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Aerospace and
Defence
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The aerospace and defence industry represents the pinnacle of technological advancement, driving innovation in aviation, space exploration, and military applications. This sector encompasses a wide range of activities, from designing advanced aircraft and spacecraft to developing sophisticated defence systems. Ansys offers essential tools such as Ansys Mechanical for structural analysis, Ansys Fluent for fluid dynamics and heat transfer, Ansys CFX for computational fluid dynamics of turbomachinery, Ansys HFSS for electromagnetic field simulations of communication equipment, Ansys LS-DYNA for impact and blast simulations, and Ansys Maxwell for electric motor and actuator design. These solutions enable engineers to tackle complex challenges in aerodynamics, structural integrity, thermal management, and communication systems, pushing the boundaries of what is possible in aerospace and defence technology.
- Electric Vehicles
- Vehicle Engineering
- Simulation Solutions
- Simulation Solutions
- ADAS & Autonomous Vehicles
Advanced Military Technology Development
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Structural simulations to predict the component behaviour and ensure durability under extreme loading conditions.
Thermal analysis to assess thermal stresses and prevent overheating of components in various environments.
Electromagnetic analysis of communication and navigation systems to enhance signal clarity and effective performance.
Explicit dynamics to simulate blasts and impacts to improve the design of missile systems.
Component-Level
Capabilities
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Armour and Protective Structures
- Simulate ballistic impacts to enhance armour effectiveness and improve protection.
- Conduct thermal analysis to evaluate the behaviour of armour under extreme temperatures, ensuring effective performance.
Weapon Systems
- Perform structural analysis to evaluate the durability and performance of weapon systems under dynamic forces and operational stress.
- Simulate fluid dynamics to optimize the design of propulsion and exhaust systems, enhancing the performance and efficiency of weapon systems.
Stealth Technology
- Perform radar cross-section (RCS) calculations and predict far-field radar Conduct electromagnetic simulations on radar absorbent materials (RAM) to ensure maximum effectiveness in reducing visibility.
Communication Systems
- Perform signal integrity analysis to optimize data transmission in communication systems and reduce signal noise.
- Conduct electromagnetic compatibility and interference (EMC/EMI) analysis to maintain reliable communication.
Propulsion Systems
- Simulate the thermal behaviour of components to optimize heat dissipation and ensure propulsion system durability under extreme temperatures.
- Perform structural and fatigue analysis to optimize component design for improved performance and long-term reliability.
Relevant Ansys
Software
Easily handle the complexity of varied design environments with a range of analytical tools that enable you to meet performance goals and ensure long-term reliability
Ansys Mechanical
Simulates structural performance, vibration, and fatigue of military vehicles, aircraft, and equipment to ensure durability and reliability under extreme conditions.
Ansys Fluent
Simulates fluid dynamics, heat transfer, and aerodynamic performance of military aircraft, missiles, and UAVs for efficient design.
Ansys HFSS
Models electromagnetic fields for radar systems, antennas, and stealth technology used in military equipment.
Ansys LS-DYNA
Analyzes impact, shock, and blast effects on military vehicles, protective gear, and structural components.
Ansys SCADE
Designs and tests embedded software for avionics and autonomous systems, ensuring compliance with military standards.
Ansys Maxwell
Performs electromagnetic analysis for motors, actuators, and sensors used in advanced weaponry and defence systems.
Ansys Autodyn
Models shock waves, high-speed impacts, and explosions to analyze blast effects on military structures and equipment.
Ansys Chemkin-Pro
Simulates combustion reactions in propulsion systems and weapons development to optimize performance and reduce emissions.
Ansys Discovery
Enables real-time simulations of structural, thermal, and fluid systems for rapid prototyping and optimization of military technologies.
Ansys Q3D Extractor
Computes parasitic electrical parameters such as resistance, inductance, capacitance, and conductance for radar and communication system components, aiding in high-frequency circuit design.
Ansys Medini Analyze
Performs functional safety analysis and ensures compliance with safety standards for mission-critical systems such as avionics and autonomous military vehicles.
Ansys SPEOS
Simulates optical systems to improve visibility, targeting accuracy, and integration of night-vision technologies in military vehicles and equipment.
Ansys GRANTA MI
Provides materials selection and data management to ensure the reliability and sustainability of military hardware.
Ansys ODTK
Provides precise orbit determination and tracking of military satellites, supporting surveillance, communication, and missile warning systems.
Design of Aircraft and Drones
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Aerodynamic simulations to optimize lift and drag for better flight performance and reduced fuel consumption.
