JPRS ID: 9841 USSR REPORT METEORLOGY AND HYDROLOGY NO.2, FEBRUARY 1981

APPROVED FOR RELEASE: 2407/02/09: CIA-RDP82-00854R000400070022-6 _ FOR OFFI('IAL USE ONLY JPRS L/10107 ~ - 9 November 1981 West Euro ~ Re ar# p p SCIENCE AIvID TE~~iNOLOGY ~ (FOUO 13/81) Fg~$ ~OREIGN BROADCAST INFORMATION SERVICE FOR OFFIC[AL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 i ~ NOTE JPRS publications contain inforcnation primarily from foreign = newspapers, periodicals and books, but also from news agency transmissions and broadcasts. Materials from foreign-language sources are translated; those from English-language sources are transcribed or reprintedr with the original phrasing and other characteristics retained. Headlines, editorial reports, and material enclosed ~n brackets are supplied by JPRS. Processing indicators such as [Text] or [ExcerptJ in the first line of each item, or following the ~ast line of a brief, indicate how the original inforcnation was processed. Where no processing indicator is given, the infor- mation was summarized or extracted. Unfamiliar aames rendered phonetically or transliterated are enclosed ir. parentheses. Words or namas preceded by a ques- tion mark and enclosed in parentheses were not clear in the original but have been supplied as appropriate in Gontext. Other unattributed parenthetical notes within the body of an item originate with the source. Times within itea~s are as given by source. , The contents of. this publication in no way represent the poli- _ cies, views or attitudes of the U.S. Government. ~ COPYRIGHT LAWS AND REGULATIONS GOVERNING OWNERSHIP OF MATERIAL.S REPRODUCED HEREIN REQUIRE THAT DISSEMIN~,TION OF THIS PUB?.ICATIUN BE RESTRICTED FOR OFFICIAL USE OYLY. APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 FOR OFFICIAL USE ONLY ~7PRS I,/10107 9 November 1981 WEST EUROPE REPORT SCIENCE AND TECHNOLOGY (FOUO 13/ 81) CONT~~ITS ENERGY French Government Acts To Promote Uae of Geothermal Energy ~ (Edouard Rencker; ENERGEIA, May-Jun 81) ~ 1 INDUSTRIAL TECHNOLOGY Manufacturi.ng Materials in Space Under Microgravity ~AIR 6 COSMOS, 5 Sep E~1) 4 TRANSPORTATION Engine Manufacturers Discuas Joint Development Project ~AIR & C~SMOS, 5 Sep 81) 6 Fiat Pursues 'VSS' Experimental Car Project - (LA STAMPA, 8, 9 Oct 81) 8 Theoretical' Considerationa, by Ferruccio Bernado Project Manager's Commente, by Michele Fenu . Types of Plastics Uaed, by Gianni Rogliatti - a- [III - WE - bSl S&T FOUO] APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 MUR ()FMI('IA1. ll~l~: UN1.1' ENERGY FRENCH GOVERIVMENT ACTS TO PROMOTE USE OF GEOTHERMAL ENERGY Paris ENERGEIA in French May Jun 81 pp 4-5 [Article by Edouard Rencker: "The Actions Taken in France"] [Text] In spite of the technical difficulties to which we have alluded, geothermal energy is already usable. During a speech delivered last 2 April, the minister of industry, Mr Giraud, while rev3ewing the progress made in this arca during the last 10 years, outlined the French geothermal policy. The goal is to tri.ple the numb~er of housing ~quivalents affected by this energy, that is, to raise if fran~ 1,500 to 4,500 by 1990. The work involved in this area involves two types of geothermal energy, namely, production of electricity and direct use of low level geot~hermal energy. In the first case, it is planned to employ water and steam attaining temper- aturPs higher than 150�C in order to drive turbines coupled to electric generators. , In the case of water at lower temperatures (of th~ order of 90 ta 100�C), conversion of thermal energy to mechanical energy will be achieved by means of thermodynamic machines using secondary fluids. (However it should be noted that this system which is to be developed is still in the experimental s~age). The most important use should result from the employment of hot dry rocks by making them artificially permeable. In this manner, the calories of heaC would be recov~red ~y passing a fluid, called a transfer