Jet interaction effects on a hypersonic interceptor

Claus, Malcolm

January 2001

A series of experiments were undertaken at the Defence Evaluation Research Agency (DERA) Farnborough, within the Aero Physics group into the phenomenon called Jet Interaction (JI). Jet Interaction (JI) is produced by the interaction of a jet with the external flow around a vehicle. This study focused on investigating the effects of a divert thruster employed to provide a vehicle with a rapid divert capability on the external flow-field and on the induced forces and moments exerted on the vehicle by the jet. The research was based on studying the effects on a hypersonic interceptor sometimes referred to as a KKV (Kinetic Kill Vehicle). There are many important parameters in JI. One of these is the jet Amplification Factor (AF). This is caused by the deflection of the free-stream around and over the jet and results in a pressure increase on the vehicle surface which adds to the divert thrust force. The experiments were carried out in the intermittent hypersonic gun tunnel, at a free-steam Mach number of 12.1. This produced a Reynolds number (based on diameter) Red of 300,000 with a one-tenth scale vehicle; these conditions correspond to a full-scale vehicle flying at an altitude of 41 km. To simulate the divertthruster, nitrogen was supplied to the model through a purpose-made force balance. Measured forces ineluded normal, axial and side as well as pitch and yawing moments. The experimental results have been compared with that of a full size vehicle featuring a 2kN divert thruster. The results have then been matched to the effective altitude as a function of the thrust coefficient (Cr). This allows the experimental data to be interpreted for a full-scale vehicle in order to answer design questions important to system engineers. The results from this investigation show that the effectiveness of a divert jet is influenced by the vehicle's altitude, achieving a negligible increase in AF with a Cr > 2.5 at an altitude > 50 km. The seeker will suffer from jet induced problems at low Cr levels for a. = 10°. An increase in Cr causes the separation region in front of the jet to extend to the nose of the tested configuration for M1 = 12.1 while complete separation is achieved at Cr > 1.2. Injection Mach number (MJ) has a small influence on AF. However it does not influence the separation region. Penetration height (h) of the jet is increased for higher Mach number injection. Both AF and the separation region are influenced by nozzle geometry. A series of different nozzle geometries were tested. These had the effect of reducing the measured amplification factor to a maximum of 1, except for the dual circular orifice combination, which doubled the measured AF achieved for a single circular orifice. The influence of nozzle geometry reduced the Cr levels required to produce a negligible increase in AF and the corresponding altitude. The angle of attack (œ) has a strong influence on AF at low Cr levels, however it becomes negligible when complete separation is achieved.

629.1323

The fountain flow effects created by a pair of impinging gas jets

Hope, Lancelot John

January 1993

A comprehensive experimental study of fountain flow has been completed. The study was concerned with the characteristics and effects of the flow domain below an idealised small-scale model of the underside of the fuselage of a vertical take-off or landing aircraft with a pair of matched jets. The fountain flow was generated by the normal impact of the jets with a ground board and it in turn impacted with a rectangular blocking tray representing the undersurface of a fuselage. A range of test programmes were carried out. After having examined the fountain flow pressure field and conducted simple flow visualisation tests, a series of tests were undertaken on a range of blocking trays to determine the magnitude and variation of the normal forces on the trays due to the effect of impinging fountain flows. A few tray force tests were carried out with a heated compressed air supply to the jets' nozzles. Following these tests, programmes of pressure distribution tests were carried out on a 'long' tray and on a 'short' tray. Temperature distribution tests were conducted on a long tray, these tests were exploratory only and could form the basis for future experimental studies. The test facility was appraised for jets flowing at high subsonic velocities and found to be suitable but no further tests were undertaken. Finally use was made of computational fluid dynamics (CFD) theoretically to solve the governing Navier-Stokes fluid flow equations for domains which simulated the experimental studies just completed and analysed. The analyses of the data obtained from the test programmes revealed that fountain flow caused towards 20% of jet lift augmentation at maximum with good correlation between direct tray force measurements and integrated tray pressure measurements. A useful plot of the variation of tray force against tray height was obtained from moving ground board tests but the velocity of vertical movement of the board towards the nozzles and tray was found not to make a significant difference for the given range of velocities. The plot displayed a distinct peak when the gap between the tray and the ground board was about 2% jet nozzle diameters. At smaller gaps the tray force fell steeply to a suckdown value approaching 20% of jet lift reduction. A reasoned explanation of this phenomenon is presented. The tray force tests using hot jets indicated that slightly lower tray forces occurred than for jets at ambient temperature, everything else being equal. For the general configuration of the model it was concluded that hot gas tests were not necessary as tests at room temperature gave more useful results for design purposes. The CFD computations were particularly effective in obtaining a qualitative impression of the flow patterns in the blocked fountain flow domain. A useful insight was also gained into entrainment into the domain. The tray force computaions were less satisfactory, however, resulting in underestimations of about 30% although the general pattern of pressure distributions across and along the tray were quite similar experimentally determined patterns. Overall it was concluded that the use of small scale model tests had been shown to be effective for certain design purposes for full-scale aircraft and that a dual approach using CFD and model tests could be more rewarding than either the one or the other technique in isolation.