Structural analysis to ensure the airframe can withstand operational loads and extreme conditions.
Vibration and fatigue simulations to ensure the long-term reliability of aircraft structures during repeated use.
Thermal and heat transfer analysis to ensure efficient cooling of avionics, engines, and sensitive components.
Electromagnetic analysis to ensure effective and safe operation of electronic systems and prevent interference.
Component-Level
Capabilities
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Wings and Airfoils
- Simulate aerodynamics to optimize lift and drag for enhanced performance and manoeuvrability.
- Analyze structural strength to ensure wings can withstand dynamic loads, during takeoff, flight, and landing.
Fuselage
- Test the structural integrity of the fuselage to ensure durability and safety during all phases of flight.
- Perform thermal analysis on insulation blankets to maintain interior comfort for passengers and crew.
Landing Gear
- Perform explicit dynamics to simulate impacts to ensure the landing gear can withstand heavy forces during landing.
- Analyze wear and tear to ensure long-term reliability and reduce maintenance costs.
Avionics
- Evaluate electromagnetic interference (EMI) to ensure avionics systems function safely without disruption.
- Evaluate embedded software performance to ensure reliability and safety in avionics systems under varying conditions.
Propulsion Systems
- Simulate combustion processes to optimize fuel efficiency and reduce emissions across different operational conditions.
- Perform thermal analysis to manage heat dissipation and thermal stresses, and ensure engine durability under extreme thermal loads.
Relevant Ansys
Software
Easily handle the complexity of varied design environments with a range of analytical tools that enable you to meet performance goals and ensure long-term reliability
Ansys Mechanical
Performs structural analysis on components, ensuring that aircraft and drone structures can withstand operational loads and conditions.
Ansys Fluent
Simulates airflow, heat transfer, and aerodynamics for aircraft and drone design, optimizing fuel efficiency and performance.
Ansys HFSS
Conducts electromagnetic simulations for antenna design, radar, and communication systems used in aircraft and drones.
Ansys LS-DYNA
Simulates complex, dynamic events such as crash, impact, and structural behaviour in aircraft and drone designs, ensuring safety and durability.
Ansys CFX
Analyzes complex fluid dynamics in turbomachinery, engines, and propulsion systems of aircraft and drones.
Ansys SCADE
Validates embedded software for control systems in aircraft and drones, ensuring functionality and reliability in flight systems.
Ansys Autodyn
Simulates high-impact, high-explosive, and shockwave events for aircraft and drone crashworthiness and survivability
Ansys Chemkin-Pro
Simulates combustion reactions in aircraft engines and propulsion systems.
Ansys nCode DesignLife
Analyzes fatigue and durability, predicting the lifespan of components in aircraft and drones under cyclic loading conditions.
Ansys GRANTA MI
Provides material data management and material selection to ensure optimal performance and durability of aircraft and drone components.
Ansys Q3D Extractor
Extracts key electrical parameters, such as impedance and resistance, from 3D models of components in high-frequency circuits, optimizing designs for communication, radar, and electronic systems.
Ansys Medini Analyze
Conducts functional safety analysis to ensure the safety and reliability of avionics and mission-critical systems in aircraft and drones.
Ansys SPEOS
Simulates optical systems, enhancing visibility, targeting, and night-vision capabilities in defence and aircraft applications.
Ansys Motion
Simulates the mechanical behaviour of moving parts in aircraft and drones, optimizing dynamic performance.
Blast, Explosion, and Impact Simulation
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Explicit dynamics to simulate explosive impacts to assess damage potential on target structures.
Thermal analysis to evaluate temperature distribution and thermal stresses generated in components during extreme conditions.
Structural analysis to reinforce key components for enhanced blast resistance.
Component-Level
Capabilities
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Armour Panels
- Simulate ballistic and blast impacts using structural analysis to optimize armour for maximum protection against explosive threats.
- Perform thermal analysis to evaluate thermal stresses and ensure armour effectiveness in hostile environments.
Protective Barriers
- Test structural integrity of barriers using dynamic analysis to withstand high-force explosions while maintaining functionality.
- Simulate thermal effects on barrier components to ensure long-term durability under extreme conditions.
Vehicle Hulls
- Simulate blast impacts using structural analysis to assess survivability and ensure the protection of personnel and equipment.
- Conduct fatigue analysis to improve resilience under operational conditions, due to cyclic loading and vibrations.
Shock Absorbers
- Simulate shock absorber performance using structural analysis to optimize response and improve system effectiveness under explosive impacts.
