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FİGES INC.

Turkey’s pioneering engineering company FİGES Inc., was founded by Dr. Tarik Ogut in 1990 with the mission of introducing, teaching and spreading the use of simulation based advanced engineering techniques across Turkey. Since its foundation, besides distributing and providing training and technical support of the world’s leading engineering software, ANSYS and MATLAB, it has been providing advanced engineering services in both national and international arena.

FİGES, as an advanced engineering company, provides simulation based mechanical design and test services for the R&D projects carried out in a variety of industrial sectors, including aerospace, defense and maritime, being the key sectors that drive Turkey’s development, as well as automotive, medical, power generation, white goods and rail systems. Over the past few years, it has also started delivering turn-key projects by taking further responsibility for prototyping and testing the systems, it has designed for its customers.

In all projects that FİGES participates, it aims to grow by contributing to the national industry and by continuously increasing the level of its competence in proposing avant-garde and efficient solutions. FİGES supports national and international engineering projects with its competent workforce, entrepreneurial spirit and experienced perspective. Since 2014, FİGES has initiated its own design and development projects for critical systems, sub-systems and products that are usually exported from foreign countries. In 2017, FİGES has started the mass production at its new Technology Center.

MECHANICAL DESIGN AND PRODUCT DEVELOPMENT

FİGES INC.PRODUCTS

STRUCTURAL MECHANICS AND ACOUSTICS DEPARTMENT

MILITARY ELECTRONICS AND TEST SYSTEMS

ELECTROMAGNETICS DESIGN ANDANALYSIS

FLUID MECHANICS ANDTHERMODYNAMICS

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CONTROL DESIGN ANDAUTOMATION TEAM

MATLAB & SIMULINK TEAM

NUCLEAR TECHNOLOGY

BUILD UP ACADEMY

SMART MATERIALS AND SENSOR TECHNOLOGIES

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38

44

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ANSYS MULTIPHYSICS

FİGES INC. PRODUCTS

FİGES Engineering established its R&D Center in 2015 and started engineering, design and development of critical, high technology products to address the needs both in the domestic and international markets. In the beginning of 2017, our 4000 square meter Manufacturing and Technology Center has been established in Ankara Başkent Organized Industrial Zone for commercialization and mass production of these products. Telescopic Mast Systems with a broad range of applications from telecomunication to defense, first indigenously developed Laser Metal Melting Machine with state-of-the-art additive manufacturing technology, Bionic Hand,

a myoelectric controlled, high technology prosthetic hand developed for veterans and patients with special needs are a few examples of products developed and manufacturing in the new establishment. Impedence Tube, an acoustic test system to measure acoustic parameters of materials, such as sound absorption and transmission loss, is another example of products developed in our offices in Uludağ University Technology Development Zone, and offered to clients from different industries and locations. FİGES Engineering will keep investing in innovation that will bring high technology products to life.

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FİGES TELESCOPIC ELECTRO-MECHANICAL MAST

FİGES SMART PROSTHESES BIONIC HAND

FİGES ADDITIVE MANUFACTURING SYSTEMS METAL MELTING 3D PRINTER

FİGES ACOUSTIC TEST SYSTEM IMPEDENCE TUBES

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MECHANICAL DESIGN AND PRODUCT DEVELOPMENT

FİGES Mechanical Design and Product Development Department has provided demand of the requiring design and product development by the companies especially the defence industry on the basis of system and sub-system by using the advanced engineering methods with the experienced engineer staff in their fields. The designs of the developed systems and sub-systems have been produced properly in accordance with military and civil standards and the prototype, preliminary production and mass production have been supplied at the same time by the company.

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VEHICLE AND SHELTER INTEGRATION

• Military and civil vehicle, military shelter integration and modernization projects

• Mechanical design and structural analysis• Structural reinforcements • Crew room design according to ergonomic standards • Integration of mast, searching and surveillance systems, radar

and antennas and other electronic equipment• Integration of energy and power systems• Vehicle superstructure projects (Crane, platform baggage ext.)• Documentation of TUVTURK and TSE standards

MECHANICAL DESIGN AND PRODUCT DEVELOPMENT SERVICE AREAS

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The systems were developed for levelling of the platforms which have duty for surveillance, tracking, attacking and positioning precisely, for especially military applications. They are used for most of military and civil operations, mobile vehicle, 4x4, 6x6 and 8x8 vehicle platforms, trailers. The systems are stabile enough to not affect from land vibration.

