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# Record Record type key
512(S) Magnitude and phase angle of connector relative displacements Output variable: PHCU
513(S) Magnitude and phase angle of connector constitutive displacements Output variable: PHCCU
522(S) Magnitude and phase angle of connector relative velocities Output variable: PHCV
523(S) Magnitude and phase angle of connector relative accelerations Output variable: PHCA
543(S) Magnitude and phase angle of friction-generating connector force Output variable: PHCNF
# Attributes
1. Magnitude of the first component.
2. Magnitude of the second component.
4. Phase angle of the first component.
5. Phase angle of the second component.
6. Etc.
1. Magnitude of the first component.
2. Magnitude of the second component.
3. Etc.
4. Phase angle of the first component.
5. Phase angle of the second component.
6. Etc.
1. Magnitude of the first component.
2. Magnitude of the second component.
3. Etc.
4. Phase angle of the first component.
5. Phase angle of the second component.
6. Etc.
1. Magnitude of the first component.
2. Magnitude of the second component.
3. Etc.
4. Phase angle of the first component.
5. Phase angle of the second component.
6. Etc.
1. Magnitude of the first component of frictiongenerating connector force.
2. Magnitude of the second component of frictiongenerating connector force.
3. Etc.
4. Phase angle of the first component of frictiongenerating connector force.
5. Phase angle of the second component of frictiongenerating connector force.
6. Etc.
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# Record Record type key
547(S) Magnitude and phase angle of connector relative velocity in the direction of instantaneous slip Output variable: PHCIVSL
514(S) RMS values of connector total forces Output variable: RCTF
515(S) RMS values of connector elastic forces Output variable: RCEF
516(S) RMS values of connector viscous forces Output variable: RCVF
517(S) RMS values of connector reaction forces Output variable: RCRF
521(S) RMS values of connector friction forces Output variable: RCSF
518(S) RMS values of connector relative displacements Output variable: RCU
519(S) RMS values of connector constitutive displacements Output variable: RCCU
544(S) RMS values of connector force generating friction Output variable: RCNF
# Attributes
1. Magnitude of connector relative velocity in the direction of instantaneous slip. 2. Phase angle of connector relative velocity in the direction of instantaneous slip.
1. First component of force. 2. Second component of force. 3. Etc.
1. First component of force. 2. Second component of force. 3. Etc.
1. First component of force. 2. Second component of force. 3. Etc.
1. First component of force. 2. Second component of force. 3. Etc.
1. First component of force. 2. Second component of force. 3. Etc.
1. First component of relative displacements. 2. Second component of relative displacements. 3. Etc.
1. First component of constitutive displacements. 2. Second component of constitutive displacements. 3. Etc.
1. RMS values of first component of frictiongenerating connector force. 2. RMS values of second component of frictiongenerating connector force. 3. Etc.
# Records for fluid link elements (available only for linear dynamics)
94(S) Magnitude and phase angle of mass flow rate Output variable: PHMFL
1. Magnitude. 2. Phase angle.
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Record Record type Attributes key
<table><tr><td rowspan="3">95(S)</td><td rowspan="2">Magnitude and phase angle of total mass flow</td><td>1. Magnitude.</td></tr><tr><td>2. Phase angle.</td></tr><tr><td>Output variable: PHMFT</td><td></td></tr></table>
# Records for output of element volumes
The following three variables are not available for eigenfrequency extraction, complex eigenfrequency extraction, eigenvalue buckling prediction, or linear dynamics procedures. They are available only for continuum and structural elements not using general beam or shell section definitions.
