Creo Simulation

PTC
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Product overview
Creo Simulation is part of the Creo suite of design software from PTC, offering advanced simulation capabilities including structural, thermal, and motion analysis to validate and optimize product designs.
Operating Systems
Windows             Linux
Data Storage
 On-Premises Storage
Industry served

 Automotive

 Aerospace

 Robotics & Automation

 Energy

 Defence

 Construction Equipment

 Offshore & Marine

 Education & Research

 Biomechanics

 Consumer Products

 Consumer Electronics

 Heavy Machineries

 Sports Engineering

 Rail Industry


"> Rail Industry


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Simulation types

Kinematic Analysis
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Kinematic Analysis: Examines the motion of assemblies without considering the forces that cause it. Focuses on parameters like velocity, acceleration, and the trajectory of moving parts
Dynamic Analysis
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Dynamic Analysis: Goes a step further than kinematic analysis by considering the forces and moments causing the motion. Analyzes the effects of loads, inertia, damping, and other forces on the movement of assemblies
Static Analysis
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Static Analysis: Evaluates the system under static (non-moving) conditions. Focuses on how forces and moments are distributed across the assembly when it's in a steady state
Flexible Body Dynamics
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Flexible Body Dynamics: Involves the study of components that deform under load. Takes into account the bending, stretching, or compressing of parts, unlike rigid body dynamics
Vibration Analysis
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Vibration Analysis: Examines how oscillatory forces affect the system. Crucial for understanding and mitigating unwanted vibrations that could lead to noise issues or mechanical failures.
Fatigue Analysis
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Fatigue Analysis: Assesses the durability of components by simulating repeated loads or movements over time. Helps in predicting where and when a part might fail due to material fatigue
Thermal Analysis
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Thermal Analysis: Looks at how heat affects the motion of parts, or conversely, how motion affects temperature changes. Particularly important in systems where thermal effects significantly impact performance
Multi-body Dynamics (MBD)
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Multi-body Dynamics (MBD): Simulates the interaction of multiple interconnected bodies in a system. Considers their mass and the forces acting upon them
Impact Analysis
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Impact Analysis: Studies the effects of sudden forces, like crashes or drops, on the system. Especially relevant for safety evaluations in the automotive and aerospace industries
Contact Analysis
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Contact Analysis: Focuses on how different parts of an assembly come into contact. Includes the effects of friction, wear, and impact
Control Systems Integration
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Control Systems Integration: Involves the study of mechanical systems with integrated control logic or electronics. Examines how the control systems influence the movement of mechanical parts
Optimization Studies
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Optimization Studies: Involves adjusting parameters within a given design space to find the optimal design. Focuses on criteria like minimum weight, maximum strength, or optimal performance.
Parametric Studies
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Parametric Studies: Similar to optimization studies but focuses on understanding how changes in parameters affect the behavior of the system.
Coupled Physics Analysis
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Coupled Physics Analysis: Combines multiple types of physical analyses (like structural, fluid dynamics, and thermal). Examines how they interact in a single simulation
Realistic Contact Mechanics
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Realistic Contact Mechanics: Accurately models the physical contact between components. Considers how they touch, slide, collide, and exert forces on each other
Friction Modeling
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Friction Modeling: Detailed modeling of frictional forces at contact points. Includes static, dynamic, and rolling friction models
Adhesion and Cohesion Forces
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Adhesion and Cohesion Forces: Models adhesive or cohesive forces between surfaces. Necessary in micro-mechanical or biological applications
Soft Body Contact Modeling
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Soft Body Contact Modeling: For simulations involving soft materials, like rubber or biological tissue. Accurately models how these materials compress and interact
Surface Roughness Effects
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Surface Roughness Effects: Accounts for the effects of surface roughness on contact interactions. Significant for performance in certain applications
Multipoint Contact Handling
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Multipoint Contact Handling: Ability to simulate contact scenarios involving multiple points of contact simultaneously. Essential for complex assemblies
Contact Force Calculations
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Contact Force Calculations: Precise calculation of forces at contact points. Necessary for assessing stresses and predicting material behavior under load
Interference Fit and Preload Analysis
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Interference Fit and Preload Analysis: Analyzes scenarios where components are press-fit or preloaded. Affects the stress distribution and overall assembly behavior
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