PLATFORM LEVELLING AND AUTOMATED LEVELLING PROJECTS

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FİGES MAST SYSTEMS

Design Validation and Verification;• Structural Analysis• Kinematic Analysis• CFD Analysis• Mathematical Modelling and System Simulation• Functional Tests (Life cycle tests)• Environmental Condition Tests

FİGES Mast Systems are developed by advance engineering tools so they can elevate heavy payloads safely and precisely, high modulus carbon composite materials are used, light weight, high stability, few maintenance requirements, appropriate to military standards (MIL-STD-810 G)

Electronic software and hardware development work, including all Engineering processes are carried out by FİGES engineers.

Also, they are designed for sloping land, high wind loads, to be able to work in challenging environmental conditions.

MECHANICAL DESIGN AND PRODUCT DEVELOPMENT SERVICE AREAS

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Experienced Areas:

• Radar Platforms• Weapons Stations• Test Systems• Military and Electronic Casing

(Accordance to shock and vibration level)

FİGES carries out design of production and assembly fixtures, molds and apparatuses which are used in aviation industry and require special design ability.

Experienced Areas:

• System Engineering on Electro-Optic Projects

• Opto-mechanic Design and Tolerance Analysis

• Precise Manufacturing • Assembly and Integration• Supervisor Services for Test

Procedures for Optic Devices

LAND, AIR AND NAVAL PLATFORMS

ELECTRO-OPTIC SYSTEMS OPTO-MECHANICAL DESIGN

AVIATION INDUSTRY FIXTURES, MOLD AND APARATUS DESIGNS

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STRUCTURAL MECHANICS AND ACOUSTICS DEPARTMENT

FİGES Structural Mechanics and Acoustics Department, provides computer aided engineering (CAE) services to our clients for over quarter of a century, in helping them improve the design to better meet the structural and acoustics requirements of the product.

Our experts use state-of-the-art simulation tools to perform static and dynamic analyses, vibration and acoustic calculations and heat transfer analysis to optimize the design under environmental, operational and occasional (extreme) load scenarios. The design recommendations offered provide strong, durable, light, quiet, economical designs that meet or exceed the structural performance requirements.

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Investigation of vibration characteristics of systems operating under dynamic loads is of vital importance in many applications. By means of the finite element method, the critical natural frequencies of structures and related mode shapes can be determined and thus resonance states can be prevented. Stress and durability evluations are performed under harmonic or random loads. For many years, FİGES has been providing engineering services in the fields of vibration analysis and design, primarily for the defense and automotive industries.

VIBRATION ANALYSIS

Structural evaluations are performed under environmental (gravity, wind, earthquake, etc.) and operational loads using finite element analysis. The evaluations show deformation, stresses and strains under the applied loads and guide the design for more durable structures and products without any loss of functionality. Our analysts provide expertise on any design modification necessary to increase the structural performance and meet the requirements.

STRESS ANALYSIS

Our multidisiplinary team of experts on Naval and Marine Applications provide 3D global - local strength analyses, under water explosion analyses, ship collision analyses, vibration and forced vibration analyses (with or w/o damping - wetted or dry), buckling analyses, vibroacoustic analyses (on board noise and underwater radiation), equipment shock analyses, fatigue analyses, composite hull modeling for both defense and civil applications.

NAVAL AND MARINE ENGINEERING

STRUCTURAL MECHANICS AND ACOUSTICS DEPARTMENT SERVICE AREAS

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Dynamic behavior of kinematic mechanisms under operating conditions can be determined through flexible or rigid body dynamics simulations. Our engineers perform multi-body dynamic analysis to investigate the kinematic (displacement, velocity, etc.) and elastic (stress, deformation, etc.) behavior of the mechanism and components. Our engineers provide valuable system parameters such as power requirements, friction losses and joint specifications to improve the overall performance of the mechanism.

Our team of experts provide state-of-the-art design methodologies including target-driven parametric and topology optimization, correlation of the design parameters, sensitivity analysis, extraction of response functions and conduction of six sigma analyses. This helps our clients achieve designs that are economical, light, durable and most importantly robust.

