{"id":109617,"date":"2026-02-19T12:50:26","date_gmt":"2026-02-19T12:50:26","guid":{"rendered":"https:\/\/www.simscale.com\/?page_id=109617"},"modified":"2026-02-19T12:50:29","modified_gmt":"2026-02-19T12:50:29","slug":"electric-motor-design-simulation","status":"publish","type":"page","link":"https:\/\/www.simscale.com\/simulations\/electric-motor-design-simulation\/","title":{"rendered":"Electric Motor Design &amp; Simulation"},"content":{"rendered":"\n<div class=\"gb-element-b1904b06\">\n<div class=\"gb-element-31350e07\">\n<div class=\"gb-element-51d29773\"><div class=\"yoast-breadcrumbs\"><span><span><a href=\"https:\/\/www.simscale.com\/\">Home<\/a><\/span> \u00bb <span><a href=\"https:\/\/www.simscale.com\/simulations\/\">Applications<\/a><\/span> \u00bb <span class=\"breadcrumb_last\" aria-current=\"page\">Electric Motor Design &amp; Simulation<\/span><\/span><\/div><\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-a1ba63a4\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2025\/10\/product-background-svg.svg)\">\n<div class=\"gb-element-3e3f3809\">\n<div class=\"gb-element-d62f41e5\">\n<div class=\"gb-element-b775d3a3\">\n<h1 class=\"gb-text gb-text-39d788ad\">Electric Motor Design Software<\/h1>\n\n\n\n<h2 class=\"gb-text gb-text-58a14c4d\">Accelerate Electromagnetic Innovation with Cloud-Native 3D Simulation<\/h2>\n\n\n\n<p class=\"gb-text gb-text-583ec0c2\">Break free from hardware limitations. Design, analyze, and optimize electric motors, transformers, and actuators directly in your browser with high-fidelity electromagnetic simulation solvers and parallel cloud computing \u2014 no downloads, no queues, no license bottlenecks.<\/p>\n\n\n\n<div class=\"gb-element-ac7061bc\">\n<div>\n<a class=\"gb-text gb-text-830cabc9\" href=\"\/signup\/\">Run a Simulation<\/a>\n<\/div>\n\n\n\n<div class=\"gb-element-3a131f83\">\n<a class=\"gb-text gb-text-4b971913\" href=\"#pricingtable\">Contact Sales<\/a>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-69caf842\">\n<div>\n<img loading=\"lazy\" decoding=\"async\" width=\"109\" height=\"33\" class=\"gb-media-24b6e220\" alt=\"G2 Ratings\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2025\/09\/g2crowd_icon_updated.svg\" title=\"g2crowd_icon_updated\"\/>\n<\/div>\n\n\n\n<div>\n<img loading=\"lazy\" decoding=\"async\" width=\"119\" height=\"47\" class=\"gb-media-2a5022e5\" alt=\"Capterra Rating\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2025\/08\/Capterra.svg\" title=\"Capterra\"\/>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-865bfb3b\">\n<img loading=\"lazy\" decoding=\"async\" width=\"742\" height=\"488\" class=\"gb-media-7029e06d\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2024\/04\/electric-motors-1.png\" alt=\" Electric motor simulation software showing multiphysics analysis \u2014 electromagnetics, thermal, fluid flow, and structural FEA results in SimScale in the browser\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2024\/04\/electric-motors-1.png 742w, https:\/\/frontend-assets.simscale.com\/media\/2024\/04\/electric-motors-1-300x197.png 300w\" sizes=\"auto, (max-width: 742px) 100vw, 742px\" \/>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-a9018355\">\n<style>\n\/* Logobar Scrolling *\/\n@keyframes marquee {\n    from { transform: translateX(0); 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johnson logo\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2022\/10\/johnson-johnson.svg\" title=\"johnson-johnson\"\/>\n<\/div>\n\n\n\n<div class=\"gb-element-b13c47d7\">\n<img loading=\"lazy\" decoding=\"async\" width=\"118\" height=\"18\" class=\"gb-media-e865b3ec\" alt=\"Nobel logo\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2024\/11\/nobel_automotive_logo.svg\" title=\"nobel_automotive_logo\"\/>\n<\/div>\n\n\n\n<div class=\"gb-element-ffd6c09d\">\n<img loading=\"lazy\" decoding=\"async\" width=\"60\" height=\"25\" class=\"gb-media-389a4ad8\" alt=\"bucher municipal logo\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2023\/09\/bucher_municipal_logo.svg\" title=\"bucher_municipal_logo\"\/>\n<\/div>\n\n\n\n<div class=\"gb-element-0f425cb8\">\n<img loading=\"lazy\" decoding=\"async\" width=\"84\" height=\"17\" class=\"gb-media-0babf610\" alt=\"b\u00fchler logo\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2023\/09\/buhler_logo.svg\" title=\"buhler_logo\"\/>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-3bbef0ea\">\n<div class=\"gb-element-394e24b3\">\n<h2 class=\"gb-text gb-text-c39d558b\">Design &amp; Simulate Electric Motor Electromagnetics, Thermal Performance, and Structural Integrity \u2014 All in Your Browser<\/h2>\n<\/div>\n\n\n\n<div class=\"gb-element-ebe5cff2\">\n<div>\n<h3 class=\"gb-text gb-text-387ae3f4\">Predict Before Prototyping<\/h3>\n\n\n\n<p class=\"gb-text gb-text-8fdd7b4a\">Accelerate your electric motor simulation workflow with cloud-native multiphysics. Simulate electromagnetics, thermal dynamics, and structural performance simultaneously \u2014 and test motors, transformers, and actuators under real-world operating conditions without building a single prototype.<br>SimScale provides a unified electric motor design software environment to solve the coupled physics challenges inherent in modern motor engineering: Electromagnetics (EM), Computational Fluid Dynamics (CFD) and Thermal Analysis, and Finite Element Analysis (FEA). Iterate on geometry, winding configurations, and operating points in seconds &#8211; not days &#8211; to ensure your design delivers peak efficiency, thermal safety, and mechanical durability.