THIS LETTER REPORT DESCRIBES THE ACTIVITY ON TASK ORDER NO. J DURING THE PERIOD FROM SEPTEMBER 10 TO OCTOBER 10, 1958.

October 24, 1958 Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 X This letter report describes the activity on Task Order No. J during the period from September 10 to October 10, 1958. During this period, the design of some of the parts in the prototype timer was modified and the fabrication of a prototype unit was started. Before fabrication of the prototype-timer parts was initiated, a production study was made of each part. As a result of this study, it was found that the small 0.010-inch-diameter orifice in the temperature-compensating housing could not be drilled by standard production methods. In order to solve this problem, we made the housing in three pieces and, instead of drilling the 0.010- inch-diameter hole, we drilled a 0.050-inch-diameter hole and in- serted a piece of metal capillary tubing in order to obtain the proper orifice diameter. The capillary tubing used has a 0.010- inch-ID and a 0.050-inch OD. In addition to the above, time was spent in designing the springs for the pressurizing piston. During the coming month, the prototype timer will be com- pleted and evaluation testing of the unit will be started. In CONHHDENT A Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 I'. CON Fl ENT AL October 24, 1958 addition, we shall continue the long-term testing of the laboratory model of the timing mechanism. The total appropriation on this Task Order was $28,550. As of October 1, 1958, the unexpended balance was approximately $2,700. Sincerely, In Duplicate CON FI DENI]AL Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 25X1 EU) It__l?v e-ee. cc c.... rnNFIfFNT1AL September 24, 1958 - u w t 0 c , S. This letter report summarizes the activuty performed under Task Order No. J during the period from August 10 to September 10, 1958. During this period, the effort has been concentrated on the long-term evaluation of the laboratory model of the timing mechanism, and on the design of the prototype timer. The laboratory model of the timing mechanism has been modified for long-term testing, and the first test, of two weeks' duration, has been concluded. The modification of the setup con- sisted of inserting a low-pressure 0 to 5-psi gage and a low-rate spring into the existing equipment. The two-week test was performed under an ambient temperature of 120 F; a second test is being run under the same conditions, to determine the repeatability of the device. The detailed design of the prototype timer is more than 50 per cent completed. This design is essentially the same as that discussed with you during your recent visit. One primary change has been made; a threaded ring around the case that will be used to set the prototype timer has been added. This represents an improvement on the previous design, since it simplifies the setting operation and is less likely to overtravel. CONE DENiI Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 CDNF- ENTIA September 24, 1958 During the next month, we expect to complete the design and fabrication of the prototype timer. In addition, we shall con- tinue the long-term testing of the laboratory model of the timing mechanism. The total appropriation on this Task Order was $28,550. As of September 1, 1958, the unexpended balance was approximately $3,400. Sincerely, ABW:mjc In Duplicate CRONE IDENT IA J n Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 UIJ~ 25X1 August 22, 1958 This letter report summarizes the activity performed under Task Order No. J during the period from July 10 to August 10, 1956. The project effort during this period was concentrated primarily on the short-term evaluation of the laboratory model of the timing mechanism. The short-term evaluation has now been con- cluded, and the results are shown graphically in Figure 1. The laboratory model was operated at three temperatures to obtain the data shown. Each of the three experimental points represents two or more tests at the same temperature. The total variation of flow was ?14 per cent. Since our design objective is ?10 per cent variation, we are not completely satisfied with the results and hope to improve them substantially. However, we believe that the evaluation program thus far has proven the basic components of the design, and, consequently, have now begun the design of a complete prototype timer. In addition, we have prepared a preliminary cost estimate for these timing mechanisms in quantities of 10,000 units and the cost appears to be under $10 each. Since our prototype design has not yet been completed, we have based this cost estimate on the Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 LUNHDENTIAL -2- August 22, 1958 laboratory model. This figure should give a good indication of the final cost, since, as currently contemplated, most of the components needed in the prototype are incorporated in the laboratory model. During the next month, a modified unit with a firing mechanism will be laid out and longer term evaluation experiments with the laboratory model of the timing mechanism will be started. The total appropriation on this Task Order was $28,55O. As of August 1, 19525, the unexpended balance was approximately $4,'700. Sincerely, ABW:mjc In Duplicate cp!EiDENTI4L nn F~ Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 11 1- 111-11-- 11 9_- 01 x isd aad oas aad goui oigno `mold CM, mm mm L O w cr D C9 LL Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 July 15, 1958 Dear Sir: ~ V-25 25X1 This letter report describes the activity performed under Task Order No. J during the period June 12 through July 10, 1958. During this period, the effort has been concentrated on an evaluation of the laboratory timing-mechanism portion of the delay device. The evaluation program which has been set up consists of a series of tests under three different ambient temperatures, -20, 50, and 120 F. For a given temperature, the evaluation procedure is as follows: (1) The timing mechanism is placed in the temperature chamber and rigidly fastened. (2) The timing mechanism is allowed to "soak" in the temperature chamber overnight. (3) The timing-mechanism valve is opened, thus initiating flow of the fluid from the timing mechanism. (4) The fluid flow is measured indirectly by measuring, once every hour, the movement of the spring- loaded piston used to maintain fluid pressure. CONFIDENT IA 21 Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 CONMDENTIAL July 15, 1958 In addition to measuring the piston movement, we also read the temperature and the fluid pressure. This information is used to calculate fluid flow in terms of cubic inches per second per psi of pressure. Flow data in this form are valuable for use in determining the constant-flow characteristics of the timing mechanism, and in addition, in the subsequent design of a complete time-delay device. The results of the tests to date have been'erratic, primarily because of the human element in the test setup. However, the test technique has been worked out and the results now being obtained are consistent. If the present rate of testing is continued, we anticipate completing the short-period tests in about two weeks. Then, if the results of this test program show the basic design of the timing mechanism to be feasible, we expect to begin the design of a complete model of the time-delay device, which will incorporate a time-setting device, a firing-pin release, and a mechanism for compensating for the volume change of the fluid as a result of temperature changes. The total appropriation on this Task Order was $28,550. As of July 1, 1958, the unexpended balance was approximately $6,000. Sincerely. 9BW:mlm In Duplicate CONFIDENTIAL - Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 Development of a Silicon Flind Time-Delay Mechanism Design Objectives: 1. should have high degree of reliability 2. it should be accurate to within +10 per cent of time setting 3. it should retain its accuracy over a temperature range of -20 to +120 F 4. it should have an adjustable time range from 15 minutes to 2 months 5. it should weigh no more than 1/2 pound ~ub 5~- 6. it should not be larger than about 1 inch in diameter and about 4 inches in length Lela-Vic,y so,, 4 I A-AJ 'La A~~%- 19 S 0"',0 A) J-" r, -k-A, '14 t: I LAI A-~, i-Ir44/vIa," C.0 4"G ap , ,A MJ ov~q , 1- , Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  CONFIDENTIAL Development Program determine optimum dimensions for t anperature-compensation device by calculation 2. design experimental laboratory timer mechanism incorporating design features that would be used in the final design. fabricate experimental laboratory timer mechanism. test experimental laboratory timer mechanism. design complete prototype unit incorporating timer and firing pin release. 6. fabricate prototype. 7. test prototype \,\- r- Ur CoIST, TEAAQ MlCgoMETER SC.QEW ,, ,,, Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 r~~ F CONFIDENTIAL June 12, 1958 47~ 25X1 Dear Sir: is now ready for testing. The test equipment is being assembled and will permit the accurate determination of the rate of piston motion in the time-delay unit. Piston travel rather than actual flow was chosen for measurement since piston travel is used to actuate the time-delay device. During the next month, we contemplate conducting the short- term evaluation of the engineering prototype and making any necessary modifications. The remaining time available will be used for long- term testing, final design, and any other experimental work needed to prove out the features of the final design. The total appropriation under this Task Order was $28,550. As of June 1, 1958, the unexpended balance was approximately $7,100. This letter report describes the activity performed under Task Order No. J during the period May 11 through June 11, 1958. During this period, the effort has been concentrated pri- marily on the fabrication of an engineering prototype time-delay unit and suitable equipment for evaluating this prototype. The engineering prototype has been completed and the unit Sincerely, 7 ABW:mjc In Duplicate CONHDENTIA Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 y , coNFIDENTIAL 25X1 May 19, 1958 This letter report describes the activity performed under Task Order No. J during the period March 24 through May 10, 1958. During this research period, development activities have been concentrated in two distinct areas: (1) Calculations of optimum orifice and