<table><tr><td> $76^{(S)}$ </td><td>Integration point volumeOutput variable: IVOL</td><td>1. Current integration point volume. Section point volume in the case of beams and shells.</td></tr><tr><td> $77^{(S)}$ </td><td>Section volumeOutput variable: SVOL</td><td>1. Current section volume.</td></tr><tr><td> $78^{(S)}$ </td><td>Whole element volumeOutput variable: EVOL</td><td>1. Current element volume.</td></tr></table>
Record for solid elements in an adaptive mesh domain in Abaqus/Standard
<table><tr><td rowspan="2">264(S)</td><td>Change in volume.</td><td rowspan="2">1. Change in area or volume of an element set solely due to adaptive meshing.</td></tr><tr><td>Output variable: VOLC</td></tr></table>
Records written for any node file output request
<table><tr><td>Record key</td><td>Record type</td><td>Attributes</td></tr><tr><td>101</td><td>DisplacementsOutput variable: U</td><td>1. Node number.2. First component of displacement.3. Second component of displacement.4. Etc.</td></tr><tr><td>102</td><td>VelocitiesOutput variable: V</td><td>1. Node number.2. First component of velocity.3. Second component of velocity.4. Etc.</td></tr><tr><td>103</td><td>AccelerationsOutput variable: A</td><td>1. Node number.2. First component of acceleration.3. Second component of acceleration.4. Etc.</td></tr><tr><td>104</td><td>Reaction forcesOutput variable: RF</td><td>1. Node number.2. First component of reaction force.</td></tr></table>
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Record Record type key
<table><tr><td></td><td></td><td>3. Second component of reaction force.4. Etc.</td></tr><tr><td> $105^{(S)}$ </td><td>Electrical potentialOutput variable: EPOT</td><td>1. Node number.2. Magnitude.</td></tr><tr><td> $106^{(S)}$ </td><td>Point loads, moments, fluxesOutput variable: CF</td><td>1. Node number.2. First component of load or flux.3. Second component of load or flux.4. Etc.</td></tr><tr><td>107</td><td>CoordinatesOutput variable: COORD</td><td>1. Node number.2. First coordinate.3. Second coordinate.4. Etc.</td></tr><tr><td>108</td><td>Pore or acoustic pressureOutput variable: POR</td><td>1. Node number.2. Pressure.</td></tr><tr><td> $109^{(S)}$ </td><td>Reactive fluid volume fluxOutput variable: RVF</td><td>1. Node number.2. Reaction fluid volume flux.</td></tr><tr><td> $110^{(S)}$ </td><td>Reactive fluid total volumeOutput variable: RVT</td><td>1. Node number.2. Reaction fluid total volume.</td></tr><tr><td> $119^{(S)}$ </td><td>Electrical reaction chargesOutput variable: RCHG</td><td>1. Node number.2. Charge scalar value.</td></tr><tr><td> $120^{(S)}$ </td><td>Concentrated electricalnodal chargesOutput variable: CECHG</td><td>1. Node number.2. Current scalar value.</td></tr><tr><td>136</td><td>Fluid cavity pressureOutput variable: PCAV</td><td>1. Fluid cavity reference node number.2. Pressure.</td></tr><tr><td>137</td><td>Fluid cavity volumeOutput variable: CVOL</td><td>1. Fluid cavity reference node number.2. Volume.</td></tr><tr><td> $138^{(S)}$ </td><td>Electrical reaction currentOutput variable: RECUR</td><td>1. Node number.2. Electrical current.</td></tr><tr><td> $139^{(S)}$ </td><td>Concentrated electricalnodal currentOutput variable: CECUR</td><td>1. Node number.2. Electrical current.</td></tr></table>
Attributes
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Record Record type key
<table><tr><td>145(S)</td><td>Viscous forces due to static stabilizationOutput variable: VF</td></tr></table>
<table><tr><td>146(S)</td><td>Total forcesOutput variable: TF</td></tr></table>
<table><tr><td>151(E)</td><td>Acoustic absolute pressureOutput variable: PABS</td></tr></table>
<table><tr><td>201</td><td>TemperaturesOutput variable: NT</td></tr></table>
<table><tr><td>204(S)</td><td>Residual fluxesOutput variable: RFL</td></tr></table>
<table><tr><td>204(E)</td><td>Reaction fluxesOutput variable: RFL</td></tr></table>
<table><tr><td>206(S)</td><td>Concentrated fluxesOutput variable: CFL</td></tr></table>
<table><tr><td>214(S)</td><td>Internal fluxesOutput variable: RFLE</td></tr></table>
<table><tr><td>221(S)</td><td>Normalized concentration (mass diffusion analysis)Output variable: NNC</td></tr></table>
<table><tr><td>237(S)</td><td>Motions (in cavity radiation analysis)Output variable: MOT</td></tr></table>
<table><tr><td>320(S)</td><td>Concentrated fluid flowOutput variable: CFF</td></tr></table>
Attributes
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>First component of viscous force.</td></tr><tr><td>3.</td><td>Second component of viscous force.</td></tr><tr><td>4.</td><td>Etc.</td></tr></table>
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>First component of total force.</td></tr><tr><td>3.</td><td>Second component of total force.</td></tr><tr><td>4.</td><td>Etc.</td></tr></table>
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>Absolute pressure.</td></tr><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>Temperature.</td></tr><tr><td>3.</td><td>Etc. (for heat shell</td></tr></table>
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>Residual flux.</td></tr><tr><td>3.</td><td>Etc. (for heat shells)</td></tr></table>
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>First component of reaction flux.</td></tr><tr><td>3.</td><td>Second component of reaction flux.</td></tr><tr><td>4.</td><td>Etc.</td></tr></table>
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>Concentrated flux.</td></tr><tr><td>3.</td><td>Etc. (for heat shells)</td></tr></table>
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>Flux, excluding external flux.</td></tr><tr><td>3.</td><td>Etc. (for heat shells)</td></tr></table>
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>Concentration.</td></tr></table>
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>First component of motion.</td></tr><tr><td>3.</td><td>Second component of motion.</td></tr><tr><td>4.</td><td>Etc.</td></tr></table>
<table><tr><td>1.</td><td>Node number.</td></tr><tr><td>2.</td><td>Magnitude of fluid flow.</td></tr></table>
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# Record Record type key
Records for linear dynamics
<table><tr><td>111(S)</td><td>Magnitude and phase angle of relative displacementOutput variable: PU</td></tr></table>
<table><tr><td>112(S)</td><td>Magnitude and phase angle of total displacementOutput variable: PTU</td></tr></table>
<table><tr><td>113(S)</td><td>Total displacementOutput variable: TU</td></tr></table>
<table><tr><td>114(S)</td><td>Total velocityOutput variable: TV</td></tr></table>
<table><tr><td>115(S)</td><td>Total accelerationOutput variable: TA</td></tr></table>
<table><tr><td>116(S)</td><td>Magnitude and phase angle of acoustic or fluid cavity pressureOutput variable: PPOR</td></tr></table>
<table><tr><td>117(S)</td><td>Magnitude and phase angle of electrical potentialOutput variable: PHPOT</td></tr></table>