<\/p>\n\n\n\n<a class=\"gb-text gb-text-80fc67a7\" href=\"https:\/\/www.simscale.com\/product\/simulation-features\/\">Check Simulation Features<\/a>\n<\/div>\n\n\n\n<div>\n<img loading=\"lazy\" decoding=\"async\" width=\"780\" height=\"237\" class=\"gb-media-a3075f39\" alt=\"Electric motor simulation software showing multiphysics analysis \u2014 electromagnetics, thermal, fluid flow, and structural FEA results in SimScale\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/electric_motor_simulation_software_showing_multiphysics_analysis_electromagnetics_thermal_fluid_flow_and_structural_fea_results_in_simscale.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/electric_motor_simulation_software_showing_multiphysics_analysis_electromagnetics_thermal_fluid_flow_and_structural_fea_results_in_simscale.webp 780w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/electric_motor_simulation_software_showing_multiphysics_analysis_electromagnetics_thermal_fluid_flow_and_structural_fea_results_in_simscale-300x91.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/electric_motor_simulation_software_showing_multiphysics_analysis_electromagnetics_thermal_fluid_flow_and_structural_fea_results_in_simscale-768x233.webp 768w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/electric_motor_simulation_software_showing_multiphysics_analysis_electromagnetics_thermal_fluid_flow_and_structural_fea_results_in_simscale-515x156.webp 515w\" sizes=\"auto, (max-width: 780px) 100vw, 780px\" \/>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-87fb6f4f\">\n<div class=\"gb-element-66313766\">\n<img loading=\"lazy\" decoding=\"async\" width=\"480\" height=\"300\" class=\"gb-media-d175cef9\" alt=\"AI-powered electric inverter exploration showing automated performance prediction and design-space sweep in SimScale\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/AI-powered-electric-motor-design-exploration-showing-automated-performance-prediction-and-design-space-sweep-in-SimScale.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/AI-powered-electric-motor-design-exploration-showing-automated-performance-prediction-and-design-space-sweep-in-SimScale.webp 480w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/AI-powered-electric-motor-design-exploration-showing-automated-performance-prediction-and-design-space-sweep-in-SimScale-300x188.webp 300w\" sizes=\"auto, (max-width: 480px) 100vw, 480px\" \/>\n<\/div>\n\n\n\n<div class=\"gb-element-e545eee7\">\n<h3 class=\"gb-text gb-text-b2eb3f19\">AI-Powered Acceleration for Electric Motor Design<\/h3>\n\n\n\n<p class=\"gb-text gb-text-f4bfeb32\">Use AI surrogates and pre-trained foundation models to get performance predictions in seconds. Explore thousands of design variants\u2014from winding configurations to rotor geometries\u2014and identify winning concepts before committing to high-fidelity analysis.<br>SimScale AI unlocks new ways to innovate in electromagnetic design. Explore whole design spaces in minutes and make design decisions with confidence, reducing iterations and increasing engineering velocity.<\/p>\n\n\n\n<a class=\"gb-text gb-text-97900db3\" href=\"https:\/\/www.simscale.com\/product\/ai-infrastructure\/\">Check AI Features<\/a>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-86c317a6\">\n<div class=\"gb-element-388f5b8c\">\n<div class=\"gb-element-4251263c\">\n<h2 class=\"gb-text gb-text-77960746\">Electric Motor Design in Action<\/h2>\n<\/div>\n\n\n\n<div class=\"gb-element-44339713\">\n<div>\n<h3 class=\"gb-text gb-text-4d4651bb\">Magnetostatics<\/h3>\n\n\n\n<p class=\"gb-text\">Analyze static magnetic fields generated by steady DC currents or permanent magnets. Essential for engineers designing electromechanical devices, such as BLDC motors, sensors, and actuators, where time-varying effects like eddy currents can be neglected. Visualize flux density, calculate forces, and optimize magnet placement before prototyping.<\/p>\n<\/div>\n\n\n\n<div>\n<img loading=\"lazy\" decoding=\"async\" width=\"730\" height=\"390\" class=\"gb-media-3101b76f\" alt=\"Magnetostatic simulation of a solenoid showing magnetic field lines, coil geometry, plunger, and force distribution\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/magnetostatic_simulation_of_a_solenoid_showing_magnetic_field_lines_coil_geometry_plunger_and_force_distribution_1x.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/magnetostatic_simulation_of_a_solenoid_showing_magnetic_field_lines_coil_geometry_plunger_and_force_distribution_1x.webp 730w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/magnetostatic_simulation_of_a_solenoid_showing_magnetic_field_lines_coil_geometry_plunger_and_force_distribution_1x-300x160.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/magnetostatic_simulation_of_a_solenoid_showing_magnetic_field_lines_coil_geometry_plunger_and_force_distribution_1x-515x275.webp 515w\" sizes=\"auto, (max-width: 730px) 100vw, 730px\" \/>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-d3569f97\">\n<div class=\"gb-element-0d33db5c\">\n<img loading=\"lazy\" decoding=\"async\" width=\"730\" height=\"390\" class=\"gb-media-141c40d3\" alt=\"Time-harmonic electromagnetic simulation of a 3-phase transformer showing AC magnetic flux density distribution\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/time_harmonic_electromagnetic_simulation_of_a_3_phase_transformer_showing_ac_magnetic_flux_density_distribution_1x.