SCIENTIFIC ABSTRACT VARDANYAN, E.S. - VARDANYANTS, L.A.

 L 2412~46 EEC(k)-2/EWT(d) ACC NR, AP600r5_96 SOURCE-It-0 E: UR/Olzo7651000/006/ozioloz AUTHOR: Kaza!Zan, R. A.; Vardanyan, E. S.; Sidorova, S. P. ORG: Yerevan State University (Yerevanskiy gosudarstvennyy univergitet) TITLE: MeasujrLinj the energy radiated by tubular f1a8h lamps q w SOURCE: Pribory i tekhnika eksperimt:nta, no. 6, 1965, 210-211 TOPIC TAGS: flash lamp, electric lamp 9 spectral energy distribution, light ener,gy, measuring instrument ABSTRACT: The development of a simple device for measuring the totaf or spectral energy yiel&ad-by-flash-lamps of straight- tubular construction is reported. Cylindrical shell 3 (see figure) made from 3-layer copper-wire winding is supported by molybdenum glass jacket 2 which housec teat lamp 1. The energy is measured lay the variation of resistance of the copper wire. Filling the jacket w ith a suitable liquid (e.g., 316 CuSOV) Card 1/2  ACC NRt AP6001596 12, permits measuring the energy within a particular spectrum band (3200-6500 A). Examples of lamp energy efficiency and spectral characteristics are shown. "The authors wish to thank D. Kh. !~jgoEyan for his help in spectrophotometric work and F. A. Avetisyan for building the measuring device. " Orig. art. has: 3 figures and I formula. SUB CODE; 09.13/ SUBM DATE: lOOct64 ORIG REF: 003 Card 2 /2 N  VAMANW, 0 - "Riugworm in agricultural animals." Yerevan, Aipetrat, 1953, 28 Mes With illustrations. In Armenian. SO: TABCON Vaterinariya; Vol 31; No. 2; February 1954, Unclassified.  VAIRDANWj, 0. A., MMKIANs E. L.0 and AG&BLBWo M- I- Bolezni selIskokhoziaistvenmykh ptits i ikh profilasktika (Diseases of agricultural fowls and their prophylaxis). ErevanIq Aipetratj, 1959, 190 pages with illustrationes Price 3 r. 20 k. bound; 1,,000 copies. In the Armenian language.  USSR/microbioloa - Microbes Patho"enic for Man and Animals. F Brucellac Abs Jour Ref Zhur Diol., No 22, 1958, 99431 Author D-Dyakhchlyan, A.B., Vardanyan, G.A., Melikyan, Ye-L., Ter-Ovanesova, O.G;--,- -- Inst Yerevan Zootechnical Veterinary Institute Title Some Data on the Dynamics of the SeroloL;ical Reactions in a Non-Secluded Drucellosis Isolator. Ori-r, Pub Tr. Yerevnnsk. Zooteklui. vet. in-ta) 1957, vYP. 21; 203- 207 Abstract The dynamics of the aeroloL4cal reactions were studied in cattle affected with brucellosis on 1 non-secladed farm with brucellosis w1hera, in the cotirse of 1952-1956, cattle affected with brucellosia were kept. Thore ware 78 positively reactin(,, animals prior to the investigation Ca ~ 1/2 84  USSR/14icrobiolour - Microbes PathoC;eaic for Man and Animals. F Drucellae Abs Jour Ref Zhur Biol., Xj 22, 1958, 99431 in the isolator, and within 4 years there were 59. The blood serum of these cattle was investitpted 8 times by means of the reaction of agGlutination and 5 times additi- onally by the cooplement-fization test. NeCptive results were obtained in 55-79% of the cases with the aLgGlutina- tion reaction (AR), and in 65-89% of cases with the comple- ment fixation test (C.F.T.). At the same time the diaano- stic titers of the serological reactions viere part of the animals) in the case of AR in 21-45%, and in the case of C.F.T. in 11-35%- It is the opinion of the author that a measurable recovery from brucellosis in cattle takes place on a nonsecluded brucellosis infested farm. However, a somewhat lonGer period of time is nee4ed for the sanitation of ouch farms than that established for a secluded isolator, Some prolonCntion of this period is apparently attributed to reinfection or superinfection. Card 2/2 -- G.Ye. Frumkina  1--.- VARDANYAN, G.S. Experimental method for determining thermal stresses and their concentrations, Izv. All Arm. SSR. Ser. fiz.