# Attributes
1. Node number.
2. Magnitude of first displacement component.
3. Magnitude of second displacement component.
4. Etc.
5. Phase angle of first displacement component.
6. Phase angle of second displacement component.
1. Node number.
2. Magnitude of first displacement component.
3. Magnitude of second displacement component.
4. Etc.
5. Phase angle of first displacement component.
6. Phase angle of second displacement component.
7. Etc.
1. Node number.
2. First component of displacement.
3. Second component of displacement.
4. Etc.
1. Node number.
2. First component of velocity.
3. Second component of velocity.
4. Etc.
1. Node number.
2. First component of acceleration.
3. Second component of acceleration.
4. Etc.
1. Node number.
2. Magnitude of pressure.
3. Phase angle of pressure.
1. Node number.
2. Magnitude of potential.
3. Phase angle of potential.
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<table><tr><td>Record key</td><td>Record type</td><td>Attributes</td></tr><tr><td> $118^{(S)}$ </td><td>Magnitude and phase angle of reactive charge (piezoelectric analysis)Output variable: PHCHG</td><td>1. Node number.2. Magnitude of charge.3. Phase angle of charge.</td></tr><tr><td> $123^{(S)}$ </td><td>RMS values of relative displacementOutput variable: RU</td><td>1. Node number.2. First component of displacement.3. Second component of displacement.4. Etc.</td></tr><tr><td> $124^{(S)}$ </td><td>RMS values of total displacementOutput variable: RTU</td><td>1. Node number.2. First component of displacement.3. Second component of displacement.4. Etc.</td></tr><tr><td> $127^{(S)}$ </td><td>RMS values of relative velocityOutput variable: RV</td><td>1. Node number.2. First component of velocity.3. Second component of velocity.4. Etc.</td></tr><tr><td> $128^{(S)}$ </td><td>RMS values of total velocityOutput variable: RTV</td><td>1. Node number.2. First component of velocity.3. Second component of velocity.4. Etc.</td></tr><tr><td> $131^{(S)}$ </td><td>RMS values of relative accelerationOutput variable: RA</td><td>1. Node number.2. First component of acceleration.3. Second component of acceleration.4. Etc.</td></tr><tr><td> $132^{(S)}$ </td><td>RMS values of total accelerationOutput variable: RTA</td><td>1. Node number.2. First component of acceleration.3. Second component of acceleration.4. Etc.</td></tr><tr><td> $134^{(S)}$ </td><td>RMS values of reaction forcesOutput variable: RRF</td><td>1. Node number.2. First component of reaction force.3. Second component of reaction force.4. Etc.</td></tr><tr><td> $135^{(S)}$ </td><td>Magnitude and phase angle of reaction forceOutput variable: PRF</td><td>1. Node number.2. Magnitude of first component of reaction force.3. Magnitude of second component of reaction force.</td></tr></table>