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/time_harmonic_electromagnetic_simulation_of_a_3_phase_transformer_showing_ac_magnetic_flux_density_distribution_1x.webp 730w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/time_harmonic_electromagnetic_simulation_of_a_3_phase_transformer_showing_ac_magnetic_flux_density_distribution_1x-300x160.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/time_harmonic_electromagnetic_simulation_of_a_3_phase_transformer_showing_ac_magnetic_flux_density_distribution_1x-515x275.webp 515w\" sizes=\"auto, (max-width: 730px) 100vw, 730px\" \/>\n<\/div>\n\n\n\n<div>\n<h3 class=\"gb-text gb-text-4732f7f9\">Time-Harmonic Magnetics<\/h3>\n\n\n\n<p class=\"gb-text\">Analyze the effects of alternating currents (AC) and electromagnetic induction in frequency-domain simulations. Model eddy current losses, skin effects, and proximity effects in motor windings and laminated cores. Critical for predicting efficiency and heat generation in AC and induction motors.<\/p>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-f85bafad\">\n<div>\n<h3 class=\"gb-text gb-text-2cafb611\">Electromagnetic-Thermal Coupling<\/h3>\n\n\n\n<p class=\"gb-text\">A multiphysics approach that connects electrical performance to temperature distribution. Automatically map electromagnetic losses as heat sources in a steady-state thermal analysis. This two-way coupling captures how rising temperatures affect material properties like resistivity and permeability, giving engineers a holistic view of motor performance under continuous operation.<\/p>\n<\/div>\n\n\n\n<div>\n<img loading=\"lazy\" decoding=\"async\" width=\"730\" height=\"390\" class=\"gb-media-b6035fbf\" alt=\"Electric motor thermal analysis showing temperature distribution from electromagnetic losses and Joule heating in windings and core\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/electric_motor_thermal_analysis_showing_temperature_distribution_from_electromagnetic_losses_and_joule_heating_in_windings_and_core_1x.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/electric_motor_thermal_analysis_showing_temperature_distribution_from_electromagnetic_losses_and_joule_heating_in_windings_and_core_1x.webp 730w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/electric_motor_thermal_analysis_showing_temperature_distribution_from_electromagnetic_losses_and_joule_heating_in_windings_and_core_1x-300x160.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/electric_motor_thermal_analysis_showing_temperature_distribution_from_electromagnetic_losses_and_joule_heating_in_windings_and_core_1x-515x275.webp 515w\" sizes=\"auto, (max-width: 730px) 100vw, 730px\" \/>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-1d8ccdf8\">\n<div class=\"gb-element-a5699cb6\">\n<img loading=\"lazy\" decoding=\"async\" width=\"730\" height=\"390\" class=\"gb-media-34861c65\" alt=\"Conjugate heat transfer simulation showing cooling airflow streamlines and temperature distribution in an electronics enclosure\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/conjugate_heat_transfer_simulation_showing_cooling_airflow_streamlines_and_temperature_distribution_in_an_electronics_enclosure_1x.webp\" title=\"conjugate_heat_transfer_simulation_showing_cooling_airflow_streamlines_and_temperature_distribution_in_an_electronics_enclosure_1x\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/conjugate_heat_transfer_simulation_showing_cooling_airflow_streamlines_and_temperature_distribution_in_an_electronics_enclosure_1x.webp 730w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/conjugate_heat_transfer_simulation_showing_cooling_airflow_streamlines_and_temperature_distribution_in_an_electronics_enclosure_1x-300x160.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/conjugate_heat_transfer_simulation_showing_cooling_airflow_streamlines_and_temperature_distribution_in_an_electronics_enclosure_1x-515x275.webp 515w\" sizes=\"auto, (max-width: 730px) 100vw, 730px\" \/>\n<\/div>\n\n\n\n<div>\n<h3 class=\"gb-text gb-text-be10601f\">Conjugate Heat Transfer (CHT)<\/h3>\n\n\n\n<p class=\"gb-text\">Calculate heat conduction through solid components (stator, windings, housing) and heat convection within the cooling fluid (air or liquid) to optimize thermal management systems.<\/p>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-53243ffb\">\n<div>\n<h3 class=\"gb-text gb-text-76d29072\">Static Stress Analysis<\/h3>\n\n\n\n<p class=\"gb-text\">Identify areas of excessive deformation or von Mises stress, ensuring that the electric motor or its component can withstand the extreme mechanical pressures of rapid acceleration and high RPMs without catastrophic failure.<\/p>\n<\/div>\n\n\n\n<div>\n<img loading=\"lazy\" decoding=\"async\" width=\"730\" height=\"390\" class=\"gb-media-77417939\" alt=\"Static stress analysis of an electric motor showing von Mises stress distribution and structural deformation under load\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/static_stress_analysis_of_an_electric_motor_showing_von_mises_stress_distribution_and_structural_deformation_under_load_1x.