fluid, throu~h these rocks. Such studies are being conducted - in order to achieve maximum utilization. Attention is directed to those studies carried on in the Massif Central, particularly in the overseas departments (especially at the geothermic power station in Guadeloupe). The s~cond area of geothermic inter- est is the direct use of low level geothermal energy. This concerns low temperaCurp water (approximately a maximum of 90�C) where the heat is used for a variety of purposes such as heating of buildings, agricultural greenhouses, etc.). At the present time, France ranks first in the world in this tyFe of geothermal znergy which should contribute 1 million TEP's to the total av~ilable energy. Of course, all of this is expensive, especially since the difficulties encountered in setting up a geothermic pro~ect are consi~erable. The initial investment cost is high. The risk of failure is still great. Lastly, the launching of a pro3ect must involve a large number of participants, which is not always rasy. Finally, governmiental authorities have decided to establish a financial incentive system which has led to appropriation of large funds for geothermal energy. Followin~ is an outline of this financial policy: Aid for conduction of preliminary studies, not to exceed 50 percent. A"geological risk: guarantee to protect against failure. This guarantee furnishes a coverage of 80 percent to the prime contractor. '1 ' FOR OFF[CIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2407/02109: CIA-RDP82-00854R000400070022-6 N'()It nF'F'1('IA1. IISI? QNI.Y - A lonb-term "minin~ risk" guarantee. Aid for the installations in the heat distribution networks by the energy conservation agency. This subsidy could amount to as much as 400 francs per TEP distributad per , year . Aid for construction of greenhouse equipment which could cover up to 30 percent of the non-drilling surface investments. Aid to regional public esr_ablishments, such as 50 percent of the research expenses or 20 percent of the cost of the first dril.ling. A new legal code favorable to the use of genthermal energy will be initiated. This policy will be administered with the aid of the geotherma3 energy committee ~ created in 1974 whose mission is to pr~mote this new form of energy. We may therefore expect inportant innovations in the field of geothermal energy. Coupled with the substitute fuels program and development of solar energy, the geothermics program and its "colleagues" should increase the contribution oi new forms of energy to 25 million TEP's within less than 1.0 years (at least in France). _ On a world scale (see table), the contribution of geothermal energy could be large accoraing to the date calculated at the Istanbul Worldwide Energy Conference. Taose countries which have the good luck to be located along the main geothermic belts, such as North or S~uth America, the Pacific Islands, etc., will have the ~pportun- ity of satisfying a large part of ther energy needs thanks to geothermal sources. Le gisement geothermique--Geothermic deposits. Bassins sedimentaires aquiferes a plus de--Sedimentarv aauiferous basins with a maximum temperature of: . ~ ~ ~ , ~~~~P � . _ 'nZir . ~ . France possesses iindergound layers of water whose tem erature varies from 0� ~ P 4 C to 90 or 100�C. The nrincipal ones are located in the Paris, Alsace, Aquitain and Lima e basins. The ~r~ gn great advantage of geothermal energy in France is attribut- 'YY ' able to the fact that the probable or . Y ' . estimated resources are generally located in consumer areas such as Paris and - environs, Bordeaux, etc. In the coming years, the rPsearch being conducted at La France poss~de des nap- estimees sant en g~n~ral Auvergne could open the way to new usable pes d'eau souterraines dont tu~es sous les lieux de geothermic sources . la temperature varie de 40� consommation, Paris et la C a 90/100�G Les princi� R~qion ~arisienne, Bordeaux pales sont situ~es dans le etc... Dans les ann~es ~ venir, bassin parisien. L'Alsace, le les ~tudes effectu~ea sn Bassin Aquitain, et la Lima� Auverqne pourraient ouvrir qne. Le qros avantage de la la voie vers de nouvelles sour- geothermie en France est que ces geothermiques utilisablet. les ressources probables ou 2 FOR OFF'[CIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02109: CIA-RDP82-00850R400440070022-6 F'OR nFF7('lAl. USN: ON1.1' 1 :.