This informs the format of load data which is exported according to Design Space export type.
The following is the OUTPUT of Design Space and each component is described.
==================================================================
Time
1.0
Frame
51
Inertial State
Body
Body1
Gravitational Acceleration
-9.25596e+061 -9.25596e+061 -9.25596e+061
Translational Velocity
-9.25596e+061 -9.25596e+061 -9.25596e+061
Translational Acceleration
-9.25596e+061 -9.25596e+061 -9.25596e+061
Rotational Velocity
-9.25596e+061 -9.25596e+061 -9.25596e+061
Rotational Acceleration
-9.25596e+061 -9.25596e+061 -9.25596e+061
Load
Body
Body1
Cord
Features
RDBody1.Face1
Position
-9.25596e+061 -9.25596e+061 -9.25596e+061
Load
-9.25596e+061 -9.25596e+061 -9.25596e+061
Torque
-9.25596e+061 -9.25596e+061 -9.25596e+061
=====================================================================
1. TIME: Time at which load data is exported.
2. Frame: Frame at which load data is exported.
3. Inertia State: Body information.
"Body"
<The Body name>
"Gravitational Acceleration"
<The gravity that is defined for the model: 3 components(x,y,z) >
"Translational Velocity"
<The Translational velocity of the body: 3 components(x,y,z) >
"Translational Acceleration“
< The Translational acceleration of the body: 3 components(x,y,z) >
"Rotational Velocity"
< The Rotational velocity of the body: 3 components(x,y,z) >
"Rotational Acceleration"
< The Rotational acceleration of the body: 3 components(x,y,z) >
4. Load: Load information
“Body”
<The body name>
“Cord”
<Not Used>
“Features”
<The name of attribute to be applied by load or joint >
“Position”
<The position at which a load or Torque is acting: 3 components(x,y,z) >
“Load”
<The load data: 3 components(x,y,z) >
“Torque”
<The Torque data: 3 components(x,y,z) >