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/static_stress_analysis_of_an_electric_motor_showing_von_mises_stress_distribution_and_structural_deformation_under_load_1x.webp 730w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/static_stress_analysis_of_an_electric_motor_showing_von_mises_stress_distribution_and_structural_deformation_under_load_1x-300x160.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/static_stress_analysis_of_an_electric_motor_showing_von_mises_stress_distribution_and_structural_deformation_under_load_1x-515x275.webp 515w\" sizes=\"auto, (max-width: 730px) 100vw, 730px\" \/>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-4e3c6e66\">\n<div class=\"gb-element-0507d329\">\n<img loading=\"lazy\" decoding=\"async\" width=\"730\" height=\"390\" class=\"gb-media-151385df\" alt=\"Modal vibration analysis of an electric motor bracket showing natural frequency response and deformation mode shapes\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/Modal-vibration-analysis-of-an-electric-motor-bracket-showing-natural-frequency-response-and-deformation-mode-shapes.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/Modal-vibration-analysis-of-an-electric-motor-bracket-showing-natural-frequency-response-and-deformation-mode-shapes.webp 730w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/Modal-vibration-analysis-of-an-electric-motor-bracket-showing-natural-frequency-response-and-deformation-mode-shapes-300x160.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/Modal-vibration-analysis-of-an-electric-motor-bracket-showing-natural-frequency-response-and-deformation-mode-shapes-515x275.webp 515w\" sizes=\"auto, (max-width: 730px) 100vw, 730px\" \/>\n<\/div>\n\n\n\n<div>\n<h3 class=\"gb-text gb-text-dcba6199\">Modal &amp; Harmonic Analysis<\/h3>\n\n\n\n<p class=\"gb-text\">Ensure that the natural frequencies of the motor housing, stator, and support brackets do not coincide with the excitation frequencies generated by the electromagnetic forces or rotational speeds. Visualize the full response spectrum and apply global damping to minimize specific frequencies that contribute most to the &#8220;whine&#8221; of electric machines.<\/p>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-aab2148a\">\n<div>\n<h3 class=\"gb-text gb-text-cb30666f\">Switched Reluctance Motor (SRM) Simulation<\/h3>\n\n\n\n<p class=\"gb-text\">Simulate switched reluctance motors without permanent magnets\u2014ideal for cost-effective, rare-earth-free motor designs. Analyze torque generation, flux distribution, and minimize torque ripple through electromagnetic simulation.<\/p>\n<\/div>\n\n\n\n<div>\n<img loading=\"lazy\" decoding=\"async\" width=\"730\" height=\"390\" class=\"gb-media-aa50f56d\" alt=\"Switched reluctance motor electromagnetic simulation showing magnetic flux density magnitude and field line distribution\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/switched_reluctance_motor_electromagnetic_simulation_showing_magnetic_flux_density_magnitude_and_field_line_distribution_1x.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/switched_reluctance_motor_electromagnetic_simulation_showing_magnetic_flux_density_magnitude_and_field_line_distribution_1x.webp 730w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/switched_reluctance_motor_electromagnetic_simulation_showing_magnetic_flux_density_magnitude_and_field_line_distribution_1x-300x160.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/switched_reluctance_motor_electromagnetic_simulation_showing_magnetic_flux_density_magnitude_and_field_line_distribution_1x-515x275.webp 515w\" sizes=\"auto, (max-width: 730px) 100vw, 730px\" \/>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-03a57f2a\">\n<div class=\"gb-element-8b3697ab\">\n<img loading=\"lazy\" decoding=\"async\" width=\"730\" height=\"390\" class=\"gb-media-a556d7be\" alt=\"AC motor electromagnetic field simulation showing current density and magnetic flux distribution in stator and rotor\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/ac_motor_electromagnetic_field_simulation_showing_current_density_and_magnetic_flux_distribution_in_stator_and_rotor.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/ac_motor_electromagnetic_field_simulation_showing_current_density_and_magnetic_flux_distribution_in_stator_and_rotor.webp 730w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/ac_motor_electromagnetic_field_simulation_showing_current_density_and_magnetic_flux_distribution_in_stator_and_rotor-300x160.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/ac_motor_electromagnetic_field_simulation_showing_current_density_and_magnetic_flux_distribution_in_stator_and_rotor-515x275.webp 515w\" sizes=\"auto, (max-width: 730px) 100vw, 730px\" \/>\n<\/div>\n\n\n\n<div>\n<h3 class=\"gb-text gb-text-215da445\">AC Motor &amp; Induction Motor Simulation<\/h3>\n\n\n\n<p class=\"gb-text\">Analyze AC motors and induction machines with time-harmonic electromagnetic solvers. Model slip, starting torque, and steady-state performance for single-phase and three-phase induction motors.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-f5bbb12e\">\n<div class=\"gb-element-5864c4e7\">\n<div class=\"gb-element-6f9d2662\">\n<div>\n<h2 class=\"gb-text gb-text-cf2d761e\">Customer Success<\/h2>\n\n\n\n<h3 class=\"gb-text gb-text-bc0d4730\"><a href=\"https:\/\/www.simscale.com\/customers\/emil-motors-high-performance-ev-drives\/\">Emil Motors achieves 50% cost saving over legacy tools<\/a><\/h3>\n\n\n\n<p class=\"gb-text\">Emil Motors utilized SimScale&#8217;s cloud-native multiphysics platform to halve development costs and double iteration speeds while engineering a high-performance, magnet-free axial flux induction motor for electric vehicles.