MSC Sinda
Quickstart
MSC SINDA for Patran on Windows
MSC Sinda for Patran on Unix
Installation
Introduction
Installation of MSC Sinda for Patran for MS Windows (assuming MSC Sinda was installed)
Installation of MSC Sinda for Patran for UNIX
MSC Sinda for Patran User’s Guide and Workshops
MSC Sinda for Patran Online Update
Add MSC Sinda Preference into An Old Patran Database
Introduction
MSC Sinda for Patran Overview
MSC Sinda for Patran Integration
Sdb2sg.exe Stack Size Modification
Materials
MSC Sinda for Patran Materials
Temperature or Time Dependent Fields
Standard Materials (isotropic, orthotropic, Anistropic and phase change)
Fluid Materials
Coating Materials
MLI Materials
Current Constitutive Models
Isotropic, Orthotropic and Anisotropic Materials
2D and 3D Materials
2D Materials
3D Materials
Fluid Materials
Coating and MLI
Composite Materials
Material Units and Material Lib
Properties
Introduction
Property Field Definitions
1D Flow Tube
2D Material Orientation
2D Material Align Axis
2D Axisym Solid – [Axisym Coordsys]
3D Material Orientation
Loads and Boundary Conditions
Introduction
Load Cases and Load Input Forms
Spatial, Temperature-Dependent or Time-Dependent Fields in Loads
Initial Temperature
Temp(MSC Sinda)
Normal Flux
Directional Flux
Nodal Source
Volumetric Generation
Total Heat
Convection/To Ambient
Contact
Coupled Advection
Contact Visualizer
Radiation/Ambient Space
Gap Radiation
Radiation/Enclosures
Radiation/Primitives
MLI and Arithmetic Nodes
Application Region and Companion Region
Fields
Introduction
Analysis
Introduction
Solvers, Time Step and Result Accuracy
Introduction
Steady State Solutions
Transient Solutions
Implicit versus Explicit
Additional Comments on Solvers
Time Step Methods
Contact Resistance
Introduction
Surface to Node (S2N) Method
Surface to Surface (S2S) Method
Super Element and Primitives
Introduction
Super Element
Primitives
Algorithm
MSC Sinda
Super Element
convection_correlation_0
convection_correlation_1
convection_correlation_3
convection_correlation_501
convection_correlation_502
convection_correlation_503
convection_correlation_504
convection_correlation_505
convection_correlation_506
convection_correlation_507
convection_correlation_508
convection_correlation_509
convection_correlation_510
convection_correlation_511
convection_correlation_512
convection_correlation_513
convection_correlation_514
convection_correlation_516
convection_correlation_517
convection_correlation_518
convection_correlation_519
convection_correlation_520
convection_correlation_521
convection_correlation_522
convection_correlation_523
convection_correlation_524
convection_correlation_601
convection_correlation_602
convection_correlation_603
convection_correlation_604
convection_correlation_605
convection_correlation_606
convection_correlation_607
convection_correlation_608
convection_correlation_701
convection_correlation_702
convection_correlation_703
convection_correlation_704
convection_correlation_705
convection_correlation_706
convection_correlation_707
convection_correlation_708
convection_correlation_709
convection_preview_window_1
convection_preview_window_2
convection_preview_window_3
convection_preview_window_t
fluid_lib
material_lib
material_units
temp_sinda
normal_fluxes
diredtional_fluxes
nodal_source
volumetric_generation
total_heat
to_ambient
contact
coupled_advection
contact_visualizer
ambient_space
gap_radiation
enclosures
primitives
solution_setup
steady_setup
transient_setup
ss_tr_setup
initial_condition
sinda_radiation_setup
trasys_setup
thermica_setup
nevada_setup
tss_setup
sindarad_setup
radk_advanced
flux_advanced
output_routine_setup
non_temp_output_routines
thermal_studio_routines
edit_manage_files
set_default_editor
rectangle_lib
quadrilateral_lib
triangle_lib
disc_lib
cylinder_lib
cone_lib
sphere_lib
paraboloid_lib
6sidedbox_lib
5sidedbox_lib