As additive manufacturing technology has started to replace the conventional manufacturing technologies, our engineers have also adopted design methodologies, such as topology optimization, to help our clients design their parts suitable for additive manufacturing.

TOPOLOGY AND PARAMETRIC OPTIMIZATION

Prediction of noise generation and sound propagation is important in the product design stage. Noise emitted from vibrating panels, transmission loss of silencers, acoustic performance of piezo-electric devices and similar acoustic problems can be solved numerically and analytically for applications in defense, aerospace, aviation, automotive and construction industries. FİGES acoustics team also provides acoustic measurement and design services.

ACOUSTIC ANALYSIS

MULTI BODY DYNAMICS

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Material flow in forging processes can be simulated quite accurately when the temperature, strain rate and strain sensitive flow curve of materials are processed with the help of a 3D, forging specific complex nonlinear simulation tool. Such simulations can easily yield crucial results like fold development, press load, die fill and die stress which can then be used to help our clients reduce costs which are otherwise almost impossible to prevent by any other means in forging industry.

METAL FORMING SIMULATIONS

Estimation of the fatigue life of parts or a product under cyclic loads is crucial especially for safety critical designs in aerospace, defense, automotive and energy industries. Development of new analysis technologies allows finite element analysis to accurately predict the fatigue life of parts. Our engineers use state-of-the-art methods and tools to identify potential crack initiation regions, hot spot stress regions, fatigue life of the assembly and design changes necessary to improve the overall life of the structure or product.

FATIGUECALCULATIONS

Structures are occasionally subjected to impactive loads during their lifetime. Falling from a high distance, shock loads during transportation, crashing into other objects especially for automotive and aerospace structures, bullet impact for defense structures are only a few examples.

Our engineers use explicit structural analysis methods to evaluate the design and selection of materials under such scenarios and help our clients improve the performance of their designs.

CRASH, DROP AND SHOCK ANALYSES

STRUCTURAL MECHANICS AND ACOUSTICS DEPARTMENT SERVICE AREAS

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Structural components might unexpectedly fail during assembly, construction or operation. In some circumstances, the failure might trigger other systems or components to fail, causing an accident at a greater scale. As a third party expert or as owner’s engineer, our engineering team helps our clients identify the root cause of such failure or accidents by performing site investigations and structural simulations of the possible accident scenarios using the information collected at the site. Our experts also offer evaluation of the structural and non-structural components after the failure to identify which components can be used as is without any loss of product lifetime or functionality and propose repair methods for parts showing extensive damage.

Mechanical behavior of structural materials might show quite a variation under different type of loads or temperature. Selection of the appropriate material model and identification of material parameters for that model might require rigorous testing. As the partner of datapointlabs based in the U.S., FİGES helps its clients with the material tests required for the characterization of material parameters.

Our engineering team also has extensive experience in using complex material models for the structural analysis of assemblies involving metals, rubbers, plastics as well as carbon fiber composites critical for aerospace and automotive structures.

MATERIAL MODELING AND CHARACTERIZATION

Blast analysis performed by our team includes estimation of blast loading and behavior of structural and non-structural components under such loads, assessment of damage to structural components, determination of safe stand-off distance from the source, particle effects due to fragmentation.

Especially, evaluation of protection levels of military land vehicles and ships against mine blast, whether in land or under water, is critical. Our engineers guide our clients in achieving the required protection levels by offering expertise on selection of materials and appropriate structural design.

BLAST ANALYSIS

FORENSIC ENGINEERING

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FLUID MECHANICS ANDTHERMODYNAMICS

FİGES Fluid Mechanics and Thermodynamics Department; combines his competency in the engineering disciplines of Computational Fluid Dynamics (CFD) and thermodynamics to provide technical computation and simulation based consultancy and engineering project services for a wide variaty of industrial applications including aerospace and defense, construction, power generation, turbomachinery, automotive, chemical and material processing and white goods. Considering the real-world engineering requirements and constraints, it offers the right engineering approach and the best and the fastest solutions.

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Aerodynamic forces acting on bodies that are immersed in fluid can be determined via CFD simulations. Aerodynamic coefficients such as drag and lift, along with various moments can be calculated for aerodynamic characterization of the bodies in question. Besides, CFD simulations enable aerodynamic design exploration and optimization of numerous systems such as aircrafts, land vehicles, wind turbines, high rise buildings, etc. It can also be used for simulation of wind tunnels tests.