<\/p>\n<\/div>\n\n\n\n<div class=\"gb-element-3162ef9d\">\n<img loading=\"lazy\" decoding=\"async\" width=\"600\" height=\"300\" class=\"gb-media-3ac6621a\" alt=\"Emil Motors Success Story\" src=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/emil_motors_success_story_1x.webp\" srcset=\"https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/emil_motors_success_story_1x.webp 600w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/emil_motors_success_story_1x-300x150.webp 300w, https:\/\/frontend-assets.simscale.com\/media\/2026\/02\/emil_motors_success_story_1x-515x258.webp 515w\" sizes=\"auto, (max-width: 600px) 100vw, 600px\" \/>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-e9de5332\">\n<div class=\"gb-element-df4076bc\">\n<div class=\"gb-query-08be7a91\"><div class=\"gb-looper-e0bbdf2a\">\n<div class=\"gb-loop-item gb-loop-item-456c3f4a post-48191 page type-page status-publish has-post-thumbnail hentry\">\n<div class=\"gb-element-0da2babd\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2021\/11\/Rimac-Battery-Pack-featured-1107-x-768-01a.jpg)\"><\/div>\n\n\n\n<div class=\"gb-element-53e7f79d\">\n<h3 class=\"gb-text gb-text-d00f8bf3\"><a href=\"https:\/\/www.simscale.com\/customers\/rimac-automobili\/\">Rimac Automobili\u00a0Designs the Next Generation of Electric Hypercars with Cloud-Native Simulation<\/a><\/h3>\n<\/div>\n\n\n<\/div>\n<\/div><\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-6adf9a09\">\n<div class=\"gb-query-1cb0e871\"><div class=\"gb-looper-85b9d10e\">\n<div class=\"gb-loop-item gb-loop-item-885dbe25 post-15764 page type-page status-publish has-post-thumbnail hentry\">\n<div class=\"gb-element-23365c0c\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2018\/08\/Carbomech-simulation-displacement-distribution.png)\"><\/div>\n\n\n\n<div class=\"gb-element-59ea556b\">\n<h3 class=\"gb-text gb-text-989851e3\"><a href=\"https:\/\/www.simscale.com\/customers\/carbomech\/\">Carbomech\u00a0used SimScale FEA to develop a high-speed motorized spindle<\/a><\/h3>\n<\/div>\n\n\n<\/div>\n<\/div><\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-d4bc636e\">\n<div class=\"gb-query-8e105707\"><div class=\"gb-looper-c4d5339b\">\n<div class=\"gb-loop-item gb-loop-item-918bd619 post-57242 page type-page status-publish has-post-thumbnail hentry\">\n<div class=\"gb-element-8869c43b\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2022\/10\/cs-easee-charing-robot-exterior.png)\"><\/div>\n\n\n\n<div class=\"gb-element-ae9c1ef8\">\n<h3 class=\"gb-text gb-text-a517e5f1\"><a href=\"https:\/\/www.simscale.com\/customers\/easee-shaping-future-of-electricity-simulation\/\">EASEE &#8211; Shaping the Future of Electricity with Simulation<\/a><\/h3>\n<\/div>\n\n\n<\/div>\n<\/div><\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-d34944b6\">\n<h3 class=\"gb-text\">Related success stories<\/h3>\n\n\n\n<p class=\"gb-text\">Check out all the success stories of our customers.<\/p>\n\n\n\n<a class=\"gb-text gb-text-4c64ffd1\" href=\"\/customers\/\">See all stories<\/a>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-a0a29ce2\">\n<div class=\"gb-element-ed035375\">\n<div class=\"gb-element-51fa5ad8\">\n<h2 class=\"gb-text gb-text-8744d851\">Validation Cases<\/h2>\n\n\n\n<p class=\"gb-text gb-text-a6647397\">Check out the latest thermal management simulations performed in SimScale and validated against experimental and\/or analytical results.<\/p>\n<\/div>\n\n\n\n<div class=\"gb-element-c14cd471\">\n<div class=\"gb-query-ded2e8fc\"><div class=\"gb-looper-e0df3088\">\n<div class=\"gb-loop-item gb-loop-item-3f6a6f03 post-105510 page type-page status-publish has-post-thumbnail hentry\">\n<div class=\"gb-element-ec366d7a\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2025\/07\/team-20-validation-case-geometry-1.png)\"><\/div>\n\n\n\n<h3 class=\"gb-text gb-text-3eb81ece\"><a href=\"https:\/\/www.simscale.com\/docs\/validation-cases\/team-20-magnetostatics\/\">Validation Case: TEAM 20<\/a><\/h3>\n<\/div>\n\n<div class=\"gb-loop-item gb-loop-item-3f6a6f03 post-105813 page type-page status-publish has-post-thumbnail hentry\">\n<div class=\"gb-element-ec366d7a\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2025\/08\/team-24.png)\"><\/div>\n\n\n\n<h3 class=\"gb-text gb-text-3eb81ece\"><a href=\"https:\/\/www.simscale.com\/docs\/validation-cases\/team-24-magnetics\/\">TEAM 24 Validation Case<\/a><\/h3>\n<\/div>\n\n<div class=\"gb-loop-item gb-loop-item-3f6a6f03 post-18481 page type-page status-publish has-post-thumbnail hentry\">\n<div class=\"gb-element-ec366d7a\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2020\/07\/2020-07-14_19-13-04.jpg)\"><\/div>\n\n\n\n<h3 class=\"gb-text gb-text-3eb81ece\"><a href=\"https:\/\/www.simscale.com\/docs\/validation-cases\/thermal-stress-analysis-of-polymeric-photo-thermal-microactuator\/\">Validation Case: Thermal Stress Analysis of Polymeric Photo-Thermal Microactuator<\/a><\/h3>\n<\/div>\n\n<div class=\"gb-loop-item gb-loop-item-3f6a6f03 post-42143 page type-page status-publish has-post-thumbnail hentry\">\n<div class=\"gb-element-ec366d7a\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2021\/02\/Screenshot-1-1.png)\"><\/div>\n\n\n\n<h3 class=\"gb-text gb-text-3eb81ece\"><a href=\"https:\/\/www.simscale.com\/docs\/validation-cases\/led-thermal-management-chip-on-plate\/\">Validation Case: LED Thermal Management &#8211; Chip on Plate (COP)<\/a><\/h3>\n<\/div>\n<\/div><\/div>\n\n\n\n<a class=\"gb-text gb-text-b6317e36\" href=\"\/docs\/validation-cases\/\">More Validation Cases<\/a>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-bc481617\">\n<div class=\"gb-element-a22e8938\">\n<h2 class=\"gb-text gb-text-37d92550\">Blog Resources<\/h2>\n\n\n\n<p class=\"gb-text gb-text-54ad6a49\">Check out the latest thermal management simulations performed in SimScale and validated against experimental and\/or analytical results.