Gearbox

Simulation

Analyze your gearbox design, whether if it is an industrial gearbox, an automotive transmission, an electric drive, an axle, or more.

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Formula Gearbox
Industrial Gearbox
Automatic Transmission

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Simulate What You Couldn’t Before

Innovative & Reliable
Splash Lubrication
Ensure proper wetting of all components to reduce wear and analyze the effectiveness of oil pockets and baffle plates.
Spray Lubrication
Test nozzle designs, positions, and flow rates of forced oil circulation to apply the precise amount of oil exactly where it is needed.
Heat Transfer
Extend gearbox durability by optimizing cooling conditions.
Power Losses
Minimize oil churning losses to improve efficiency and reduce energy consumption.
Windage
Prevent oil deflection by simulating the effects of air-drag in high-speed gearboxes.

Empower Your Engineering Projects with Dive's Advanced Simulation Tool

Discover the Perfect Fit for Your Industry Needs.

SEW-2025-iCoG

agreement with experiments
Hybrid method enables housing temperature prediction with high accuracy.
Publication

Schaeffler-2025-VDI-GleitUWL

faster TTR
Efficient analysis methods and a broad availabitly support insights beyond standard methods
Publication

Nvidia-2025-Nafems-World

faster than 120-core CPU
Cloud GPU architecture reduce costs by up to 10x and speeds up to 240x
Publication

NGC-2025-CWD

Reliable Methodology
V-model inspired methodology enables a simple full-system analysis
Publication

NGC-2025-iCoG

Reduction in churning losses
Improved design saves 21kW and helps supply an additional 23 households with renewable energies
Publication

NGC-2024-Nafems America

Project-time for optimized version
Parallel analysis of 9 configuraitons shows optimal design
Publication

Miele-2025-Nafems-SSuT

Enablement
Reduced Order Model trained with Synthetic Data predicts defects in pumps
Publication

Dive-2025-GEARS

Accuracy Validated
Oil distribution and Churning loss validation
Publication

BWB-2021-Nafems-World

Faster TTR
140 water plant simulations in 2 days
Publication

BMW-2025-Nafems-World

Faster TTR w/o Extra cost
At least 5x Faster TaT in peak load scenarios compared to On-premise
Publication

BSH-2024-SPHERIC

Application
Only available solver that accurately captures water flow and wetting of laundry in washing machines.
Publication

TU-Munich-2024-SPHERIC

Faster Time to Result
Non-Newtonian (shear rate dependent) materials simulated in industrial cases.
Publication

Kaercher-2024-SPHERIC

Faster Time to Market
Virtual testing provides information without waiting for prototypes close to series production.
Publication

Fraunhofer-TU Berlin-2024-SPHERIC

Reduction in Coolant Consumption
Innovative tooling design leads to optimized cooling behavior.
Publication

Kaercher-2022-Nafems-DACH

Faster Design Study
Fast meshing-free setups reduced oil and casting material for more sustainable products.​
Publication

Schaeffler-2024-Spheric

Cost Reduction
Automatable setups enable specific, sustainable and high efficiency drivetrain solutions.
Publication

Kessler-2024-SPHERIC

Reduction in Churning Losses
Optimization of design spaces significantly reduces losses and oil dwelling time.
Publication

NGC-2023-iCoG

More Effective Lubrication​
Virtual design space exploration avoids wind power plant downtime from wear.
Publication

SEW-2024-SPHERIC

Design Validation
Oil distribution of different designs is analyzed under a wide range of boundary conditions.
Publication

Dive-2024-Nafems-DACH

Speed-up
Accurate prediction of heat transfer in e-motor allows rapid design space exploration.
Publication

TU-Dresden-2023-AGMA-FTM

Faster than Testing New Prototypes
Replicating a full test rig run of 2 weeks with 6 hours of simulation.
Publication

Dive-2024-AGMA-FTM

Shorter Development Time
Evaluating 144 cooling nozzle variations in parallel, fully automated.
Publication

300 %

More Effective Lubrication​
Virtual design space exploration avoids wind power plant downtime from wear.
Publication

40%

Reduction in Churning Losses
Optimization of design spaces significantly reduces losses and oil dwelling time.
Publication

45x

Faster than Testing New Prototypes
Replicating a full test rig run of 2 weeks with 6 hours of simulation.
Publication

90%

Shorter Development Time
Evaluating 144 cooling nozzle variations in parallel, fully automated.
Publication

Parallel

Design Validation
Oil distribution of different designs is analyzed under a wide range of boundary conditions.
Publication

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