~'C 4~ERI~TIONS REALISEES - 2 Principales r~alisations : 3 nw~.,~�,4,..,~. �ai.:.,~ ~.;~i' Key: , ~ ~ ' w` Y 1. Existing operations . . . . . ~1L~. . ; }F ~ ~~~.YY ~ 1"T ' . imb ~ , ~ :~~0�.~~~s~ 2. Principal operations ~eoo'+~. �fi;.r, ~ 1~ . ~r~~~~ 3. Date placed in service ~w~ ~ , aLpcmi~~~ . : u ' ~ 4. Lccation i~ie ~ . ` ~ ' ~ `~0;~~, S . Hous ing equivalent s . ~ ~a 6. Replaced TEP's � . . ~ �.r: is.~!!o ~s. 4.. ~II~R ^ci 7. Small scale operations Realisctions de petite taille~ 8. Figures from Ministry of Industry ~ 9. Operation planned to start in 1981 i~s waffioer a~~nan~o -..:..~aoo ~,.d: , ~~oo:, ~s~a Lv~a~m.:r.~ ~ ;�~eo ; ' ~ ~~~r,.;~,~ ~ 10 . Target date iyn srs~~ax ' .t2oo'-~~":;~ ~E;~-~ ~ . , i~,a ~ ~n~ovxsr~ so>;,''::~ ~ ~,:,.~eo-:~ : 11. Nane of operation _ 1978 - :LODSSIEL" , , ;.^.~o;~;.;-. '�Fa, 12. Estimated 'nousing equivalents . ~ ~ ~l bi~~tj~ 1' . ~ .~'11~': f ~ . ti. ~ r:~�: ~Ilrfi~� N~ , ~ ~~~~~1�`~~~�� ~ y ~~~~7i~ A . . Ch1t(ra NuniaAn r~e 1'Indwctn~ r t)~']~~A.TIf1N DONT LE LANCEMElOTT 9 ~ ES3' PRE~U EN 1981 ~ y . , n:a a. a.afioa 1 Q' +qpltsuea 1~ tiwb . x , ` . ti.* ~i 3 ~ ~{t r > . � y ~ ~~.y~~y /~f 14/9 ' a00RGii41 ~ ~ t ~1'~' ,~'A4i. .19BD IIIID001{1R09i11aiD ' ~~~4'~0~~';tr~, 1480 ORLY " : "',1ppp,~-"~�:~'~~ ~ '~a. 198D F0lITA1lfi81+8110 s I. i~pp S�r - 1qEp R~1RJR2OIiY� 'M1., ti i ~+~~c;ti . ; r�,nNpp;~, aa',~.., 1980 3.AMAZ~lE � . . tv� 1980 ~CLml7A0~17'~t1lJt11D~: ~M00.. ~1.~~; .:.,k~,. 1981 Ci~ d,~ ~ y~ ..Id81 . '1QAWC , ~~,~rr in~~.,y ~ 1981 ACft8N~8 a eSPSv~r~i900 ~ ~ ~ _ 19BL 29R7 .f,�~ � 2hf~Q ~ ~rM�}+~' . ~ ^e . 4~:y+~ ~ mlKrw Woi~tl~~~o'P~... ~3'D'1'~.~ :~,rti't'~:~ COPYRIGHT: 1981 by Technics Editions 7619 CSO: 3102/4 J 3 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 FOR OFMICIAt. l)SE ONLY I1~1DU5TRIAL TECHNOLOGY MANUFACTURING MATERIALS IN SPACE UNDER MICROGRAVITY Paris AIR & COSMOS in French 5 Sep 81 p 46 ~Article: "F~rthcoming E`rench Space Metallurgy Experiments"~ ~Text~ The placing of the European space laboratory Spacelab, which is currently scheduled to be launched by the American Space Shuttle in August 1983, at the disposal of a larc~e number of users has made it possibl~ for France to open access _ to space to a new scientific community, that of materi~l science. Thus was born in 1975 the start of a national effort devoted to t.he study, experimentation and . indeed the exploitation of mictogravity in the domain of material science. Paralleling the efforts spearheaded by the CNES ~National Center for Space Studies~ Programs Directorate to stimulate this entirely new community of re- - searchers, the Toulouse Space Center undertook in 1976 the design and development of a temperature-gradient oven for the actualization o� .four of the eight French _ experiments currently programed for the first Spacelab mission. This oven will also be used fo;: a G~rman experiment. The CNES management, deeming it necessary to enlarge the basic acientiFic reaearch ~ffort and to carry out an in-depth experimentation phase, decided toward the end ~>f 1980 to create at Toulouse the GERME CStuBiea and Research Group on Materials in Space~. ~ Within the fram~work of the CNES technical e�fort, thxs group was assigned two primary missions: --To provide technical and technological support to French scientific and indus- trial laboratories for the study, development and exploit~tion of experimental devices in connection with the manuEacturing of materials in space; --To pramote the use of space for material science. This group, consisting presently of eight