<\/p>\n<\/div>\n\n\n\n<style>\n\/* By default, hide the 4th item in our specific grid *\/\n.hide-fourth-item-grid .gb-loop-item:nth-child(4) {\n    display: none;\n}\n\n\/* On tablet screens (between 768px and 1024px), show the 4th item *\/\n@media (max-width: 1024px) and (min-width: 768px) {\n    .hide-fourth-item-grid .gb-loop-item:nth-child(4) {\n        display: block; \/* This should match the display property of your other cards *\/\n    }\n}\n<\/style>\n\n\n\n<div class=\"gb-query-e53f8e2e hide-fourth-item-grid\"><div class=\"gb-looper-0418a714\">\n<div class=\"gb-loop-item gb-loop-item-c6253d49 post-96430 post type-post status-publish format-standard has-post-thumbnail hentry category-automotive-transportation category-electromagnetics category-electronics-high-tech category-energy category-fea category-machinery-industrial-equipment tag-design-optimization tag-electromagnetics tag-finite-element-analysis-fea tag-thermal-analysis\">\n<div class=\"gb-element-15234896\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2022\/10\/electric-motors.webp)\"><\/div>\n\n\n\n<h3 class=\"gb-text gb-text-09a47003\"><a href=\"https:\/\/www.simscale.com\/blog\/how-to-test-an-electric-motor\/\">How to Test an Electric Motor: Tools and Methods<\/a><\/h3>\n<\/div>\n\n<div class=\"gb-loop-item gb-loop-item-c6253d49 post-95732 post type-post status-publish format-standard has-post-thumbnail hentry category-aerospace-defense category-automotive-transportation category-electromagnetics category-machinery-industrial-equipment category-manufacturing tag-design-optimization tag-electromagnetics\">\n<div class=\"gb-element-15234896\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2024\/09\/current-density.png)\"><\/div>\n\n\n\n<h3 class=\"gb-text gb-text-09a47003\"><a href=\"https:\/\/www.simscale.com\/blog\/electromagnetic-clutch-design-simulate-and-optimize\/\">Electromagnetic Clutch Design: Simulate and Optimize<\/a><\/h3>\n<\/div>\n\n<div class=\"gb-loop-item gb-loop-item-c6253d49 post-50739 post type-post status-publish format-standard has-post-thumbnail hentry category-automotive-transportation category-fea tag-electronics tag-finite-element-analysis-fea tag-structural-engineering tag-structural-mechanics\">\n<div class=\"gb-element-15234896\" style=\"--inline-bg-image: url(https:\/\/frontend-assets.simscale.com\/media\/2022\/06\/vibration-analysis-of-an-emotor-bracket.jpg)\"><\/div>\n\n\n\n<h3 class=\"gb-text gb-text-09a47003\"><a href=\"https:\/\/www.simscale.com\/blog\/vibration-analysis-of-an-electric-motor-bracket\/\">Vibration Analysis of an Electric Motor Bracket<\/a><\/h3>\n<\/div>\n<\/div><\/div>\n\n\n\n<div class=\"gb-element-f2ae4393\">\n<a class=\"gb-text gb-text-bb1a7645\" href=\"\/docs\/validation-cases\/\">Read More Blog Posts<\/a>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-32f2944a\">\n<div class=\"gb-element-bc210e37\">\n<h2 class=\"gb-text gb-text-4da796b6\">Public Projects<\/h2>\n\n\n\n<div>\n<p class=\"gb-text gb-text-e751a3fe\">Check out the latest thermal management simulations performed in SimScale and validated against experimental and\/or analytical results.<\/p>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-element-adfe5558 project-section-wrapper\">\n<style>\n\/*\n * Full CSS for the SimScale Project Cards Quick Fix\n *\/\n\/* Main Section Wrapper *\/\n.project-section-wrapper {\n    max-width: 1920px;\n    margin-left: auto;\n    margin-right: auto;\n    padding-left: clamp(30px, 10vw, 192px);\n    padding-right: clamp(30px, 10vw, 192px);\n    box-sizing: border-box;\n}\n\/* Card Grid Container *\/\n.hw-projectCardList {\n    display: grid !important;\n    grid-template-columns: repeat(4, 1fr) !important;\n    column-gap: 24px !important;\n    row-gap: 24px !important;\n    margin-top: 0 !important; \/* --- ADDED: Removes top margin --- *\/\n    margin-bottom: 0 !important; \/* --- ADDED: Removes bottom margin --- *\/\n}\n\/* Individual Card 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gb-accordion__toggle-icon-524c799b\"><span class=\"gb-accordion__toggle-icon-open\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"208 96 128 176 48 96\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><span class=\"gb-accordion__toggle-icon-close\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"48 160 128 80 208 160\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><\/span>\n<\/div>\n\n\n\n<div class=\"gb-accordion__content\" id=\"gb-accordion-content-78b50efa\">\n<div class=\"gb-element-dd7ed41f\">\n<p class=\"gb-text gb-text-63bf9051\">Sign up for a free Community account, then open one of SimScale&#8217;s public electric motor projects to explore a pre-configured simulation setup. Modify the geometry, adjust operating parameters, and run your first electromagnetic or thermal simulation \u2014 all within your browser in minutes.