629.1323

Checklista för projektledaren vid ROT-arbete av verksamhetslokal : En sammanfattning av risker och åtgärder

Norling, Ola, Wikström, Therese

January 2006

Problemet vid ROT-arbete är att många delar av upprustningen kan orsaka tidsfördröjning, vilket är extra känsligt för projekt under stor tidspress. Om det handlar om att återställa en byggnad som inhyser en verksamhet, så arbetas det mot en mycket större tidspress än vid återställande av bostadshus. Förseningar är något som man varken har tid eller råd med. Det gäller att få igång verksamheten så fort som möjligt, dels för att inte ägarna ska förlora inkomst och dels för att försäkringsbolaget vill betala ut rätt försäkringspengar. Examensarbetet visar de viktigaste momenten i både teori och praktik. Det har gjorts en litteraturstudie inom ämnet för att få en bred kunskapsbas. En intervju har också genomförts med en i dag erfaren projektledare, som pekat på de viktigaste arbetsuppgifterna för en projektledare i ett ROT-projekt. Syftet är att finna de faktorer som kan försena ett ROT-projekt och precisera dessa i en checklista för att projektledaren ska kunna upprätta en säkrare tidsplanering. Det är viktigt att projektledaren, trots det pressade tidsschemat, genomför riskhanteringsmetoden vid ROT-arbeten. En planerare som för första gången ska analysera risker med ett ROT-arbete bör gå efter riskhanteringsmallen för att undvika att förbise viktiga riskmoment och hanteringsmetoder. Vissa av projektledarens viktiga åtaganden beskrivs inte i teorin, vilket gör det svårt för en projektledare utan tidigare erfarenhet från yrket. Därför är denna studie användbar, då den belyser både teori och praktik.

Byggproduktion

Building manufacturing engineering

Byggproduktionsteknik

Effects of delamination failure in crashworthiness of laminated composite box structures

Ghasemnejad, Hessammaddin

January 2009

The brittle nature of the most of fibre reinforced polymer (FRP) composites causes they show high capability in absorbing the impact energy in vehicular structures. This energy absorption is introduced by various fracture mechanisms. In this regard, the fracture study is one of the most important areas to be considered in investigating the energy absorption capability of composite box structures. Various fracture mechanisms such as fibre breakage and buckling, matrix cracking and crushing, debonding at the fibre-matrix interface and especially plies delamination play important roles in progressive failure mode and energy absorption of composite tubes. Delamination occurs as results of shear and tensile separation between fronds. The main objective of this research is to study the effects of interlaminar fracture toughness on the progressive energy absorption of composite structures under quasi-static loading. In this regard, Mode-I, Mode-II and mixed-Mode I/II interlaminar fracture toughness of various types of FRP composites with various laminate designs are studied experimentally to investigate the relationship between interlaminar crack propagation and the energy absorption capability and crushing modes of composite structural elements. The combination of brittle fracture, lamina bending, local buckling and transverse shearing crushing modes was found from experimental studies. New analytical solutions based on friction, bending and fracture mechanisms were proposed to predict the mean crushing force for each of these failure modes. The crushing process of composite boxes was also simulated by finite element software LS-DYNA and the results were verified with the relevant experimental and analytical results.

620

Utveckling av universaladapter för torkblad i samarbete med European Automotive Supplier AB

Eklund, Peter, Haugthon, Johan

January 2007

<p>This report looks at the possibility of designing a universal adapter for Flat Blade windshield wipers in cooperation with European Automotive Supplier AB.</p><p>To understand and see if this is possible, a research and an extensive patent search where done. Then to add structure to the project a Ganttschematic were developed. To generate good and solid ideas, different methods for product development were looked upon.</p><p>When a method was chosen and applied, a series of concepts emerged. Now the focus was to design and construct all the pieces. The desired manufacture procedures were looked upon as well as materials. Lot of time where spent on designing a lock mechanism to meet the demands European Automotive Supplier AB hade given. To choose the right concept the team used a set of selection matrix for the different ideas.</p><p>After the choices were made, different prototypes were made of the concepts. Then they were tested, and improvement on them was done to make the end product better.</p>

Mechanical manufacturing engineering

Mekanisk tillverkningsteknik

Automated camera/laser-based pipe inspection

Duran, Olga

January 2004

No description available.