persons, constitutes a technical link between the national scientific community and the facilities for experimentation under microgravity. r 4 _ FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R004400074022-6 FOR OFFICIAL USE ONLY For the first Spacelab payload, it will carry out the operational takeover of the gradient oven and its calibration for each of the experiments that wi1'1 use it, anc~ will provide the technical assistance required for the development and accep- tance tests of the experimental unit assemblies and participation in two cryst~l- growing experiments. For the Franco-Soviet ELMA-02 ~Manufacture of Materials (in the Salyut orbital station)~, the GERN~ will prepare the thermal calibration of the Soviet Magma oven and assist the French experimenters (nine experiments being planned) with reqard to all interfaces. It is also studying the drawing ug of the technical specifications for the transporting of the gradient oven aboard the Salyut station for the Emeraude project, the object of which is to open to French scientists access t~ space flights of long duration (2 years or more) with availability of an only ground facility. The GERME is also working together wi~.h NASA on a preliminary definitional study of the MEPHISTO ~Equipment for the 5tudy of Solidification Phenamena in Earth- bound and Orbital Environments~ program being conducted by the Solidi~ication Studies Laboratory of the CNES at Grenoble in ecientific cooperation with American laboratories (MST and NBS). COPYRIGI3T : A. & C. 19 80 9399 CSO: 3102/3 . 5 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02109: CIA-RDP82-00850R000400070022-6 FOR OFFI~'IA1. t?SF: ON1.Y TRANSPORTATION ENGINE MANUFACTURERS DISCUSS JOINT DEVELOPMENT PROJECT Paris AIR & COSMOS in French 5 Sep 81 p 11 ~Text~ Pratt & Whitne~ and Rolls-Royce macle public last weekend the fact that they have been engaged in talks over the past several months in an effort to ~ determine whether they can cooperate on the program for producing motors having a thrust of 25,000 pounds (11.3 tons), which are being sought by the builders of airframes for the construction of the new generation of 150-seat airlinQrs: the A 320 (Airbus Industrie), MDF-100 (McDonnell Douglas-Fokker) and 7-7 (Baeing). These talks have an ambitious o5jective: The creation of a company that would be assigned combined responsibility for the design and development and then the ~ marketing of the new motors, the world market for which it is estimated will reach 4,000 to 5,000 units between now and the end of the century. At the last Salon du Bourget, the president of Pratt & Whitney, Mr Carlson, termed - suicidal the situation , regarding these projects, that facES the three big motor manufacturers--each of whom will be required to invest some 12 billion francs--and three big builders of airframes, whose financial effort will probably have to be of about comparable order of magnitude. 'i~alks were then be un in which CFM ~expansion unknown~ International (GE ~General Electrical Company~-SNECMA ~National Corporation �or Aircraft Engine Design and Construction~) was invited to offer its views. It appears that CFM no longer plans to throw in its lot with the RJ-500 line of motors and that Rolls-Royce has no intention of joining the CFM motor lineup. The executives of Pratt & Whitney and those of Rolls-Royce found themselves having to come together again even if only to put the finishing touches on the details of implementation of the Pegasus program, which is linked to the joint Anglo-American AV-8B program. It seems that Mr Carlson found in Lord McFadzean a more understand- ing interlocutor than Losd K~nneth Keith, who, it has not been forgotten, was at the origin of the divorce between the two motar builders on the defunct JT-lOD program, after which the two builders, now having separated, launched competitive- ly the RB 211-535 and PW 2037 motors to snatch ~he market for motorizing the ~ Boeing 757, an operation the financial outcome of which has been an outrigh~ - catastrophe. 