<\/p>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-accordion__item gb-accordion__item-678d8658\">\n<div role=\"button\" tabindex=\"0\" class=\"gb-accordion__toggle gb-accordion__toggle-5f4972c8\" id=\"gb-accordion-toggle-5f4972c8\">\n<span class=\"gb-text gb-text-b1930476\">What types of electric motors can I simulate in SimScale?<\/span>\n\n\n\n<span class=\"gb-accordion__toggle-icon gb-accordion__toggle-icon-31c3eba3\"><span class=\"gb-accordion__toggle-icon-open\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"208 96 128 176 48 96\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><span class=\"gb-accordion__toggle-icon-close\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"48 160 128 80 208 160\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><\/span>\n<\/div>\n\n\n\n<div class=\"gb-accordion__content\" id=\"gb-accordion-content-9eac34c2\">\n<div class=\"gb-element-c09fe516\">\n<p class=\"gb-text gb-text-fa50f6fa\">SimScale supports a wide range of motor topologies including brushless DC (BLDC) motors, permanent magnet synchronous motors (PMSM), induction motors (single-phase and three-phase), switched reluctance motors (SRM), and axial flux machines. Each can be analyzed for electromagnetic performance, thermal behavior, and structural integrity.<\/p>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-accordion__item gb-accordion__item-cad705a8\">\n<div role=\"button\" tabindex=\"0\" class=\"gb-accordion__toggle gb-accordion__toggle-19b650ec\" id=\"gb-accordion-toggle-19b650ec\">\n<span class=\"gb-text gb-text-d3506eca\">How does SimScale&#8217;s cloud-based approach differ from desktop motor design software?<\/span>\n\n\n\n<span class=\"gb-accordion__toggle-icon gb-accordion__toggle-icon-7c2ec28c\"><span class=\"gb-accordion__toggle-icon-open\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"208 96 128 176 48 96\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><span class=\"gb-accordion__toggle-icon-close\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"48 160 128 80 208 160\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><\/span>\n<\/div>\n\n\n\n<div class=\"gb-accordion__content\" id=\"gb-accordion-content-19ee5ee8\">\n<div class=\"gb-element-2928a0a6\">\n<p class=\"gb-text gb-text-3c64ef32\">Traditional motor design software like Ansys Motor-CAD or Siemens Simcenter runs on local workstations, requiring hardware investment and license management. SimScale runs entirely in your browser \u2014 no installation, no hardware constraints. You get access to scalable cloud computing for running multiple simulations in parallel, which dramatically accelerates design iteration. Teams can collaborate on the same project from anywhere.<\/p>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-accordion__item gb-accordion__item-6ae6bf57\">\n<div role=\"button\" tabindex=\"0\" class=\"gb-accordion__toggle gb-accordion__toggle-188f7b8a\" id=\"gb-accordion-toggle-188f7b8a\">\n<span class=\"gb-text gb-text-f9ed0b82\">Can SimScale simulate electromagnetic-thermal coupling in electric motors?<\/span>\n\n\n\n<span class=\"gb-accordion__toggle-icon gb-accordion__toggle-icon-0dfc9670\"><span class=\"gb-accordion__toggle-icon-open\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"208 96 128 176 48 96\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><span class=\"gb-accordion__toggle-icon-close\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"48 160 128 80 208 160\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><\/span>\n<\/div>\n\n\n\n<div class=\"gb-accordion__content\" id=\"gb-accordion-content-b9bfa090\">\n<div class=\"gb-element-06ffba48\">\n<p class=\"gb-text gb-text-bb4f86ed\">Yes. SimScale automatically maps electromagnetic losses (Joule heating, core losses) as heat sources in thermal analyses. This two-way coupling captures how temperature changes affect material properties like resistivity and magnetic permeability, giving you accurate predictions of motor performance under sustained operation.<\/p>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-accordion__item gb-accordion__item-2117c5ea\">\n<div role=\"button\" tabindex=\"0\" class=\"gb-accordion__toggle gb-accordion__toggle-11fc5447\" id=\"gb-accordion-toggle-11fc5447\">\n<span class=\"gb-text gb-text-140f279f\">Does SimScale support NVH analysis for electric motors?<\/span>\n\n\n\n<span class=\"gb-accordion__toggle-icon gb-accordion__toggle-icon-ebcbef1f\"><span class=\"gb-accordion__toggle-icon-open\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"208 96 128 176 48 96\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><span class=\"gb-accordion__toggle-icon-close\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"48 160 128 80 208 160\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><\/span>\n<\/div>\n\n\n\n<div class=\"gb-accordion__content\" id=\"gb-accordion-content-387b32b1\">\n<div class=\"gb-element-a97ae1ff\">\n<p class=\"gb-text gb-text-f5699540\">SimScale offers modal and harmonic analysis to identify natural frequencies and resonance risks in motor housings, stators, and mounting structures. This helps engineers avoid frequency coincidence between electromagnetic excitation forces and structural modes \u2014 the primary cause of electric motor whine and vibration noise.