-mat.nauk 14 no.5: 31-40 161-- (MIRA 14'.11) 1. Institut mashinovedeniya All SSSR~ (Thermal stresses)  3/032/61/027/009/006/0'9 B1 17/B101 AUTHORS: Prigorovskiy, N. I., and Vardanyan, G. S. TITLE: Determination of thermoelastic stresses by the optical polarization method PERIODICAL: Zavodskaya laboratoriya, v. 27, no. 9, 1961, 1129-1134 TEXT: The authors study a method of determining thermoelastic stresses and their concentration on transparent cold models by making optical.polariza- tion measurements. The problem of thermoelastic stresses for a given field of the temperature gradient may be solved in most cases by applying this method which uses "freezing" and "defrosting" of deformations in transDaren., polymers (Ref. 1: Spravochnik mashinostroitelya. (Handbook of Mechanical Engineer) t. 3, 91. XVI, Mashgiz (1961)). According to the given field of the temperature gradient At i . ti end - ti start in the respective part, and according to the values of the coefficient a of linear elongation, sections i of this part are marked, in the points of which the values a.,At, may be assumed as being equal. According to the dimensions and shape of Card 1/3  Determination of thermoelastic B103 61/027/00/006/01~ B1 17YB101 the part and the intended size of the model, the scale of geometrical similarity is selected.. Assuming that there is no connection between the sections i in the model, the corresponding "free" relative deformations E i - O~i'16ti are calculated in the connecting plane, and the scale for the load of the sections is selected. The sections i are "frozen" under stresses of a . 6 + ('Z - (2). Here) 6i - aiAt, and E i min i ~-mid/y I min are the "free" deformations for the original part. When applying the stresses aiv relative deformations 61 - (ai/Efreez)(' - ~Lfreez) (3) develop in the section i of the model (in the case of universal elongation or compression in the plane of the section), or 61 ~ 6i/Efreez (3a) (when stresses are only applied in the direction of the deformation investigated~ The model is completed with the sections with "frozen" deformations, and I'defrostedIt by heating. As a result, stresses appear in it which correspond to the required, temperature-conditioned stresses 4-n the original part. These stresses are "frozen" by cooling the model to roorr, temperature. The difference of main stresses and stresses along the unloaded outlines are measured according to the points of the model. The Card 2/3  8/032/61/027/009/006/0-,g Determination of thermoelastic ... B117/B101 stresses found in the model according to the law of similarity are trans- ferred to the original. If the stress does not depend on Poisson's ratio, U ig , [E - 0 (4) holds for a case corresponding or orig '~- i/cri(l - "freez)] mod to equation (3), independent of the scale of geometrical similarity. The sign of a. is opposed to the sign of the stresses applied during "freezing" of the selctions. If 'min ' Wy) ~7min' then Z i/'i is constant for all parts of the model. The material 3A 6- M (ED6-M) (Refs- 4 and 6: N. I. Prigorovskiyj A. K. Preyes, M. F. Bokshteyn, N. A. Kupryakova. Modeli iz novogo opticheski aktivnogo materials, ED6-M, (Models Made of the New Optically Active Material ED6-M) Izd. filiala VINITI, AN SSSR (1958)) was found to be suitable for conducting teats by the method described. The method was applied to flat models. The following stresses were determined: stresses during fitting of a ring on a disk of equal thickness; thermal stresses during heating to 2000C of plates soldered on edge; and thermal stresses in plates of uniform thickness with openings. There are 5 fiourr-8, 1 table, and 7 Soviet references. ASSOCIATION: Institut mashiicvedeniya Akademii nauk SSSR (Institute of Card 3/3 the Science of Machines of the Academy of Sciences USSR)  S/740/62/000/008/001/001 9081/E435 AUTHORS: Prigorovskiy, N.I., ~rdanyan, G.S. TITLE: Investigation of the thermoelastic stri-as distribution and concentration by the application of "freezing" and "thawing" SOURCE: Akademiya nauk SSSR. Institut mashinovedeniya, Problemy prochnosti'v maahlnostroyenii. no.8- 1962, 56-68 TEXT: Continuing previous work, the authors deal with the