621.8672

Development of outsourcing decision models for small and medium sized manufacturing companies

Adnan, Adnan

January 2011

Global markets are continuously developing and becoming extremely competitive. The manufacturing organisations are improving their capabilities and responsiveness to satisfy their customer demands. Due to this dynamic change, most of the developed countries, particularly the United Kingdom, Europe and the United States have witnessed a sharp increase in outsourcing. A literature search revealed weakness in outsourcing, due to the lack of suitable decision models and frameworks. However, limited research has been carried out in the area of outsourcing of manufacturing in small and medium sized companies. The main aims of this research are formulating appropriate decision models for small and medium sized companies; in particular, those that have been outsourcing, or planning to outsource, their manufacturing activities. The outsourcer's criteria for outsourcee selection for small and medium sized manufacturing companies are chosen after analysing the data obtained through the literature survey, questionnaire survey and personal interviews. Next, a model is formulated for numerical evaluation of outsourcer's criteria for outsourcee selection. Then, a second model for outsourcee (supplier) selection is formulated. The model comprises analytical hierarchy process, cluster analysis and criteria scoring of outsourcee. In the selection process of the most appropriate outsourcee, three elements has to be considered; the previously defined i) vector of important criteria resulted from the information analysis of literature survey, questionnaire and interviews, ii) the specific criteria ranking scoring identified by a particular outsourcer company and iii) the fulfilment of both general criteria (business / market) and specific criteria (outsourcer company) by the potential outsourcees. The outsourcee that achieves the highest total score based on the priority weights of each criterionand sub-criterion in the model may be considered the most suitable. The numerical results of the second model are compared against the empirical outcome of a test case is satisfactory. The developed method is consistent, faster and objective. A further model for drawing up and implementing a manufacturing level agreement was formulated, based on the information collected through the literature survey, questionnaire survey and interviews. The above models were presented to the managers of the companies and are found to be useful according to the feedback provided by them. They will be using the models in stages, subject to the resource availability.

338.0068

Designing of the adaptive cruise control system-switching controller

Shakouri, Payman

January 2012

Over the recent years, a considerable growth in the number of vehicles on the roads has been observed. This increases importance of vehicle safety and of minimization of fuel consumption, subsequently prompting manufacturers of cars to equip their products, with more advanced features such as Adaptive Cruise Control (ACC) and Collision Avoidance and Collision Warning System (CWS). In this thesis we concentrate on new methods for ACC. This work will include: Design of the simulation models suitable for this application, Investigation and design of suitable hybrid control algorithm by using classical and advanced control algorithm's consisting of the gain scheduling PI and Linear Quadratic (LQ) controllers, Design of the Nonlinear Model Predictive Control (NMPC) and the nonlinear Balance-Based Adaptive Control (B-BAC), Real-time implementation and tests of the algorithms by using NI Lab View Starter Kit Robot from National Instruments, Implementation and tests of the models and the controllers in MA TLAB/Simulink(R). The applications of the different control methods in the ACC are tested and compared against different traffic scenarios considering both velocity tracking (CC) and distance tracking (ACC) modes. Judging about the performance of ACC by utilizing the two advanced control methods; B-BAC and NMPC includes trade-offs between tracking-distance and velocity and the vehicle acceleration. However, both the B-BAC and the NMPC has demonstrated significantly smoother responses in controlling the throttle and the brake compared to PI control and linear MPC which in tum could improve the vehicle acceleration and fuel efficiency. The methods in order of producing better performance in terms of the values of control errors and their influences on fuel saving; NMPC, B-BAC, linear MPC and PI control. Improvement of fuel efficiency is investigated in this thesis through two approaches; first, by calculating the optimal control actions corresponding to the throttle and the brake signals through utilising the advanced control methods, second, by reducing the engine speed to idle speed during coast phase of the vehicle which causes the engine friction to be reduced. The engine speed can be reduced through transition between locked and unlocked states of the torque convertor. Possibility of achieving fuel efficiency through coasting in the vehicle has been investigated in the simulation and it has been demonstrated that longer coasting duration could be achieved i.e. more distance can be covered, and the fuel efficiency could be improved.

629.28304

Computer controlled inspection for operation of plastic molding machine

Costello, John T., Dorf, Roger A.