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# Record Record type key
# Attributes
4. Etc.
5. Phase angle of first component of reaction force.
6. Phase angle of second component of reaction force.
7. Etc.
Records written for any modal file output request during mode-based dynamic analysis
<table><tr><td>Record key</td><td>Record type</td><td>Attributes</td></tr><tr><td> $301^{(S)}$ </td><td>Generalized displacementsOutput variable: GU</td><td>1. First generalized displacement.2. Second generalized displacement.3. Etc.</td></tr><tr><td> $302^{(S)}$ </td><td>Generalized velocitiesOutput variable: GV</td><td>1. First generalized velocity.2. Second generalized velocity.3. Etc.</td></tr><tr><td> $303^{(S)}$ </td><td>Generalized accelerationsOutput variable: GA</td><td>1. First generalized acceleration.2. Second generalized acceleration.3. Etc.</td></tr><tr><td> $304^{(S)}$ </td><td>Base motionsOutput variable: BM</td><td>1. 1 if displacement, 2 if velocity, 3 if acceleration.2. x-direction component.3. y-direction component.4. z-direction component.5. x-rotation component.6. y-rotation component.7. z-rotation component.8. Base name.</td></tr><tr><td> $305^{(S)}$ </td><td>Phase angle of generalized displacementOutput variable: GPU</td><td>1. Phase angle of generalized displacement for first mode.2. Phase angle of generalized displacement for second mode.3. Etc.</td></tr><tr><td> $306^{(S)}$ </td><td>Phase angle of generalized velocityOutput variable: GPV</td><td>1. Phase angle of generalized velocity for first mode.2. Phase angle of generalized velocity for second mode.3. Etc.</td></tr></table>
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<table><tr><td>Record key</td><td>Record type</td><td>Attributes</td></tr><tr><td> $307^{(S)}$ </td><td>Phase angle of generalized accelerationOutput variable: GPA</td><td>1. Phase angle of generalized acceleration for first mode.2. Phase angle of generalized acceleration for second mode.3. Etc.</td></tr><tr><td> $308^{(S)}$ </td><td>Strain energy per modeOutput variable: SNE</td><td>1. Strain energy for first mode.2. Strain energy for second mode.3. Etc.</td></tr><tr><td> $309^{(S)}$ </td><td>Kinetic energy per modeOutput variable: KE</td><td>1. Kinetic energy for first mode.2. Kinetic energy for second mode.3. Etc.</td></tr><tr><td> $310^{(S)}$ </td><td>External work per modeOutput variable: T</td><td>1. External work for first mode.2. External work for second mode.3. Etc.</td></tr></table>
# Records written for any element matrix or substructure matrix file output request
The ordering of variables on element matrices is the same as that used for user elements (see “User-defined elements,” Section 32.17.1): first the variables at the elements first node, then those at its second node, etc. Abaqus allows elements to have repeated nodes.
<table><tr><td>Record key</td><td>Record type</td><td>Attributes</td></tr><tr><td> $1001^{(S)}$ </td><td>Element matrix header record</td><td>1. Element number (zero if this is a substructure).2. Element or substructure type in A8 format.3. Number of nodes on the element.4. Node number of the elements first node.5. Node number of the elements second node.6. Etc.</td></tr><tr><td> $1002^{(S)}$ </td><td>Element or substructure recovery matrix nodal DOF</td><td>1. First DOF at the elements or at the recovery matrixs first retained node.2. Second DOF at the elements or at the recovery matrixs first retained node.3. Etc.</td></tr><tr><td> $1003^{(S)}$ </td><td>Element or substructure recovery matrix nodal DOF change</td><td>1. Node where the DOFs change.2. First DOF at this node.3. Second DOF at this node.4. Etc.</td></tr></table>
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Record Record type Attributes key
<table><tr><td>1004(S)</td><td>Element matrix record size</td><td>1. Maximum record length (including the record length and record key words) for element matrix and load vector records that follow. The matrix or load vector records will be subdivided into multiple records as needed to fit within this maximum length. The record key for any continuation record will be the same as for the first record.</td></tr><tr><td>1005(S)</td><td>Element matrix header (continued)</td><td>1. Element node number continued from record 1001 (if necessary).2. Etc.</td></tr><tr><td>1011(S)</td><td>Symmetric element stiffness matrix</td><td>1. (1, 1) stiffness.2. (1, 2) stiffness.3. (2, 2) stiffness.4. Etc., stored in columns, from the first row to the diagonal term of each column.</td></tr><tr><td>1012(S)</td><td>Nonsymmetric element stiffness matrix</td><td>1. (1, 1) stiffness.2. (2, 1) stiffness.3. (3, 1) stiffness.4. Etc., stored in columns.</td></tr><tr><td>1021(S)</td><td>Symmetric element mass matrix</td><td>1. (1, 1) mass.2. (1, 2) mass.3. (2, 2) mass.4. Etc., stored in columns, from the first row to the diagonal term of each column.</td></tr><tr><td>1022(S)</td><td>Nonsymmetric element mass matrix</td><td>1. (1, 1) mass.2. (2, 1) mass.3. (3, 1) mass.4. Etc., stored in columns.</td></tr><tr><td>1031(S)</td><td>Load vector</td><td>1. Load case.2. Load on first DOF.3. Load on second DOF.4. Etc.</td></tr></table>
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