application of"the "frozen stress" method to the photoelastic determination of thermal stresses. The advantages and disadvantages of photoelastic experiments.on transparent models are reviewed, and thermal and elastic properties of a suitable material -3P6-M (ED6-m) ar *e'listed, together with the modifications to the method needed to deal with thermal stresses. A description in given of the apparatus required 'and of the procedure for making the models and carrying out the experiments; the necessary mathematical equations are als.o derIved. Details of thermal stress determination are given for the following cases: Card 1/2  S/740/62/000/008/001/002 Investigation of the thermoelastic ... E081/9435 a ring fitted in the hot state externally to a disc; a rectangular steel component subjected to a triangular temperature distribution across the section; a steel plate containing a circular hole; a steel plate with two semi-circular notches; a, thin walled cylindej~ subjected to axial temperature Variation. The interference figures are reproduced and the derived stress distributions are analysed in detail. There'are .5 figures. Card 2/2  VARDANYANP G.S. (Moskva); PRIGOROVSKIY, N.I. (Moskva) Using the polarization method for simulating thermoslastic streflaes. IzY.AN SSSR.Otd.takh.nauk.Yekh. i mashinostr. no.~4:146-149 .Tl-Ic 162. (KRA 15:8) (Thermal strewwa)  dtr"t~i&ixxG vuw okmnmvc~ ox mu.isocilnic Dy paotoelacuoltqr qL - xvi TOPTC TAGS! Cf t 1. 1 ev ltr b n- am4SOO I fn' C M-Mi7tCTr. OlOtOOLIatinity mnthnA n   OEM L 2005-66 WT(d)/EWTW/EWP(w)/EWP W/T/F.OW/90 (k)/EWP (b)/NIA W/M W ARMNOW NR i AP501LB1622 UR/=2165/018/00310036/0042 AUTHORt V&ntwWan j 0, So I ftftchyan R, Ye, iTITLEt Investigation of nonstatlonary stresses by the~'_jfi6i6ilasticlt37~mthod ~WMCZs AN ArxWR. 19vestlys. Serlys, fisiko-satewaticheskikh nauk, Y. 18t no. 3e 19650 36-42 TWIC TAGSt internal stresi, metal stress,- strese-cowentration, polarograpbLe lanslysisi-almilulty tbom stresses by]~ onary made olf polization-woties.1 wasumentst and describe the results obtained 4a test4 !of-& cantilever beamMakened by three holes, under fretv dexped,oadWationok Isimilarity coviditions under idtich polarixation-aptical. measurements of models wa& Ior polymer materials can be applied to real structural *embers are- derlv~d The stus consisted or PPv_5 pouwization-e pment-a"-filg6--aps"i motion-picture " -- - --- M 'eamera, SKS 41 Nowchrossito ght was obtained from a DRM-250 sercur7 lamp v1th -_-gfeft filter (Air 546-01 us)$ The pictures taken at MOO frmee pareecood, 1-cwd 1/2  L =546 ACCE86109 IFR: AM186n The distributlon of the stress..at a selected point or the bean were determined from the time variation of the Interference rringes photographed by the camrs. A me',:ho of converting these date Into actual stresses or-s. steel been to briefly describA, brig. art, Us% 3 figures =4,13 formulas. ASSOCUTION t InStItUt matematiki. I mekhaniki AN Aroyanskay BOR (rastittite of ~_At_hematlcs and 14echanic!,AX ApM) C,,d  ACC NRs AT7002113 SOURCE CODE: UR/0000/66/000/000/0274/02116 .1 AUTHOR; Vardan an, G. A~~;_Prigorovskiy, N. 1. ORG: no ne TITLE: Methods for determination of thermoelastic stresses SOURCE: Vsesoyuznaya konferentsiya po polyarizatsiopno-opticheskomu metodu issledo- vaniya napryazheniy. 5th, Leningrad, 1964. Polyarizatsionno-opticheskiy metod issledo- vaniya napryazheniy (Polarizing-optical method of investigating stresses); trudy kon- ferentsii. L2ningrad, Izd-vo Leningr. univ., 1966, 274-286 TOPIC TAGS: stress, stress analysis, plastic coating, optic method, polarization, elastic deformation ABSTRACT: The authors present a comprehensive review of techniques for stress inves- tigation using simulated conditions on models made of optically active materials. Two main directions have developed: generation in a model of stresses, proportional to the actual stresses, through application of an appropriate temperature field (method of heated and cooled