- Analyze the durability and fatigue of shock absorption systems in artillery guns and heavy equipment for improved stability.
Missiles, Torpedoes, and Mines
- Simulate blast effects using explicit dynamics to assess the damage potential of missiles, torpedoes, and mines in combat scenarios.
- Test guidance system performance using electromagnetic simulations to optimize EMI/EMC characteristics and signal integrity for reliable functioning.
Relevant Ansys
Software
Easily handle the complexity of varied design environments with a range of analytical tools that enable you to meet performance goals and ensure long-term reliability
Ansys Mechanical
Simulates structural behaviour under blast and impact loading, assessing material response, deformation, and stress distribution in aerospace components.
Ansys Fluent
Provides simulations of fluid dynamics, including shockwaves and high-pressure gas flow, in explosion and blast scenarios.
Ansys SpaceClaim
Quickly prepares and modifies 3D geometries, improving designs for better resistance to explosive forces.
Ansys LS-DYNA
Simulates complex blast, explosion, and impact events, analyzing material deformation, failure, and structural response under extreme conditions.
Ansys nCode DesignLife
Analyzes the fatigue life and durability of aerospace components exposed to blast and impact loads, ensuring long-term performance.
Ansys Granta Selector
Assists in material selection for blast and impact resistance, providing data to optimize aerospace and defence components for explosive events.
Ansys Autodyn
Models shockwave propagation, explosive effects, and the structural response of aerospace materials and components to blast loading.
Spacecraft Analysis
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Thermal analysis to optimize heat resistance and thermal regulation of spacecraft during re-entry and space missions.
Structural analysis to ensure the spacecraft can withstand the extreme forces and conditions of space travel, including launch, in-orbit, and re-entry environments.
Vibration analysis to assess the effect of vibrations on spacecraft integrity and ensure reliable performance.
Electromagnetic simulations to ensure clear, reliable communication for data transmission and system control, minimizing interference and signal loss.
Component-Level
Capabilities
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Thermal Protection Systems
- Perform thermal analysis on components to assess their functioning during extreme temperatures.
- Structural simulations to assess the durability of thermal protection systems to withstand operational loads.
Transponders
- Analyze signal integrity to ensure efficient data transmission across long distances in space.
- Simulate electromagnetic performance to optimize signal transmission and minimize interference in transponder systems.
Satellite Structures
- Analyze structural strength to ensure satellite durability under the mechanical forces experienced during launch and orbital operations.
- Perform fatigue analysis to ensure long-term operational life of satellite components.
Solar Panels
- Simulate electrical performance to ensure the maximum efficiency of solar panels for power generation in space.
- Simulate micrometeoroid impacts to ensure solar panel resilience in the harsh environment of outer space.
Antennas
- Conduct electromagnetic analysis to ensure reliable communication across vast distances in space.
- Signal integrity analysis to ensure reliable signal transmission, minimizing data loss and distortion caused by interference.
Relevant Ansys
Software
Easily handle the complexity of varied design environments with a range of analytical tools that enable you to meet performance goals and ensure long-term reliability
Ansys Mechanical
Simulates structural performance of spacecraft components under various conditions, including thermal, dynamic, and mechanical stresses.
Ansys Fluent
Models fluid dynamics, including gas flow, thermal convection, and heat transfer in spacecraft during re-entry or in low-Earth orbit conditions.
Ansys SpaceClaim
Quickly prepares 3D models for simulations, allowing design modifications for optimized performance in space environments.
Ansys LS-DYNA
Simulates complex material behaviour, including shock waves and structural response under extreme conditions like launch or impact.
Ansys HFSS
Performs high-frequency electromagnetic simulations, essential for spacecraft communication systems, antenna design, and other RF applications.
Ansys ODTK
Provides spacecraft trajectory analysis, supporting orbit determination and mission planning for satellite and spacecraft navigation.
Ansys Autodyn
Models blast, explosion, and impact effects, relevant for analyzing potential impacts and hazards during space missions.
Ansys Granta MI
Provides materials selection and data management for ensuring the durability and performance of spacecraft materials in extreme space environments.
Ansys Q3D Extractor
Extracts electrical parameters such as resistance, capacitance, and inductance for spacecraft components used in high-frequency circuits and power systems.
Ansys nCode DesignLife
Analyzes fatigue and durability of spacecraft components under cyclic loading, ensuring long-term performance in space missions.
Ansys SCADE
Validates embedded software used in spacecraft systems, such as avionics and control systems, ensuring functionality and safety.