6 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02109: CIA-RDP82-00850R400440070022-6 FOR OFFICiAL USE QN~,Y An Exploratory and Preliminary Stage The two big motor builders emphasize that their talks have nct gone beyond an expsoratoy and preliminary stage. Many obstacles will have to be overcame to bring about an effective joint operation. Su�fice it to cite the problems raised by the technology transfers while ~he two big builders are on a collision course with regard to the PW 2037 and RB 211-535 programs. The assignment of tasks iaill also not be an easy problem to resolve, each of the two builders having his own lineup of partners: Ishikawajima-Harima, Mitsubishi and Kawasaki in the case of Rolls-Royce and MTU [Motor and Turbine Co., Munich?] an~' Fiat in the case of Pratt & Whitney. Any eventual agreement must also be submitted for approval by the governments concerne3 and it is not clear whether the antitrust laws, although they did not play a role in the case of association with MTU and Fiat, might be evoked in the case of an agreement with Rolls-Royce. ~ The developments in this affair will be followed very closely by Ftench industry, - motorization being one o� the main aspects the problems associated with the launching of the A 320 proqram. COPYRIGHT: F~. & C. 1980 9399 CSO: 3102/3 7 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007142/09: CIA-RDP82-00850R000440070022-6 FOR OFFICI~?L USE ONLY 1'RAN3PORTATION FIAT PURSUES 'VSS' EXPERIMEN~AL CAR PROJECT Theoretical Considerations ' _ Turin LA STAMF'A in Italian 8 Oct 81 p 13 [Article by Ferruccio Bernado: "The Meaning of Research on the VSS"~ [Text] Writing in these columns about the VSS (Subsystem Experimenta~. Vehicle) re- search vehicle in the past few days, for reasons of space we were not able to detail the energy aspects which characterize the vehicle, whose body is made of plastic materials. We all know that any attempt to define the param~tar~ of ttne car of the future begin with the fundamental precept of lower fuel consumption. ~'his is a road that definitely can be embarked upon so much so that recent models, through retaining their traditional structure, propulsion system and materigls, are a great ~ improvement over yesterday's models. Let us not, however, ex}~ect m~raclea, not even in the far off future. Nevertheless the car of tomorrow may permit aignificant savings in energy both in the procedures and the ma~rerials used to build it. This is demonstrated by the FSS prototype put forth by FIAT. Improvements include: greater production, greater ease, lessaned work times (first savfngs); substitution for the traditional steel outer sheeting of the car with plastic, as well as substitution of iron and aluminum in some components, less steel used in the basic framework thanks to a more rational conceptualizat:lon of the framework itaelf and improved planning techniques, and making use of sophisticated methodologiea auch as mathematical models. As a result, the vehicle is lighter in every way. One may object: aren't plastics obtained from petroleum? Isn't what may be saved on one end being wasted on the other? FIAT's technicians answer: "Speciali~ed plastic materLals use for the VSS are derived from petrolQUm byproducts not other- wise usable and not used in the past. Thetr availability therefore must be con- sidered assured alth~ough their cost, at the present state of affaire, is not eco- _ nomically profitable. Furthermore, the enersy content of a product in plastic (that is, the energy required to produce it aad the energy contained im tihe material) is about half of that of a similar piece made of sheet mezal." If one were to consider the cost of t~e raw materials, the rough casting proceas and the final finishing process, eteel is or~e and a half times more expenaive than plastic and aluminum is seven or eight timea more expensive." 