AERODYNAMICANALYSES

Similar to aerodynamic calculations, it is possible to determine hydrodynamic characteristics of bodies immersed in water or floating on its surface. Hydrodynamic design and optimization of marine systems and water machines such as propellers, pumps, hydro-turbines, etc. is also possible. Advanced topics, like hydroacoustics, can also be investigated via CFD simulations.

HYDRODYNAMICANALYSES

CFD simulations, together with other turbo design tools, are intensively used in aero/hydrodynamic design and optimization of turbomachinery components; spanning from determination of the general dimensions to detailed design of 3D blade shapes and other parts such as volute, diffuser and vanes. Key performance indicators, like total pressure ratio and isentropic efficiency along the entire speed line along with further detailed information on blade loading, secondary flows, rotor-stator interaction effects, large unsteady separations or shock locations, like in transonic compressors, can be accurately estimated.

TURBOMACHINERY DESIGN AND ANALYSES

FLUID MECHANICS AND THERMODYNAMICS SERVICE AREAS

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It is possible to design and analyze products that deal with chemically reacting flows even with complex dynamics such as spray, phase change etc. Examples of such systems are chemical reactors (single or multi-phase), furnaces, burners, internal combustion engines, gas turbines, etc. Effects of various parameters such as, compositions, concentrations and operating conditions, on the performance of such systems can be investigated.

REACTING FLOW ANALYSES

CFD simulations are used to design efficient cooling and heating concepts for all kinds of thermal equipment including heat exchangers and electronic equipment. Evaluation and elaboration of various cooling techniques such as, air or liquid cooling in free or forced convection or high-tech methods such as radiative cooling, heat pipe applications can be done. Thermal feasibility analysis and optimization of flow patterns and heat transfer can be carried out.

THERMAL DESIGN AND ANALYSES

Generation of flow induced noise and its propagation in air or underwater can be investigated via CFD calculations either with the use acoustic analogies or direct simulation. Tonal or broadband noise arising from turbulence and coherent flow structures can be estimated in near-field and far-field. Noise from marine propeller, ship body, ventilation apparatus’ such as vents, ducts or fans are common examples.

HYDRO / AERO-ACOUSTIC ANALYSES

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Free surface flows are flows that involves a liquid and an insoluble gas or two immiscible liquids with a distinct interface in between. Most of the flows in chemical industry, maritime and nature fall into this category. Examples of such flows are mixing, sloshing, spilling, phase change (boiling, etc.), lubrication, etc. In this type of flows, the concern is to predict the form of the free surface which experiences large deformation. CFD simulations can provide detailed information on the dynamic behaviors of the fluids by tracking the phase interface.

Flows that include solid particles or liquid droplets fall in to this category and take place in wide variety of industrial applications. Design of systems that deal with particulate flows requires detailed understanding of the complex interaction between the phases. CFD simulations, providing valuable insight into this phenomena, allows optimization of the operational conditions for such systems. Examples of such systems are gas-liquid flows in evaporators and condensers, gas-liquid-solid flows in chemical reactors, solid-gas flows in pneumatic conveying, etc.

PARTICULATE FLOW ANALYSES

Flows around rigid bodies with prescribed or arbitrary motions (up to 6 DOF) can be simulated and the interaction effects between the body and the fluid can be predicted for aero/hydrodynamic characterization. Numerous examples of such applications are available in maritime (ship movement, etc.), aerospace (store separation, etc.) and in industrial facilities (valve opening/closing, etc.). With the detailed information obtained from calculations; such as flow and pressure field and forces acting on the rigid body, it is possible to optimize the shape of the rigid body or the operating conditions for the best efficiency. With Fluid-Structure Interaction (FSI) simulations, even the behavior of elastic/deformable bodies in contact with a flowing media can be determined.

DYNAMIC SYSTEM ANALYSES

FREE SURFACE FLOW ANALYSES

FLUID MECHANICS AND THERMODYNAMICS SERVICE AREAS

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Non-Newtonian fluids, such as melted polymers, glass and metals exhibit different rheological properties than other fluids such as gases and common liquids. Manufacturing processes such as, extrusion, thermoforming, blow molding, glass forming, fiber drawing, concrete shaping can be simulated with special CFD tools. Proper simulation of the manufacturing processes leads to high quality, low-cost end-products, which is crucial in industries where mass production is practiced; consumer products, white goods etc.