Ansys Medini Analyze
Supports functional safety analysis for spacecraft electronic systems, ensuring operational reliability in critical mission scenarios.
Radar and Antenna
Design
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Electromagnetic analysis to optimize radar systems for detection accuracy and reliability in complex environments.
Structural analysis to evaluate the mechanical robustness of radar systems and antennas under operational stress, vibrations, and environmental factors.
Signal integrity analysis to minimize interference, ensure clear signal transmission, and enhance data accuracy in radar and communication systems.
Component-Level
Capabilities
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Radar Systems
- Simulate electromagnetic fields to ensure radar systems can detect targets with high accuracy.
- Test the structural integrity of radar components to ensure their functionality under operational stresses.
Antenna Arrays
- Generate radiation pattern results to analyze effectiveness in varied environments.
- Analyze signal integrity and EMI to ensure antenna array performance is unaffected by external interference and distortion.
Mounting Structures
- Test the structural strength of mounting systems to ensure antennas remain stable and functional in all conditions.
- Simulate vibrations to verify the performance stability of mounted systems.
Signal Processing Units
- Simulate signal integrity to ensure clear signal transmission and reliable communication.
- Evaluate electromagnetic interference (EMI) to prevent disruptions in signal integrity.
Relevant Ansys
Software
Easily handle the complexity of varied design environments with a range of analytical tools that enable you to meet performance goals and ensure long-term reliability
Ansys Mechanical
Simulates the structural behaviour of radar and antenna systems, assessing stress and deformation under dynamic loading.
Ansys Fluent
Simulates fluid dynamics, including air and fluid flow around radar and antenna systems, affecting aerodynamic performance.
Ansys HFSS
Simulates high-frequency electromagnetic fields for radar and antenna systems, predicting performance like radiation patterns and signal integrity.
Ansys Maxwell
Performs 2D and 3D electromagnetic field simulations, optimizing antenna design and analyzing electric and magnetic field distributions.
Ansys Q3D Extractor
Extracts parasitic inductance, capacitance, and resistance in radar and antenna components, improving circuit modelling accuracy.
Ansys Icepak
Models thermal management of electronic systems, ensuring heat from radar components doesn’t affect system performance.
Ansys SIwave
Analyzes signal and power integrity for radar and antenna systems, ensuring optimal signal quality during transmission.
Ansys Autodyn
Models shockwave and explosive effects, useful for analyzing radar and antenna system integrity in extreme conditions.
Ansys Granta MI
Manages material selection for radar and antenna components, optimizing durability and performance under various conditions.
Ansys SCADE
Verifies embedded software in radar and antenna systems, ensuring functionality and reliability in mission-critical applications.
Hypersonic Vehicle
Design
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Aerodynamics simulations for optimal flight performance at high speeds and extreme conditions.
Thermal analysis to evaluate the response of components due to high temperatures involved with high-speed flight.
Structural and vibrational analysis to ensure vehicle integrity and resistance to fatigue under dynamic loads.
Electromagnetic analysis of avionic systems for reliable navigation and communication at hypersonic speeds.
Component-Level
Capabilities
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Airframes
- Simulate aerodynamic forces to minimize drag and improve performance at hypersonic speeds.
- Perform thermal analysis to ensure the airframe can withstand extreme temperatures.
Propulsion Systems
- Simulate combustion reactions to optimize propulsion for best performance while reducing fuel consumption.
- Perform thermal analysis to analyze thermal expansion and stresses in engine components during high-speed flight.
Control Surfaces
- Simulate the aerodynamics of control surfaces to maintain stability and manoeuvrability.
- Perform structural analysis to ensure the control surfaces can withstand extreme aerodynamic loading.
Avionics
- Utilize model-based simulation to verify and validate embedded software functionality for avionics systems, ensuring safety and performance compliance.
- Evaluate the reliability and life of electronic components subjected to mechanical shocks, vibrations, and thermal loads.
Relevant Ansys
Software
Easily handle the complexity of varied design environments with a range of analytical tools that enable you to meet performance goals and ensure long-term reliability
Ansys Mechanical
Analyzes structural behaviour under thermal and mechanical loading, focusing on material deformation and stress distribution during high-speed flight.
Ansys Fluent
Simulates fluid dynamics, heat transfer, and shockwave interactions at hypersonic speeds, providing insights into aerodynamic performance.
Ansys SpaceClaim
Facilitates rapid design iterations with its direct modelling capabilities, allowing precise geometry creation for hypersonic vehicles.
Ansys Q3D Extractor
Extracts parasitic parameters for electrical components, ensuring optimal performance of onboard electronics under high-speed conditions.