January 1970

Thesis (M.E.)--Boston University / PLEASE NOTE: Boston University Libraries did not receive an Authorization To Manage form for this thesis or dissertation. It is therefore not openly accessible, though it may be available by request. If you are the author or principal advisor of this work and would like to request open access for it, please contact us at open-help@bu.edu. Thank you. / This report involves the overall design of a closed loop computer control plastic injection molding system and detailed design of the inspection portion of the system for a specific part. This project is concentrated on the inspection portion of the system. A part and its print specifications were provided. Design requirements called for 100% inspection of the critical part dimensions which were most subject to change. The main system constraints influencing the design were inspection accuracy and speed. The system also had to be designed using available hardware. A gaging system was designed to be used in conjunction with a Digital Equipment Corporation (DEC) PDP-8/I computer to inspect plastic parts produced by an Allrounder 100 injection molding machine. The design of a gage system that allows fast and automatic checking of the part requires sensitive instruments. Linear transducers were used in order that fast checking would be accomplished and allow the gage to be paced with the plastic molding machine. After the checking fixture design was completed and components ordered, a work station design was made in order to fully utilize the check fixture. Two designs were completed with one under an inspector's control and the other completely mechanized for future hookup with a computer controlled robot. A computer program was written to accept voltage signals from the transducers, convert them to part deviations, compare them to specified tolerances, and make an accept/reject decision on each part. The design is limited to one specific part, but that does not decrease the importance of the project because the parameters worked with are measured in all parts. The checking method may vary somewhat for different parts, but the basic concept will not change. The design phase is complete. It was planned that the building of the system should be completed in two successive phases and a third phase used for a critical evaluation of the system. In phase 1 the system should be completed, the computer software developed and tested, the checking fixture completed and checked out, and the manual work station designed in detail. Phase 2 would involve a balance of the work and decision making between the computer and the operator. The necessary computer hardware and software would be developed and debugged and the work station changed to allow automatic operation, thus saving an inspector's time. The final stage will be an analysis of phases 1 and 2 and possible further extension of the system to other parts so that it is more universal. The analysis will be directed at determining the economic feasibility of the system for industrial applications. / 2031-01-01

Manufacturing engineering

Plastic molding

Automation

Effect of long-term compression on rigid polymer foams

Talal, Sina

January 1999

The sponsors of this project have been using the rigid heavily-crosslinked polyurethane foam detailed in this study for load-bearing applications. One of the main requirements of this material is that it must possess excellent recovery properties following extensive compressive periods over several years. For such long loading regimes, there is need for detailed understanding of the compressive behaviour of this material, and its subsequent recovery upon release. More recently, there has been a growing interest in replacing the polyurethane foam with an alternative cellular plastic that possesses similar, if not identical, compressive recovery and behaviour. Attention was focused on the other primary polymer contingent, a polyethylene foam. A polyimide foam was also considered as it was already being used in applications similar to those of the polyurethane foam. The structures of the foams were investigated by means of Differential Scanning Calorimetry, Scanning Electron Microscopy and Image Analysis. The deformation mechanisms that occur during the application of a compressive force were examined visually via a scanning electron microscope compression rig. The mechanical analysis involved stress-strain testing whereby three stages of compression were identified (‘linear elastic, stress plateau and densification’), as described in the literature. Quadratic relationships were found to exist between the foam density and the ‘elastic modulus, plateau modulus and the compressive strength’ respectively. Such relationships had previously been found to exist in the literature, but not for the rigid variety of foam at such a broad range of densities. Further analysis included a detailed study of the recovery of the polyurethane (100 kg m[sup]-3 to 800 kg m[sup]-3) foams, a lightly-crosslinked polyethylene foam and a non-crosslinked polyimide foam. The foam samples were compressed by strains which spanned their linear elastic and stress plateau regimes i.e. by 2.5% to 35% for periods ranging from 3 days up to one year at ambient temperature. This analysis was also undertaken at elevated temperature as a means of accelerating the ageing process. Recovery of all of the samples was monitored for a minimum of 100 days at ambient temperature following release. Recovery of all of the foams tested was found to occur in two stages; an initial rapid recovery within the first day following release followed by a much slower recovery phase over a period of approximately 100 days. The initial rapid recovery was attributed to the recovery of the bulk polymer whilst the recovery of the cellular structure was associated with the ensuing slower recovery phase. In addition, recovery of the foams was found to be dependent more upon the compressive strain than on other parameters, such as compressive period and foam density. For compressive periods exceeding two weeks, recovery is almost independent of the latter parameters.

668.4