CFD simulations allow design of forced and natural ventilation systems for buildings, rooms, data centers, parking garages, tunnels and underground mines. Specifically, thermal comfort level, air-exchange rate and quality, dispersion of heat and evacuation of gases in case of a fire or toxic containment, etc. can all be assessed through simulations. The results can be used in feasibility analyses and safety analyses of potential incident/accident scenarios.

INDOOR VENTILATION ANALYSES

MATERIAL PROCESSING ANALYSES

Urban wind flows; exterior flows around big structures such as buildings and industrial facilities, can be simulated via CFD techniques. Simulations make it possible to determine the effects of the flow on the structures (e.g. wind load analysis, etc.), to assess comfort level (e.g. wind comfort analysis) or to perform safety analysis of potential incident/accident scenarios. It can be used for early-stage conceptual analysis of structures.

URBAN WIND FLOW ANALYSES

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ELECTROMAGNETICS DESIGN ANDANALYSIS

FİGES Electromagnetics Design and Analysis Department provides consultancy services based on computer-based analysis and optimization to the customers from almost all industries such as aerodefence, aerospace, consumer electronics, automotive, maritime and biomedical industries. Radiation, scattering and propagation problems, antenna and antenna co-site analysis, radar cross section and radome analysis, RF/Telecom. circuit/system simulations, electromechanics analysis of electrical machines and transformators etc. and power electronics and system modelling are some examples of our application areas.

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All kind of subsystems of RF/Telecom systems such as receiver-transmitter circuits, power dividers, directional couplers, LNAs, mixers etc. can be simulated in terms of circuit and system level. Also system-level EMI analysis can be performed in order to determine the problems and observe the effectiveness of measures taken.

Inverters, converters, rectifiers, amplifiers and control circuits including ideal and non-ideal components can be designed, optimized and simulated in a system manner together with other models analyzed using solvers from different disciplines such as electromagnetics, mechanics, thermodynamics., fluid dynamics and acoustics etc.

POWER ELECTRONİCS AND SYSTEM MODELLING

High fidelity advanced solvers are used to provide consultancies based on 3-d full-wave electromagnetics analysis. Radiation, scattering and propagation problems, antenna co-site analysis, radar cross section analysis, spread and satellite-communication analysis are main application areas of 3-D full-wave EM analysis.

3-D FULL-WAVE EM ANALYSIS

RF/TELECOM CIRCUIT/ SYSTEM SIMULATIONS

ELECTROMAGNETICS DESIGN AND ANALYSIS SERVICE AREAS

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Electrical, mechanical and electromechanical performance and optimization analysis of electrical machines, transformators, high-voltage electricity components, bus-bara, coil and core components can be performed using magnetics and electrical field calculations together with structural and thermal solvers.

Electromagnetics and electromechanics analysis services are provided to calculate the direct and indirect effects of lightning predefined in civil and military standards.

LIGHTNING ANALYSIS

Power and signal integrity analysis are performed in order to determine the parasitic effects of active-passive components, vias, traces at PCB layers, to observe the faults in terms of power and signal integrity and to take some measures.

POWER AND SIGNAL INTEGRUTY ANALYSIS

ELECTROMECHANICAL SYSTEMS

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MILITARY ELECTRONICS AND TEST SYSTEMS

FİGES Military Electronics and Test Systems Department serves for R&D, design and manufacturing processes requiring high technology and reliable electronics systems mainly used in defense sectors. The unit also designs and manufactures custom test systems by determining technical requirements of our customers in the field of defense, industry, health and consumer electronics. METS is also specialized in ground vehicle systems and theirs sub equipment, developing products and sub systems with the quality defined by military and international standards especially required by power electronics, motion control systems and human-machine interfaces.

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ELECTRONICS SYSTEMS

Military Standard Controller Alternator Test System

TEST SYSTEMS AND ASSEMBLIES

Design and development of Test Systems for Product and Design Verifications, Equipment for Functional and Endurance Tests, Simulation Platforms, Servo-hydraulic Test Equipment, Electro-mechanic Test Systems and Fully Automatic Test Software, effectively used in the processes of R&D, product development and manufacturing requiring the compatibility with international standards.