8 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 Foa oFF�~ciA[, us~ otvLV ' _ Reiterating: the quantity of petroleum needed to produce plastic materials is equal to only 2 per cent of that needed for other necessities: frum the pro3uction of electricity to that of heating, from the needs ~f the chemical industry in general to those bf tran~portation. The balance therefQre, is strictly ia faVOr o~ plastics. Caution must be exercised, however. It is not possible to think that from one year ~o the next, setting aside the matter of investments, that a change as radical as this, involving the whole steel producing industry, may be feasible. Nevertheless, it is the task of research to explore, even ir only ia feasibility studies, the new ways to safeguard those unrelinquishable human conquests. Individual m~bility is one of these. The meaning of FIAT's work on the Subsyst~m Experimental Vehicle must also be considered under this view. Pro~ect Manager's Comments Turin LA STAMPA in Italian 9 Oct 81 p 13 [Article by Michele Fenu: "A Car Such as This Will Last for ~aenty Years"] [Text~ "A car such as this can last up to twenty years." That is the opinion of Engineer Paolo Scolari, in charge of FIAT's planning regarding the "VSS" prototype shown r.ecently in Turin. I~owever, longevity in years is but one of the aspects of this very particular automobile, "a car" emphasizes Scolari, "that is real and functional, not a dreamcar de~~oid of practical applications." "This prototype" he said, "allows the demonstration of how som~ goals can be attained such as the simplification and reduction of assemhly operations along the assembly line as well as reduction in weight. The body is twenty per cent lighter compared to a similar traditional model. That adds up to an overall savings of about on hundred kilos." The "VSS" however, is anly one of the examples of research undertaken by FIAT. (It cost three years of research in collaboration with various corporations and com- panies.) "Research" stated Scolari, "represents 2.7 per cent of our b+adget, which translates into 270-280 billion lire annually. This figure parallels the research budgets of other ma~or world car manufacturera. The research pro,jects already - underway are numerous r~nd include those that ~.im at lower fuel consumption as well as those with other aims." Scolari msde mention of the constant changes industry will be implementing (at least 24 months will be needed) following the positive results of a long series of tests. FIAT is the leader in this intereating field. Mention is made of the - volumetric compressor, a type of supercharger already beiag used in the F7AT 131 and now in demand by many foreign manufacturers. In addition, work ia being done ~ on electronic circuitry for enginea, direct in~ection for Diesel engines and, said Scolari, "many other thinge." "Things" that are not part of the immediate future, though. Do not think it - possible to see a VSS a year or two from now. In theory, a vehicle of this kind will be on the market only by the 1990's. This is due to economical reasons, not 9 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000440070022-6 FOit OFFICIAL USE ONLY technical ones. Inv~estments of gigantic proportions are necessary, and the whole process used in manufacturing a car must be totally changed. As an example, the gi.g~ntic presses in use today would have to be substituted by much sma.ller machinee~ Anather p roblem involves stamping plastic in presse~. "In order to make a VS5 at _ this time," said Scolari, "another 100,000 lire would have to be added to the cost." An excercise in futility then? No, because beside the g~neral data acquir~d by - studies of this type, FIAT in the next few years will apply VSS derived technology to some of its newer models. Continued Scolari: "In particular, we plan to use the subsystems involving the front end of the car, the car's rear a~d above all - the rear hatch door, the defroster plate glass