Abaqus Project Order
FEAassist consists of Abaqus freelancers to help in Abaqus projects (Abaqus Subroutine Project Order). Generally, our Abaqus consultants (Abaqus subroutine consultants) help researchers in their Abaqus projects. Although, we help in Abaqus Subroutine development.
Abaqus Freelancer procedure
We normally receive Abaqus projects details from our customers and complete the projects. The projects are being verified and tested then with published papers results. Next, we prepare tutorial videos and explain all details of models and subroutines. The final package includes all Abaqus and Subroutine files, tutorial videos, extracted results and PDF/PPT files.
Abaqus Consultants to Help in Abaqus
FEAassist Abaqus Consultants (Abaqus subroutine consultants) are researchers of top world universities with myriads of Finite Element projects in their CVs. The admin and main group is located in London, United Kingdom. Our main purposes is to help researchers in all around the world in Finite Element problems. A researcher with CV related to your project topic will work on your project.
Use one of the following methods to contact us. We typically answer in a minute:
|
+447514792517 |
Telegram |
@FEAassist |
|
Admin@Feaassist.uk
FEAassist@Gmail.com |
| Tel | +447720332196 |
Other Abaqus Subroutines
In addition to the Tutorial for Abaqus and Abaqus freelancers, FEAassist provides training packages for other Abaqus Subroutines, [1] that whose applications and links can be found here. Do not hesitate to ask questions from our experts on the Abaqus tutorial and Abaqus examples.
| Application | FEAassist tutorials | More | Application | FEAassist tutorials | More |
| Mechanical property | UMAT | Ex. Link | – | UMDFLUX | Ex. Link |
| Mechanical property | VUMAT | Ex. Link | Mesh motion | UMESHMOTION | Ex. Link |
| Creep and swelling | CREEP | Ex. Link | Cavity motion | UMOTION | Ex. Link |
| Nonuniform fluid | DFLOW | Ex. Link | Damage variable | UMULLINS | Ex. Link |
| Nonuniform flux | DFLUX | Ex. Link | Initial fluid pres | UPOREP | Ex. Link |
| Prescribed BC | DISP | Ex. Link | Prescribed pres | UPRESS | Ex. Link |
| Nonuniform loads | DLOAD | Ex. Link | Frequency | UPSD | Ex. Link |
| Nonuniform film | FILM | Ex. Link | Read result | URDFIL | Ex. Link |
| Nonuniform consolidation | FLOW | Ex. Link | Redefine field | USDFLD | Ex. Link |
| Friction | FRIC | Ex. Link | Prescribed temp | UTEMP | Ex. Link |
| Friction coefficient | FRICCOEF | Ex. Link | Nonuniform traction | UTRACLOAD | Ex. Link |
| Conductance | GAPCON | Ex. Link | Viscoelastic | UTRS | Ex. Link |
| Cross-correlation prop. | UCORR | Ex. Link | Element output | UVARM | Ex. Link |
| Time-dependent creep | UCREEPNETWORK | Ex. Link | |||
| Nonuniform current | UDECURRENT | Ex. Link | – | VDFLUX | Ex. Link |
| Nonuniform magnetic | UDEMPOTENTIAL | Ex. Link | Prescribed BC | VDIS | Ex. Link |
| Damage initiation | UDMGINI | Ex. Link | Nonuniform loads | VDLOAD | Ex. Link |
| User element | UEL | Ex. Link | User external DB | VEXTERNALDB | Ex. Link |
| User element prop | UELMAT | Ex. Link | Fabric material | VFABRIC | Ex. Link |
| Thermal strains | UEXPAN | Ex. Link | Friction | VFRIC | Ex. Link |
| User external DB | UEXTERNALDB | Ex. Link | Friction coefficient | VFRIC_COEF | Ex. Link |
| Predefined field V | UFIELD | Ex. Link | Friction | VFRICTION | Ex. Link |
| Fluid density | UFLUID | Ex. Link | – | VOIDRI | Ex. Link |
| Mechanical shell | UGENS | Ex. Link | Amplitudes | VUAMP | Ex. Link |
| Yield & hardening | UHARD | Ex. Link | User element | VUEL | Ex. Link |
| Hypoelastic | UHYPEL | Ex. Link | Equation of state | VUEOS | Ex. Link |
| Hyperelastic | UHYPER | Ex. Link | Thermal strains | VUEXPAN | Ex. Link |
| Surface interaction | UINTER | Ex. Link | Yield & hardening | VUHARD | Ex. Link |
| Mass flow | UMASFL | Ex. Link | Surface interaction | VUINTER | Ex. Link |
| Material’s thermal | UMATHT | Ex. Link | Damage variable | VUMULLINS | Ex. Link |
| VUSDFLD | Ex. Link | Crystal plasticity | CPFEM | Ex. Link |