Serving custom made and turn-key solutions for Data Acquisition Systems, Real-Time Control Hardware, System Integration, Motion Control Hardware and Complete Systems as required by defense sector and industry.

MILITARY ELECTRONICS AND TEST SYSTEMS SERVICE AREAS

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Embedded Software Development Gearbox Test System

SOFTWARE DEVELOPMENT

Solutions and services for design and development of embedded software required by high performance and efficient algorithms.

MEASUREMENT ANDTEST SERVICES

Providing the services for system parameter measurement and custom tests using equipment and tools incorporating cutting-edge technology and international standards.

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SMART MATERIALS AND SENSOR TECHNOLOGIES

The FİGES-SMART Unit aims to create added value for the military and civil area through specific projects in the space, defense, aeronautical, medical, and energy sector.

Having a broad experience in Nanofabrication & Microfabrication processes and material characterization, the unit supports these capabilities with Finite-Element Analyses. FİGES-SMART leverages the current knowledge on smart materials and sensor technologies, in Turkey and Worldwide.

Emerging technologies such as ultra-sensitive biomedical detection and super-resolution imaging have a need for optical devices designed at the micrometer and nanometer scale. Finite-Element Analyses are utilized to engineer the optical properties beyond the diffraction limit of specific microstructures and nanostructures, which support surface electromagnetic waves called surface plasmons.

Internet of Things (IoT), Artificial Intelligence, and Big Data have already brought sensors in our daily lives. Polymeric piezoelectric sensors have been especially preferred for their lightness, flexibility and high sensitivity. Polymeric piezoelectric sensors can be produced by extrusion and spin-coating to be utilized in applications concerning acoustics, wearable electronics, and vibration.

SENSOR DESIGN AND PRODUCTION

NANO-OPTICS DESIGN AND ANALYSIS

SMART MATERIALS AND SENSOR TECHNOLOGIES SERVICE AREAS

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NUCLEAR TECHNOLOGY

In the FİGES-NT Department, thermal hydraulic analysis of nuclear components and design of components are carried out. In this context, the flow characteristics of cooling cycle, stress load on components and system behavior in the post-accident phase are investigated by computational tools using numerical methods.

In the FİGES-NT Department, R&D activities are also carried out especially on the new generation nuclear reactor technologies.

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The developments in the nuclear technology are being followed closely. NT Department is actively involved in the European Union project in the field of the 4th Generation reactor technology and participates in international benchmark studies.

There are many components of the nuclear reactor system. The reactor core, steam generator, main coolant pumps, passive cooling systems and pressurizer are the examples. Detailed analyses of these components are carried out. CFD tools are used in these calculations.

ANALYSIS OF SYSTEM COMPONENTS

GLOBAL COLLABORATIONS

Detailed analyses of the sub-channels of the nuclear reactor core are carried out. The simulations are performed with Computational Fluid Dynamics (CFD) tools and sub-channel analysis codes.

SUB-CHANNEL CALCULATIONS

NUCLEAR TECHNOLOGY SERVICE AREAS

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Conceptual design works are carried out for the nuclear system components. Optimization and simulation tools are used to improve the performance of the systems.

The FİGES-NT Department has the capability to provide technical support for the licensing of nuclear reactors. In this context, CFD tools and System-CFD tools are used at professional level.

The thermal hydraulic cycle of nuclear reactors is analyzed by System-CFD codes. The design basis accidents or beyond design basis event scenarios are handled in this respect.

SYSTEM MODELING

SYSTEM DESIGN

DESIGN VERIFICATION CALCULATIONS

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CONTROL DESIGN ANDAUTOMATION TEAM

FİGES Control Design and Automation Team provides consultancy and turnkey project services in every industrial area; especially health, defense and aerospace.

In addition to these services, our team continues working on industrialization of FİGES Bionic Hand and FİGES Laser Metal Melting Machine products which are developed fully within FİGES. FİGES Control Design and Automation Team consists of leading biomedical, mechanical and mechatronics engineers in a multi-disciplinary fashion.