models); and generation in a model of stresses through mechanical introduction of deformations corresponding to a givez~ temperature field (method of un- heated models). Both methods, which are currently i~ a state of evolution, lend them- selves to solution of relatively uncomplicated probldms. To apply the method of heat- Card 1/3  ,kC _CN 13 ed and cooled models, a temperature field similar to'the actual field is created in a geometrically congruent model. Care must be taken to ensure the congruency of the thermal stress fields between the actual object and the model. If these conditions are satisfied, the actual stresses can be 'computed f~cm the known congruency relations Various techniques for generation of temperature fields in the models are available: electrical heating; cooling using liquid nitrngen, oxygen, and hydrogen; imersion in-1 to a heated oil bath. Polariscopic observation of sqrface changes due to photoelasti- city phenomena in the model materials is used to loc4'te and measure the stresses. Three techniques are known for application of the un)eated model method: 1) elastic dislocation; 2) application of fictitious loads, aftgr Maysel; 3) "freezing" and 11un- freezing". The first technique was applied to the analysis of thermoclastic stresses of flat bodies with multiple conzieetions, located in a stationary temperature field. This technique is bas6d on a theorem by Muskhelishvi~i.which relates the thermal stresses with dislocations. The technique of fictitious loads is based on the reci- procity theorem, and consists of application of a single fictitious force at a point- where the thermal stresses are to be determined ' and:the subsequent measurement of normal stresses and corresponding dislocations at al~ points of interest in the part being analyzed. Finally, the "freezing" and "unfreezing" technique is realized in the following manner: a model congruent to the actual part is constructed by monolithic bonding of separate parts in which deformations were generated and "frozen" prior to bonding. These deformations correspond to the "natural" deformations which would oc- cur in the actual parts due to the temperature changes. The model is then heated, r_ 1A 12  ACC NRj AT7002113 and the individual deformations are therefore released. A redistribution of deforma tions and stresses takes place which are again "froztn" when the model is returned to room temperature. These stresses, which correspond to the actual stressest are mea- sured using polariscopy. If the elastic properties of the actual material are tem- perature dependent, the problem of simulation is much more complex. For the case when these properties are temperature independent, V. M. Maysel has proved the fol- lowing three theorems: 1. In a three-dimensional free body with either single or- multiple bonds, or in-a body fixed on supports, the temperature displacement and de- formation in any point of this body does not depend On the modulus of elasticity E, but generally depends on the Poisson coefficient p; while the thermal stresses are proportional to E and depend on U. 2. In a thin free body with single or multiple bonds, located in an arbitrary flat, nonstationary temperature field, the thermal stresses in the extreme points are independent of u and proportional to E, while the thermal deformation of the extreme elements is independent of E and u. 3. In a free body with single or multiple bonds under conditions of flat deformation under the.in- fluence of a flat generally nonstationary temperature field, the thermal stresses in the extreme points are proportional to the magnitudes of E and 1/(1-0, -while the thermal deformation of the extreme elements is independent of E and proportional to the magnitude of (1-p). Several examples are used to illustrate the various methods. Orig. art. has: 4 figures, 3 tables, 4 formulas. i SUB C.ODE: 20,kk/ SUBH DATE: 14Jun.66/ ORIG RM C13/ OTH RM 014 Card  MANVELYA140 M.; YJIJYKARYAN, K.; FINKELOSETEYII, B.; VARDANYAN, I.; MAIMIASYAN, S. Production of glass fibers based on complex silicate rocks. Prom. Arm. 6 no.11:54-57 N 163. (MIRA 17:1) 1. Armyanskiy nauchno-issledovateltakiy institut khimil Gosmetallurgkomitata pri Gosplafie SSSR (ANIIKhIM). Y, "j A~ ~~;in ti GA- Yv;  MANVELYAN, M.G.; KkLAMIARYANI K.G.; VARDANYAN, I.A.; FINKELISHTEYN., B.I. Preparing alkali-free glass fiber at the base of local rav materials in Armenia. Stek. i ker. 21 no.9:39-41 S 164. (MM 18:4) Nauchno-issledovatellskiy institut khimii ArmSSR  MANVELYANP M.G.