annulus pro- portions needed to obtain constant liquid flow under varying ambient temperatures. (2) Design of a working model both to prove out the calculations and to check design features for incorporation into a final time-delay design. Considerable effort was devoted to making calculations of fluid flow. These calculations were made in order to arrive at the optimum dimensions for the fluid-flow-control device. On the basis of these calculations, optimum dimensions were determined; in addition, a procedure was developed that permits the extension of these calculations to include increased or decreased sizes and different materials. Theoretically, there are no optimum dimensions for this device. However, as the over-all size of the device is reduced, the necessary tolerances required to maintain constant flow become CONFIDENTIAL q 1~ L.24~~ Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  J ~0C LU I I / UO/ I U L,I/- LJr / O-000'+ /-1000 I UU I UUU I 0-Z7 CON FI NTIAL May 19, 1958 very small. With this fact in mind, the metering device was designed to be as large as possible, and yet compatible with the over-all size requirements of the time-delay unit. The design of a working model of the time-delay unit, as presently developed, is simpler than we had anticipated since it covers the complete range of time settings without there being a need to change components. This design was discussed during your visit of May 8, 1958. Particularly pertinent is the following list of characteristics of interest: Time-Delay-Unit Characteristics Length 5 inches Diameter 1-i/4 inches Time Setting Range 15 minutes to 1,440 hours Theoretical Accuracy ?3.5 per cent. The theoretical accuracy, as mentioned above, includes no allowance for machining and material variations. Since the original accuracy requirement was ?10 per cent, we feel that our chances of achieving this in the current design are very promising. At the present time, we are completing the detail design of this working model and preparing the evaluation equipment. During the next month, we plan to complete the fabrication of the working device and begin to evaluate it. CONFIDENTIAL Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 COPdFIftNTIAL May 19, 1958 The total appropriation under this Task Order was $28,550. As of May 1, 1958, the unexpended balance was approxi- mately $8,900. Sincerely, In Duplicate CONFIE_ __AL Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 CONEIDENTIAI September 20, 1957 This letter report describes the progress of Task Order No. J from August 8 to September 8, 1957. During this period, the leakage rate of the experimental model was measured when the Viscasil was subjected to the maximum design pres- sure. In addition, we calculated the clearance required between the main body and the outer sleeve in order to achieve a reasonable leakage rate, and we obtained data on the force required to rotate the outer sleeve. The size of the thermostat spring needed to exert such a force would be impractical for this application. Since the current design is not en- tirely satisfactory, other types of compensators are being investigated. During August, we measured the leakage rate of the experimental model. When the Viscasil was subjected to the maximum design pressure, the leakage rate was more than twice the flow rate through the port when the clearance between the main body and the outer sleeve was 0.001 inch. This clearance could be reduced to 0.0003 inch, in which case the calcu- lated leakage rate would represent about 5 per cent of the flow rate through the smallest orifice. However, small machining errors would have a pronounced effect; an increase from 0.0003 to 0.0005 inch in the clear- ance would increase the leakage rate to about 20 per cent of the total flow rate. At a temperature of 85 F and with a clearance of 0.001 inch, CONFIDENTIAL ~4 Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642AO00700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 ONFlDENTIAL September 20, 1957 measurements indicated that a force of approximately 0.5 pound was required to turn the outer sleeve at a rate of 0.0023 inch per second. These con- ditions were more severe, but more realistic, than those used in the exper- iments mentioned in the August 13, 1957, report. (The rate indicated in the previous report should have been 1 inch per minute instead of 1 inch per second.) As calculated, the force required to rotate the outer sleeve at -20 F would be about 7 pounds if the clearance was reduced to 0.0003 inch. Calculations show that a thermostat spring 7 inches wide would be needed to exert this force. It appears that this type of temperature com- pensator has serious practical limitations. Since we are not satisfied with the current design, a more prac- tical solution to the problem is being sought. We believe that the design criteria required to meet the specifications have been established., Ideally, the temperature compensator should not move and the ports should not have movable sides. The Bellofram piston seal, described in the May 10, 1957, report, and the adjustable springs which provide the pressure would prob- ably be useful in any pertinent design. One idea, which has not been thoroughly investigated, may have possibilities as indicated by preliminary calculations. This makes use of the leakage as part of the total flow. Most of the material would be ex- truded through a port while the leakage would be controlled by the tempera- ture-compensating orifice formed by the annular space between two concen- tric cylinders of different metals. As mentioned in the August 13, 1957, report, this type of compensator would not be satisfactory by'itself. However, if it were to control only a fraction of the flow, we estimate Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  - - --- -- I -- Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 COl'ffIDENT IAL 3- September 20, 1957 that the error in timing would be only ? 