TURNKEY PROJECTS

PRODUCT DEVELOPMENT

Our team provides turnkey project services from R&D to product development. These services consists of various fields of expertise including but not limited to electronics, software and mechanical design. FİGES Control Design and Automation Team provides solutions for every industrial area with specialised staff and academicians.

FİGES Control Design and Automation Team has succesfully completed developing FİGES Bionic Hand and Laser Metal Melting Machine projects.

CONTROL DESIGN AND AUTOMATION TEAM SERVICE AREAS

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ANSYS MULTIPHYSICS

FİGES has been the distributor of the world’s leading physics based engineering software called ANSYS, alongside many others, meeting the engineering software, demand in Turkey for over a quarter century.

FİGES understands its customers needs and offers the most economic and best solutions specifically tailored for them, with its specialized software sales team that is active all across Turkey and supported by more than 50 application engineers. Providing professional training and technical support, FİGES helps companies by training their engineers and R&D personnel for simulation and mathematical modeling based engineering as well as in adopting this technology and speeding up the in-house R&D activities. FİGES shares the nonproprietary knowledge and the experience gained from its own commerical projects and product development activities with its customers through consultancy and technical support services. This way, it contributes to the advancement of the customers’ compentency in physics based engineering simulations.

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Modeling and software training is provided by the Build Up Academy; a FİGES initiative that offers general or specific trainings tailored according to the customers’ needs. Build Up Academy can also incorporate experts from universities and abroad. More information about the Build Up Academy can be found in the related section.

Software technical support is provided by FİGES application engineers that are specialized in the software, based on the engineering discipline it is about. FİGES application engineers provide either on-site support or remote support by connecting to the customers' computers via the Internet. In case of a need, FİGES incorporates software experts from abroad to solve the customers problems as fast as possible.

Sales activities are managed by the sales team that is specialized in ANSYS products and customer relations. The main motivation of the sales team is to assist the costumers over the course of the procurement by ensuring a fast and smooth procedure spanning from defining the needs to the delivery of the software. Furthermore, with the help of the FİGES application engineers, the sales team evaluates the engineering competency level and the existing hardware installed in customer companies and proposes solution plans that fit the customers needs.

SALES TECHNICAL SUPPORT TRAININGS

ANSYS MULTIPHYSICS SERVICE AREAS

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ANSYS Mechanical Structural Analyses

STRUCTURAL MECHANICS

Autodyn Impact, Shock, Ballistic, Crashworthiness, Blast Analyses

LS-DYNA Impact, Shock, Ballistic, Crashworthiness, Blast Analyses

nCode DesignLife Fatigue Analyses

HFSS 3-D full-wave Electromagnetics Analyses

ELECTROMAGNETICS

Maxwell Electromagnetic Field Simulations

SIWave EMI, Signal and Power Integrity Analyses

Q3D Extractor Parasitic Extraction Analyses

ANSYS CFD Computational Fluid Dynamics Simulations

FLUID DYNAMICS

FENSAP-ICE In-flight Icing Simulations

FORTE Internal Combustion Engine Simulations

Icepak Electronics Cooling Simulations

Polyflow Polymer Processing Simulations

ANSYS optiSLang Parametric Design Optimization

OPTIMIZATION

ANSYS Simplorer Multidomain System Simulations

SYSTEM SIMULATION AND SOFTWARE DEVELOPMENT

ANSYS SCADE Model Based System and Embedded Software Development Platform

GENESIS Topology Optimization

OTHER SOFTWARE

DEFORM Forging Simulations

DYNAFORM Metal Sheet Forming Simulations

Linflow Aeroelastic Application Simulations

MDesign Machine Elements Calculations

Moldex3D Polymer Injection Molding Simulations

Recurdyn Multi-body Dynamics Simulations

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MATLAB & SIMULINK TEAM

As FİGES MATLAB & Simulink Team, we are the sole distributor of MathWorks products in Turkey since 2001.

MATLAB and Simulink are used throughout the automotive, aerospace, communications, electronics, and industrial automation industries as fundamental tools for research and development. They are also used for modeling and simulation in increasingly technical fields, such as financial services and computational biology. MATLAB and Simulink enable the design and development of a wide range of advanced products, including automotive systems, aerospace flight control and avionics, telecommunications and other electronic equipment, industrial machinery, and medical devices. More than 5000 colleges and universities around the world use MATLAB and Simulink for teaching and research in a broad range of technical disciplines.

