issladavatellskiy vitaminnyy institut. (Cephalin)  .BOGOSLCIVSKIY N.A.; SAI-IDKHVALOV, FREOBRAMEMiKUY, N.A, Complex lipides. Syzf~basjs of oL..( c(,!-,]J.ncleoyl--. itstearoyl) phosphatidylclioline (lecAthin). Z.1mr.ot.161vin. 32 no.7.2210-221.1+ J1 262. (MTRA 15:7) 1. Vsec-oyuwvy n-xtuchno~---LRaledovatel-3slr-t,y vitaminn7y institut. (IecdthJn)  BDGOSLOVSKIYj N.A. Conference of readers of this journal at the L.IA.I(arpov Chemicopharmaceutical Factory. Med.prom. 16 no.4:63-64 Ap 162. (MM 15:8) (MEDICAL TECHNOLOGY-PERIODICLES)  B03=SLa-VIIjrIIy)- D*-- 2-1817 AMSIAVSKR,_-LJ.. . , habota pf-redvizhnyich alektrostahtdiy na _L bvatroperame.-muyu na-ru~ ( na lesozagotovkakh) Sbornik -,atey po ob3hchetekhn. voprosann (Trudy Uralllskot;o iesotelchn. in-ta). Sverdlovsk, 1949, s. 61-68. - Bibliogr: 6 nazv. - - m SO: Leluopis' ~hurnallnykli Statey, Yo. '119, Vbskva, 1949  BOGOSLOVSKIY, N. D., "Peculiarities of Calculation and Constructions of Grouding Devices of Lumbering Ehterprises Semed by Mobile Electric Power Stations." for DeGree of Candidate of Technical Sciences) Min H gher Education Polytechnical Inst :kaeni S. M. Kirov, Sverdlovsk, 195t for Electric Safety (Dissertation USSR, Ural so-. m-1o36 28 Mar 56  BOGOSIDVSKIY, P.A,; BDGATYREV,.V-V., red.; LARIONOV, G.Te., tekhn. red. [Ice formation in the pipelines of hydroelectric power sta- tions] Ledovyi rezhim truboprovodov gidroelektriebaskikh stantaii. Moskva, Gosenergoizdat, 1950. 154 P. (MIRA 16:7) (Hydroelectric power stations)  BOGOSLOVSKIY, P.A., kandidat tokhnichookikh nauk, doteent. "Om~~~ Calculating the qaantitr of heat flow from the b9tton soil to the water of a reservoir or stream. Sbor.trud.KISI4'bj9zl34-142 155, (MMA 10:3) (Hydraulics)  BOGOMAVSKIT,,P.A., iAshoner, Cmetruction-work gum. Mokhstral. 13 no.9tl7-18 Jl 156. (Fastanino) (n" 9 ,. 11)  14(6) SOVIIIZ-59-1-453 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 1, p 61 (USSR) AUTHOR: Bons.10 TITLE: Calculation of Perennial Tatmperature Variations in Earth Dams Built on a Stratum of Frozen Soil PERIODICAL: Tr. Gorlkovok. inzh. stroit. in-ta, 1957, Nr Z7, pp 123-178 'ABSTRACT: Methods of calculating temperature changes in the body and foundation of earth dams built un a solidly frozen soil, over many years, are described. Examples are cited. All calculations refer to a two-dimensional problem. Bibliography. 53 items. Yu. M. S. Caid 1 1  BOGOSIk)VSKIY, P.A, Construction of earth dams in the regions of permanently frozen ground. Trudy Sev.-Vost.otd.Inst.msrzl.AN SSSR no.1:52-61 '58. (MIRA 16:12)  -. 'kO("OSLOVSKIT, P.A., dots.. kand.teldin.nauk Calculating heat balance of earth dams in permafrost areas. Nauch. dokl.vys.sbkoly; strot. no.1:228-238 1 58- (MIRA 1211) 1. Rokomendovana 'kafedroy ispoltzovanlya vodnoy energifi-Oorlkovikogo inzhenernostroital %op institula imeni V.P. Chkalova. (Dame) (Frozen ground)  BOGOSIOVSKUY, P.A. 1. . - --~ ; Uning models In studying tbarmal conditions In Fraund filtrations Izv. vys.ucbeb.zav.; stroi. I arkhito no.5:81-89 1 58. (MIRA 12il) lo Gorlknvskiy in0onerno-stroitelln" institut imoni V.P. Ghkalova, Orrosen ground) (Sail Dhysics)  via V 8*9 88P C; J I f rt lei 8~ a Sa it At. 3 c "k jib 31 s 8 Ji  BOGGOSLOVSKIY* Petr Aleksoyevich (GorIkiy Construction Engineering Ihstj6) -t=* for Doc of Tech Sci on-the basis of disser+.ation defended 30 Jun 59 in Council of