5 per cent over the entire tem- perature range. In addition to this design, we are investigating other, possibilities. In September, we plan to search for other types of temperature compensators and investigate their feasibility. The original appropriation on this Task Order was $18,550. As of September 1, 1957, the unexpended balance was approximately $!,.,7000 Sincerely, ABW:dp In Duplicate CONFIDENTIAL - Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA- RDP78-03642A000700100013-9 UFIDEN August 13, 1957 This letter report describes the progress of Task Order No. J from July 8 to August 8, 1957. During this period, the temperature compensator of the experi- mental unit was evaluated with a thermostat spring installed. The com- pensator did not perform satisfactorily. The forces in the Viscasil film between the outer sleeve and the main body, and ice formation on the two parts (while in a cold chamber) prevented relative movement. Although experiments are continuing on this type of compensator, we have again in- vestigated the use of the annular clearance space between two different metals as a temperature-compensating orifice. This system still appears to be theoretically possible, but with serious practical limitations. The outer sleeve and the main body of the temperature compen- sator were lapped together to obtain a clearance of approximately 0.0003 inch. With a thermostat spring (supplied by W. M. Chase Company) installed, the load developed was not sufficient to rotate the outer sleeve when the temperature was changed by as much as 50 F. The high resistance was cre- ated by the forces in the Viscasil film and by ice formation on the two parts during exposure to the lower temperature of the test range (25 F). Coating the entire main body with Viscasil would probably minimize the effect of the ice formation, but would increase the drag forces. CONFIDENTIAL Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 _ bNFIPENTIAL August 13, 1957 The next step was to measure the force required to rotate the outer sleeve with a 0.0003-inch clearance between it and the main body. At an ambient temperature of 84 F, an 8.5-ounce load could rotate the sleeve at a rate of approximately 1 in./sec. Our present thermostat spring is too weak to exert such a load. Possibly, by coating the main body with Viscasil and by increasing the clearance to 0.001 inch, we could reduce the frictional forces, and consequently utilize to advan- tage a thermostat spring of the same general type as, but slightly stronger than, our present spring. Preliminary calculations show that the leakage under such conditions would be less than 2 per cent of the minimum flow. We are currently modifying the experimental unit to per- mit measuring the actual leakage. Since these two problems (ice formation and machining toler- ances) have become increasingly significant, we again investigated the use of the clearance space formed between two different metals as an ori- fice. It is possible to design a unit from aluminum and steel that would have an error of + 10 per cent (in delay time) when operating over a tem.. perature range of -10 to 109 F. However, in covering the range of time periods for a given orifice length, the ratio of the average pressures (exerted on the Viscasil by the spring) corresponding to the shortest and longest time periods would be approximately 6,000 to 1. So far, we have been unable to devise a satisfactory method for handling such a large pressure variation. In August, we plan to measure the leakage rate from the experi- mental unit when the Viscasil is subjected to the maximum design pressure. CONFIDEPAL K Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  ii. Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 F CONFIDENTIAL 3- August 13, 1957 The diametral clearance will be increased in increments, to permit deter- mining the maximum clearance allowable within the design specifications. In addition, the torque required to rotate the outer sleeve will be deter- mined for the proper clearance, so that a suitable thermostat spring can be selected and evaluated. The original appropriation on this Task Order was $18,550. As of August 1s 1957, the unexpended balance was approximately $5,000. Sincerely, d ABW: dp In Duplicate CONF DENTIA a Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9  Sanitized Copy Approved for Release 2011/08/10: CIA-RDP78-03642A000700100013-9 WNFIDE~VTIAI July 11, 1957 This letter report describes the work done under Task Order No. J 0~ al A C'-'14-'L ~0'k 0-r 'S1