김경종
67 lines
3.5 KiB
Markdown
67 lines
3.5 KiB
Markdown
---
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type: concept
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title: "Abaqus Nonlinear Solution Control"
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complexity: advanced
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domain: computational-mechanics
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created: 2026-05-29
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updated: 2026-06-01
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address: c-000081
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aliases:
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- Abaqus convergence controls
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- Abaqus nonlinear controls
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- Abaqus Newton iteration controls
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tags:
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- concept
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- finite-element-method
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- abaqus
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- nonlinear-analysis
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- convergence
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status: current
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related:
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- "[[Abaqus-Analysis-User-s-Guide-Volume-II|Abaqus Analysis User's Guide Volume II]]"
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- "[[Abaqus-Analysis-User-s-Guide-Volume-V|Abaqus Analysis User's Guide Volume V]]"
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- "[[Nonlinear Finite Element Analysis]]"
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- "[[Abaqus Prescribed Conditions and Amplitudes]]"
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- "[[Abaqus Contact Formulations and Enforcement]]"
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- "[[Abaqus Contact Diagnostics and Modeling Difficulties]]"
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- "[[Static Equilibrium Equation Solvers]]"
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- "[[Direct Time Integration Methods]]"
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- "[[Abaqus Analysis Procedures]]"
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sources:
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- "[[Abaqus-Analysis-User-s-Guide-Volume-II|Abaqus Analysis User's Guide Volume II]]"
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- "[[Abaqus-Analysis-User-s-Guide-Volume-V|Abaqus Analysis User's Guide Volume V]]"
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---
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# Abaqus Nonlinear Solution Control
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## Definition
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Abaqus nonlinear solution control is the set of increment, iteration, convergence, stabilization, and time-integration accuracy settings used by Abaqus/Standard to solve nonlinear analyses.
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## How It Works
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In nonlinear Abaqus/Standard procedures, a step is broken into increments. At the end of each increment Abaqus attempts to find an equilibrium configuration. Each iteration computes a correction using a tangent stiffness, updates the configuration, computes internal forces, and compares residuals and corrections against convergence criteria.
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If the iteration diverges or fails to meet tolerances, Abaqus may cut back the increment and retry. Automatic incrementation is usually preferred because it responds to nonlinear changes that are difficult to predict before the run.
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The guide also separates force residual convergence, correction-size checks, commonly used control parameters, automatic stabilization for unstable static problems, and transient time-integration accuracy checks.
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[[Abaqus-Analysis-User-s-Guide-Volume-V|Volume V]] adds two common sources of nonlinear difficulty: abrupt prescribed-condition histories and contact enforcement. Amplitude choices, boundary-condition removal, contact penalty or direct enforcement, initial overclosures, redundant contact constraints, and poorly discretized surfaces can all drive cutbacks or nonconvergence.
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## Why It Matters
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Nonlinear failure is often not a material or element problem alone. It can reflect step size, stabilization, contact status, load amplitude, solver controls, or transient accuracy. This page is the operational counterpart to [[Nonlinear Finite Element Analysis]].
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## Connections
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- [[Static Equilibrium Equation Solvers]] supplies the linear solves inside Newton iterations.
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- [[Direct Time Integration Methods]] supplies the transient integration context for dynamic steps.
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- [[Abaqus Prescribed Conditions and Amplitudes]] controls load and boundary-condition histories.
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- [[Abaqus Contact Formulations and Enforcement]] and [[Abaqus Contact Diagnostics and Modeling Difficulties]] cover contact-specific convergence drivers.
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- [[Abaqus Resource and Parallel Execution]] affects the cost of repeated tangent solves and cutbacks.
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## Sources
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- [[Abaqus-Analysis-User-s-Guide-Volume-II|Abaqus Analysis User's Guide Volume II]]
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- [[Abaqus-Analysis-User-s-Guide-Volume-V|Abaqus Analysis User's Guide Volume V]]
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