<\/p>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-accordion__item gb-accordion__item-f36bde54\">\n<div role=\"button\" tabindex=\"0\" class=\"gb-accordion__toggle gb-accordion__toggle-d43e78b7\" id=\"gb-accordion-toggle-d43e78b7\">\n<span class=\"gb-text gb-text-e737a6ae\">What simulation types are available for electric motor design in SimScale?<\/span>\n\n\n\n<span class=\"gb-accordion__toggle-icon gb-accordion__toggle-icon-2d4769c1\"><span class=\"gb-accordion__toggle-icon-open\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"208 96 128 176 48 96\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><span class=\"gb-accordion__toggle-icon-close\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"48 160 128 80 208 160\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><\/span>\n<\/div>\n\n\n\n<div class=\"gb-accordion__content\" id=\"gb-accordion-content-7b8fa9f7\">\n<div class=\"gb-element-c21d58ab\">\n<p class=\"gb-text gb-text-abfb83bd\">SimScale covers magnetostatics, time-harmonic magnetics, electromagnetic-thermal coupling, conjugate heat transfer (CHT), static stress analysis, and modal\/harmonic response analysis. This multiphysics coverage lets you evaluate your motor&#8217;s electrical efficiency, cooling performance, and mechanical durability in a single platform.<\/p>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-accordion__item gb-accordion__item-015c5bbf\">\n<div role=\"button\" tabindex=\"0\" class=\"gb-accordion__toggle gb-accordion__toggle-15dc0c7f\" id=\"gb-accordion-toggle-15dc0c7f\">\n<span class=\"gb-text gb-text-ec00547a\">Can I use AI to accelerate electric motor design in SimScale?<\/span>\n\n\n\n<span class=\"gb-accordion__toggle-icon gb-accordion__toggle-icon-7d96b6a9\"><span class=\"gb-accordion__toggle-icon-open\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"208 96 128 176 48 96\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><span class=\"gb-accordion__toggle-icon-close\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"48 160 128 80 208 160\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><\/span>\n<\/div>\n\n\n\n<div class=\"gb-accordion__content\" id=\"gb-accordion-content-cdd92ec6\">\n<div class=\"gb-element-d975bce4\">\n<p class=\"gb-text gb-text-ba147183\">Yes. SimScale AI uses surrogate models and pre-trained foundation models to deliver performance predictions in seconds. You can explore thousands of design variants \u2014 varying winding configurations, rotor geometries, and magnet placement \u2014 and shortlist the best candidates before running full-fidelity electromagnetic simulations.<\/p>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<div class=\"gb-accordion__item gb-accordion__item-e304034e\">\n<div role=\"button\" tabindex=\"0\" class=\"gb-accordion__toggle gb-accordion__toggle-830e00b0\" id=\"gb-accordion-toggle-830e00b0\">\n<span class=\"gb-text gb-text-2d974deb\">Is SimScale suitable for EV traction motor development?<\/span>\n\n\n\n<span class=\"gb-accordion__toggle-icon gb-accordion__toggle-icon-d8901d38\"><span class=\"gb-accordion__toggle-icon-open\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"208 96 128 176 48 96\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><span class=\"gb-accordion__toggle-icon-close\"><svg aria-hidden=\"true\" viewBox=\"0 0 256 256\"><rect width=\"256\" height=\"256\" fill=\"none\"><\/rect><polyline points=\"48 160 128 80 208 160\" fill=\"none\" stroke=\"currentColor\" stroke-linecap=\"round\" stroke-linejoin=\"round\" stroke-width=\"16\"><\/polyline><\/svg><\/span><\/span>\n<\/div>\n\n\n\n<div class=\"gb-accordion__content\" id=\"gb-accordion-content-53bb0503\">\n<div class=\"gb-element-e7570665\">\n<p class=\"gb-text gb-text-6222b689\">Absolutely. SimScale&#8217;s multiphysics capabilities are well-suited for EV traction motor design where electromagnetic efficiency, thermal management of permanent magnets, and NVH performance are all critical. Customers like Emil Motors and Rimac Automobili have used SimScale to accelerate electric vehicle motor development.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n\n\n\n<script type=\"application\/ld+json\" nonce=\"1a8d39aeb2f580d09841762ec6fa985a\"=\"\">\n{\n  \"@context\": \"https:\/\/schema.org\",\n  \"@type\": \"FAQPage\",\n  \"mainEntity\": [\n    {\n      \"@type\": \"Question\",\n      \"name\": \"What is electric motor simulation?\",\n      \"acceptedAnswer\": {\n        \"@type\": \"Answer\",\n        \"text\": \"Electric motor simulation uses numerical methods like finite element analysis (FEA) and computational fluid dynamics (CFD) to model the electromagnetic, thermal, and structural behavior of a motor before physical prototyping. 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You can explore thousands of design variants \u2014 varying winding configurations, rotor geometries, and magnet placement \u2014 and shortlist the best candidates before running full-fidelity electromagnetic simulations.\"\n      }\n    },\n    {\n      \"@type\": \"Question\",\n      \"name\": \"Is SimScale suitable for EV traction motor development?\",\n      \"acceptedAnswer\": {\n        \"@type\": \"Answer\",\n        \"text\": \"Absolutely. SimScale's multiphysics capabilities are well-suited for EV traction motor design where electromagnetic efficiency, thermal management of permanent magnets, and NVH performance are all critical. 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