Ansys Maxwell
Simulates electromagnetic field behaviour for sensors and communication systems in hypersonic vehicles, ensuring reliable operation in high-frequency environments.
Ansys Granta Selector
Provides materials selection tools to identify suitable materials for high-temperature, high-stress hypersonic components.
Ansys Autodyn
Simulates high-impact events, shockwaves, and material responses, helping assess the vehicle’s performance under extreme conditions.
Ansys SCADE
Tests and validates embedded software in hypersonic vehicles, ensuring reliability during extreme and fast-paced operations.
Ansys HFSS
Simulates high-frequency electromagnetic fields for communication systems, radar, and sensors used in hypersonic vehicles.
Ansys LS-DYNA
Analyzes complex, nonlinear dynamic responses of materials and structures during hypersonic events, including impacts and shock loading.
Ansys nCode DesignLife
Evaluates the fatigue life and durability of hypersonic vehicle components exposed to extreme loading, ensuring long-term performance.
Ansys Forming
Models the forming processes for components in hypersonic vehicles, ensuring the structural integrity of materials during manufacturing.
Ansys Chemkin-Pro
Simulates combustion reactions in hypersonic vehicle propulsion systems.
Advanced Propulsion
Systems
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Thermal and heat transfer analysis to asses thermal expansion and optimize heat dissipation in advanced propulsion systems.
Fluid dynamics for optimal fuel and airflow management in engines and propulsion components.
Structural analysis to ensure durability and long-term performance under high stress and thermal load.
Vibration and fatigue analysis to optimize engine stability and enhance the operational life of components.
Conduct combustion reaction simulations to ensure efficient fuel burning and maintain performance during high-speed flight.
Component-Level
Capabilities
Ansys 5G simulation solutions provide electromagnetics, semiconductor, electronics cooling and mechanical analysis tools to accurately simulate 5G communications technologies.
Jet Engines
- Simulate fluid dynamics for flow around the blades to enhance the performance of jet engines.
- Test structural strength and fatigue of engine components to ensure reliable performance and longevity under extreme conditions.
Rocket Engines
- Simulate combustion reactions to ensure efficient mixing and burning of fuel for effective thrust generation.
- Perform thermo-structural analysis on engine components to ensure reliable operation under extremely high temperatures.
Turbines
- Analyze fluid dynamics for flow around the blades of the turbine to maximize energy conversion efficiency.
- Simulate the structural strength of turbine blades to withstand operational stresses.
Nozzles
- Perform fluid dynamics analysis on nozzles to optimize thrust generation and minimize energy losses.
- Conduct thermal simulations to evaluate thermal expansion and stresses generated in the nozzle.
Fuel Tanks
- Perform structural analysis on the tank to ensure that it can withstand operational stresses including shock loads, impacts and vibration.
- Simulate the sloshing of fuel to assess its effect on the tank structure (fluid-structure interaction, or FSI).
Relevant Ansys
Software
Easily handle the complexity of varied design environments with a range of analytical tools that enable you to meet performance goals and ensure long-term reliability
Ansys Mechanical
Analyzes the structural integrity of propulsion components under thermal and mechanical loads, ensuring optimal design for durability and performance.
Ansys Fluent
Simulates fluid dynamics and heat transfer for propulsion systems, including combustion and engine performance at high speeds.
Ansys CFX
Provides advanced simulations of fluid flow and thermodynamics, specifically for gas turbines under varying conditions.
Ansys LS-DYNA
Simulates non-linear dynamic responses and shockwave propagation in propulsion components during high-speed events or impacts.
Ansys TurboGrid
Generates high-quality meshes for complex turbomachinery geometries, optimizing flow simulations in propulsion systems.
Ansys nCode DesignLife
Evaluates the fatigue life and durability of propulsion components under cyclic loading and extreme conditions, enhancing component longevity.
Ansys Autodyn
Models high-speed, explosive events in propulsion systems, such as impacts and blast waves, to assess the system’s resilience.
Ansys SCADE
Tests embedded software for control systems in advanced propulsion systems, ensuring reliability during high-stress operations.
Ansys Granta Selector
Assists in selecting materials that can withstand the extreme conditions faced by propulsion systems, such as high temperatures and stresses.
Ansys SpaceClaim
Enables rapid geometry creation and modification for propulsion system components, streamlining the design and optimization process.
Ansys Chemkin-Pro
Models combustion reactions of fuels in propulsion systems, such as in rocket engines and jet turbines.
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