Abaqus Consultant Strategy
Abaqus Consultant Necessity?
Because finite element projects involve so many complexities, hiring an Abaqus consultant is incredibly helpful and efficient. However, It is not necessary to spend time and learn most of these complexities. Generally, an Abaqus Consultant is an expert at identifying the specifics of your project that you actually need to know. Hence, You can complete your project and learn it much more quickly and easily with the aid of Abaqus Consultant. The Abaqus Consultant Procedure is described here.:
Describe your Abaqus project
Explain your Abaqus project to FEAassist Abaqus Consultant (Consultant Abaqus) (contact). Then, hey will then go over your project’s path with you.
An online meeting/chat to discuss details
Afterwards, We will set up a chat or online meeting to go over the specifics of your Abaqus project.
Send a document about your project (a paper)
Besides, Before sending the model to you, Abaqus Consultant will need a published paper or document for verification and testing. Hence, they will ask you to provide a paper, thesis or any written document about the formulation, model, parameters and results.
Establish the desired outcomes
Next, you establish the desired outcomes you want to get from the final delivered model.
Abaqus Consultant determine the project cost and delivery time
Our Abaqus Consultant will calculate the number of working hours required for your project and provide you with an estimated project delivery time and cost once you provide clear information.
Sign the contract with Abaqus Consultant
A contract form with the agreed-upon details will be sent to you for signature.
Stay in touch with Abaqus Consultant throughout the project
Consultants Abaqus will ask you to stay in touch throughout the project for probable discussions. Along the way, there may be some details that we need to clarify for you.
Abaqus project delivery
Your project will be sent by Abaqus Consultants at the time specified in the contract. Normally, due to the big file size, we send you your project by Gmail.
Work with tutorials and files
Abaqus model files, Subroutine files, tutorial videos, extracted results, and training PDF/ppt files are all included in the final project package.
Lifetime 24/7 support after project delivery
You will be able to contact us for possible questions. Our Abaqus Consultant will help you until your satisfaction.
Other services
In addition to the tutorial of Abaqus Consultant, FEAassist provides training packages for other Abaqus Subroutines, [1] whose applications and links can be found here. Do not hesitate to ask questions from our experts (Abaqus Project Procedure) (Abaqus UMAT Help).
| 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 |