- KAIAMKARYAN, K G., inzh - MALKHASYAN, S.G., inzh.; _ VARDiANWUL.I.A.., inzh.; FINKELIgATEYN, B.I., inzh. Obtaining alkaline glass fiber on a tuff and pumice sand base. Stek. i ker. 20 no.9tl8-20 S 163. (MIRA 17:6) 1. Hauchno-issledovateltakiy institut khinii soveta narodnogo khozyaystva Arqranskoy SSR. 2. Chlon-korreopondent Armyanakoy SSR (for Manvelyan).  MANVELYAN, M.G.; KALAMKARYAN, K.G.; VARDAN"Y'AN, I.A.; FINKEL'SHTEYN, B. I. Preparing alkali-free glass fiber at the base of local raw materials in Armenia. Stek. I ker. 21 no-9:39-41 S t64. (MIII,A 18:4) I.Nauchno-issledovatellskly institut khimii Ard9SR.  TARDANYAN, X-A- Some featuree of the planning of multistory dweNLngs made of prefabricated room units. Izv.AN Arm.SSR. Ser.tekh.nauk 13 no,2:43- 50 160. (MIRA 13:8) 1. Armayanskiy nauchno-isaledovateliskiy institut stroymaterialov i sooruzheniy. (Apartment h(nises)  VARDANYAN', M.A., aspirant X-ray diagnosis of chronl!: append:Lttis in ebildren, 'lop. rbnt *0 i onko 72131-138 163 (XI RA 17.-7)  Problems of dynamics in stonecutting. Izv. AN Arm. SSR. Ser. tekh. nauk 10 no-5:65~-74 157. (KIRA 11:1) 1. Institut stroymaterialov i soorazheniy AN ArmSSR. (Stoneoutting)  VARDANYAN, K.S. Investigating friction and wear caused b7 stone cutting. Izv. As Arm.SSR. Ser. takh. nauk 11 no.5:45-50 158. (MIRA 11:11) 1. Institut stroymaterialov i sooruzhaniy Hiniaterstva stroltelletva ArmSSR. (Stonecatting) m  VARDA19YAN,_,,K,_&., . ---, .... T- - . Some problems in cutting natural- stone. Izv.AN Ar=.SSR. aer.tekh.nauk 12 no.6:49-52 159. (MM 13:6) (Stonse,,utting) .. ~e- ;  VARDtd-iAAN, , K. S. , Cand Tech Sci -- "Friction and wcar of cut- tinp- instruments in the cutting of stone." i-loscow, lo(-G. 23 pp with graphs; (Ministry of Iransport Construction USSP, All-Union Lcie-nt_i- fic, Research Inst of Irans-port Go nstruc tioli *) ; 1-,- G copit- L. ; p -r-L cf-~ -.-oT, given; (KL, 22-60, 136)  TER-AZARIYEV, III VARDANYAN, K. New disks for stonecutting machines for quarryin tuffs. Prom*Arm. 4 no.1:31-36 Ja 161. WU 14:6) 1. Armyanskiy 1natitut stroitellnykh materialov i sooruzb"tniy Gosstroya Armyanskoy S4. (Stonecutting-Equipment and supplies)  -- ---- -- --- ---- -- TER-4.7MIYEVp I.A., kand.tekhn.nauk; !~~~~~and.tekhn.nauk Choosing the design of disk saws of stonecutting machinery. Stroi. i dor. mash. 7 no.12:24-25 D 162. (WRA 16: 1) (Stonecutting-Equipment and supplies)  VARDANYAN _~_,,,,keind. tekhn. nauk Investigating tlie process of stoneworking with.bus-h hammers. Prom. Arm. 6.no.12:48-50 D 163. (MIRA 17:2) 1. Nauchno-issladovatellskiv institut kamnya i silikatov,Soveta narodnogo, khozyaystva Armyanskoy SSR.  VARUNYAN, L. Ye. Effect of the scale of prodduction on the selection of prod-iction processes used in the machinery industry. Sbor.nanch.trud.3rPI no.10:101-109 '56. (MLRA 9:12) 1. Kafedra tekhnologii mashinostro7enlya Terevanskogo politekhni- cheakogo instituta. (Factory management) (Production control)  i Y~ ii A m 25C FU3Z I X= ZnUMTION SOVIL392 UoLnCM. Inshe"roo-tkonadchOskiy institut 0rVLMjsAtMV& I Vl&MjrOV%Ai" M~Mr MbOty MM4hLA0ltTOjt&I'E7U PrV4;AY&UYj Xlh~akc" sovesIxIAlyt. Doklady (GrValzatioa " ?U=Lxg of Miform Work %Ibzblms-bulldlm9 Mit-PrIavel Caufamoce of Tax.4s. MvMU) XDdwwv *2~, IoAr. (ggrissl Ltel ~rjdy# v".22) 410W ~Was printad, bisa $.A. V*Ikov &M Lo. %tevowy-i Tv4h- Mi LT. IbMlm%l *A&" U;.M Litraturs Go (*.hgi.), TO.?. M... 9-4- Ma=# Ibla