We have an experienced team that provides sales, training and technical support services to our customers in different industries.

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FİGES Training department also known as Build-up Academy offers professional training programs for students, academics, companies and end users. The content of training programs can be standard or customized according to customers needs. Participants who successfully complete the program are certified by Build-up Academy.

Technical presentations, public or private seminars, on-site technical support are the main services that we structure based on our customers’ demand and feedback. We also offer consultancy from MathWorks-USA Inc when needed.

As FİGES MATLAB & Simulink software sales team, our priority is to provide accurate and fast business solutions with MathWorks’ products. We are one of the best and most trusted software service providers with our MATLAB & Simulink Application Engineering Team.

SOFTWARE SALES

SOFTWARE TECHNICAL SUPPORT

SOFTWARE TRAINING

MATLAB & SIMULINK SERVICE AREAS

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PROJECT AND ENGINEERING SERVICES CONSULTANCY

Consulting Services delivers customized engagements that are sized and scoped to match your business goals. Services range from jumpstarts in which we get your small team up and running, to in-depth projects in which we work across your enterprise in support of a workflow, deployment, or business-critical application.

From Multi-domain physical systems modeling and controller algorithm design to image processing and embedded software technologies, we have been offering turn-key projects and solution based engineering services.

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TRAINING SERVICES

FİGES Training Services Department offer an extensive portfolio of know-how in the area of efficient design and computational simulation technologies which are continuously based on the industrial practice and have unique technological know-how. Our theoretical and software-oriented training modules serve engineers to shorten their product development life cycles and to allocate resources more efficiently. With our extensive co-branded courses we offer intermediate and advanced level of courses with application based know-how to engineers who are willing to invest in themselves in order to gain competitive advantage in their careers. One of the main aspects of our program is to fill the gap between theoretical world and business applications by providing deeper insight of various engineering subtopics. In 2015, ‘Build Up Academy’ is built by FİGES in order to support the need of the qualified human resource demand in engineering fields of industry, competing in global market on engineering services.

Engineers who are interested in focusing on a particular field can find the opportunity to gain depth by tracking the sequence of intermediate and advanced training modules. The main aim of the program is to let engineers use the theoretical knowledge effectively on the business for specific project needs through the applications that can be created with special contents.

This program offers opportunity to have the necessary skills and competencies in terms of employability in R &D centers and knowledge about R &D business processes to meet the needs of qualified engineers of R &D departments. Program focused on creating recruitment competitiveness for Engineering Faculty - third and fourth year students.

www.buildupacademy.com

Certified trainings are available for engineers who are graduated from the Engineering Faculty or who are working in the industry to acquire the opportunity of development in the field of advanced engineering services with modular trainings. Demand specific choices can be made from the training module pool with basic, intermediate, and advanced levels.

ADVANCED ENGINEERING TRAININGS

R & D ENGINEERING PROGRAM

EXPERTISE PROGRAMS

BUILD UP ACADEMY TRAINING SERVICES SERVICE AREAS

Güzeltepe Mahallesi Ahmet Rasim Sokak

No: 16, 06690 Çankaya / Ankara

Malıköy Mahallesi Başkent OSB Başkent Bulvarı No: 80, 06909

Malıköy Sincan / Ankara

0(312) 210 10 20

0(312) 210 00 57

0(312) 504 54 00

0(312) 504 53 40

0(224) 442 85 85

0(224) 442 85 86

0(216) 999 90 30

0(216) 999 90 38

0(232) 435 34 53

0(232) 435 34 80

Teknopark İstanbul Sanayi Mahallesi

Teknopark Bulvarı No: 1 D Blok

No: 5121, 34906 Pendik / İstanbul

Ulutek Teknoloji Geliştirme Bölgesi, Uludağ Üniversitesi Görükle Kampüsü,

16059 Nilüfer / Bursa

Tepekule İş Merkezi Anadolu Caddesi

No: 40 Kat: 5 Daire: 510, 35010 Bayraklı / İzmir

FİGES ANKARA FİGESİSTANBUL

FİGESBURSA

FİGES ANKARABAŞKENT OSB

FİGESİZMİR

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R&D CENTER