window and the dashboard." In essence, the application of ideas derived from the VSS is a gradual one, as is to be expected from any technical or. industrial transformation. Revolutions, from one day to the next are not possible. The important thi~g is to be prepared, and actually anticipate these changes. ~pes of Plastics Used Turin LA STAMPA in Italian 9 Oct p 13 [Artiele by Gianni Rogliatti: "Which Plastics Are Used to Substitute Traditional - Steel Sheet Metal?") [Text] FIAT's Subsystem Fxperimental Vehicle contains the highest percentage in weight of plastic materials ever used before now: to be precise, it is 26 per cent plastic, compared to Ritmo's 15 per cent plastic, "which is a car that by now has reached full production schedule and contains an elevated percentage of plastic." Contrary to the past, when the term plastic was used generically to mean a mat~rial substituted for other more costly materials, today, thanks to the advances of chemistry, materials can be manufactured and set to use that have very specific characteristics tailored to their specific functions. In order to obtain weight reduction and improved functionality, FT.~iT's technicians have made use of five different types of plastic materials, the characteristics of which are adapted to each differing task, and which are briefly described below. Unsaturated Polyester - This is a plastic with high resistance to bending and breaking as well as to high temperatures. It is the material that h~s the highest specific weight (1.7 grams per cubic centimeter) but still less than steel (7.85 grams) and aluminum (2.7 grams). This material is used for the four doors, the hatch back door and for the external rear side ganels. Polyester Foam - As the name implies, this material is derived from the same family of the preceeding material, but features a lighter specif ic weight and a greater adaptability to inaulation and soundproofing given its makeup. Its apecific weight is of 0.7 grams per cubic centimeter and it is used in the roof and the engine hood. t Polycarbonate - This is a material of many uses in its varied characteristica (which include even a transparent type). It has a specific weight of 1.2 grams per cubic centimeter and has the highest specific breakage ratio, namely the pressure it can 10 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6 FOR OFFICIAL USE ONLS' resist in relation to the weight of the ~aterial used. This value is of 50 for polycarbonate but only 38 for aluminum. It makes sense therefore that it be used for both the front and rear bumpers, for the front end of the car, for the trunk floor, the inside p~nles and for the rear lining. ~ Modified Polyoxiphenylene - It has median characteristics and as such it is used for the dashboard, whose position requires first of all a pleasant appearance. Its _ features of resistance to pressures and temperature changes are amply sufficient for ~ this task. � Elevate~ Molecular Weight Palyethylene - This is one of the better known plastic materials, one that is readily identified simply as plastic due to its use in the manufacture of containers. [~1ith regard to the VSS, it is used in the fu:el tank due to its not being affected by those chemicals present in gasoline. It has an enormous breakage ration: over 600 per cent versus 100 per cent of the next closest material {Polycarbonate) and versus only 40 per cent for steel. This results in greater security. ~ y'l~~?~b.:~~:' ~ ~ Y � ~ . ~ I C O' . ~ . ~ 1 . I , , a. J ~ IA~~~ /I 1~ l i ' / ~ ~ i w. ~ : M ~~.4.. ~ i G G \ ~ f - .~�i. ~ ~ _ ~ . , ~ : . J V ' ' . ~ ~ . ~ ~ Beginning with the main body structure of FIAT's model "VSS," it is possible to _ make various body styles (left); the metal framework and the uses for the new above- mentioned plastic materials can be noted (right). COPYRIGHT: 1981 Editrice LA STAMPA 9209 CSO: 3102/17 END 11 FOR OFFICIAL USE ONLY APPROVED FOR RELEASE: 2007/02/09: CIA-RDP82-00850R000400070022-6