collsottom of &rtlclAd is inten"d for engtmering wA tooWeal personnel In m4hlw-%uLl4in& votablIshematm, ejul for seleatiS14 vorbIrO 044 atu"nte Of L"tAtwu* WA d4p"mssuts of O.MinwerjAg a" Sommi*O. Conm=g wo catuatiou or anicus ooctains reports lb7 wrkmro from -8, td at UA scientifia rmse~h Inatitat4ap Lad Industrial ast4liskmeats presea Was am of Tuna on the $Object$ -orwailattoo MA PIAMLO& of wifers, CpMrft= IA WahLW-bUil4in4g ZSt&tU~hMMQU." ThOO* MpOrW dIS31fid JPOOMI problass asomtered is orvalsation, analysts, and 0mory of vatfors pro4matiod, IOU as prolblam in labodels Planning, tasholdla pre"U96, WA predestion fflociallmuou. Oard I/ a 0.4WAt. of 114WO&I SOLOSORS (IbF*V%Askiy_rlltmMmi4b~skLy FOXYt*~Wftl b'%LVA"j). Imat of Probbluma ftructars Of "LahLom awpa of VA4hlmw4.Lul" rimate *a the awthm of Ismir c9sratiom  VARDANY.'tN, L.p kLmd.toklin.nauk Problems in tha organization of line production in lzmenian machina:7 industry. Prom.Am. 6 no.7:26-28 T1 163. (MIRA 16:9)  AUTHORS: Varda an , Filatova,A. A. 64-58-3-15/2o TITLE: The First Results of the Introduction of the Seven-Hour Working Day in the Kuskov Chemical Plants (Pervyye itogi perekhoda, Kuskovskogo khimicheskoao zavodix na aemichasovoy rabochiy den') PERIODICAL: Khimicheskaya Promyshlennost', 1958, Nr 3, PP 56-57 (USSR) ABSTRACT: In the above-mentioned plants it was decided to try the seven-hour working day based on new salary conditions from October 1, 1957. A table of the changes in payment is given as well as a graphical representation of the standard output of various productions from the last quarter of the year 1957. The change to this new working method was carried out by party and work 3rganizations under collaboration of the workerd' and employees' asso- ciation whereby agitators led the campaign to introduce the new tariff.system. Besides the mentioned innovation3 a'so some improvements of the technological process of the Card 1/2 polystyrene, "viniflekses", of the production of plastifi-  The First Results of the Introduction of the 64-58-3-15/2o Seven-Eour Viorking Day in the Yuskov Chemical Plants cizers j etc j were carried out. Data on the various results of success are listedp as regards production and also the change of the payment conditions. There are still some improvements to be expected as well with regard to the technical standards as with the premium system. In order to achieve a further rise of performance a plan was ela- borated for 1956 under consideration of each department which should bring about the due realization of the plan for 1958 and raise the efficiency. 1. Chemical industry--USSR 2. Industrial plants--Management 3. InduL;trial plants--Standards 4. Employee relations Card 2/2  VAM)A,jyAN, H.S.; 7jLjk7OVA. A.A. - up~V~1`11~1':.. 0-, initial resultO of the change-over to . oeven hour da7 at the ruskovo Chemical Plant- KUM- VrOm- no.3tl84-185 Ap-1~7 1-580 (Houra of labor) (Ghemical Juduotries) (KLU 11W  36055 S/,~63/62/C/j7/W2/007/j 14 AO 57/A i L6 MID i4 AUTHORS: Yenikolopyan, N.S. Doctor of Chemical Sciences, Vardanvan--fLS. TITE;-.': Tiae production of po.yi'ormaldehyde PEKLODICAL: Zhurnal vsesoyuznogo khimicheskogo obshchestva irreni D.I. Mandeleyeva, v. 7, no. 2, 1962, 194 - 2oo T---",(T: Prorxivtles, the production, and the mechanism of poly,--~--rization 0",poly-corma-ldehyde pre discussed and some experlm,-ntal rcoults are pm~tented. A great part of the presented inVormation is apparently taken from the ~iymposlu:n on vlacrochetnistry in Canada, 1961. Polymers of formaldehyde am, knov.,n since th(Kr discovery by A.M. Butle-ov. 'Aqo types - polyoxialdehydes and po 1yoxime thy 1e ties can bu, noted. High molecular weight polyoximethylene, i.e., poly t'ormaldehyde, shows soIrm.) ai)tstanding physical and chemical properties, thus being o;' Interest ;"Or V.2r!01.1~3 PLI'l-POSCS. Monomer formaldehyde used as Initial inateria! can be pre- paLy~d: .) As jow-nolecular compound, para-formaldehyde and