Individual Software Programs
Solid WorksPro/E or Creo
CATIA
ANSYS Workbench
AutoCAD Electrical
3ds Max
AutoCAD 2D
AutoCAD 3D
REVIT MEP
OrCAD
AutoCAD Civil 3D
SolidWorks Motion
Primavera Tracking Professional
Primavera Scheduling Professional
Primavera Foundation
Primavera Complete
Geometric Dimensioning & Tolerancing
ETABS
Navisworks
Microstation
AutoCAD RCC
MX ROAD
Revit Architecture
STAAD.Pro
ANSYS Civil
Building Estimation
Prosteel
Preparatory Program- Black Belt
Project Management Professional
Six Sigma- Green Belt
Six Sigma
Kaizen Course on 5S
Kaizen-Foundation Course
Others
Course ArchitectCourseware
Alumni Speak
CAD Alumni Association
Student´s Corner
News and Events
Resources
5 Advantages of the Oracle Primavera P6 SoftwareHow to become a Structural Engineer?
ANSYS Civil
Overview:
ANSYS Civil gives designers the ability to assess the influence of this range of variables in a virtual environment. Thus, engineers can advance through the design and materials selection process quickly and efficiently.
Why should you learn?
Since, ANSYS offers engineering simulation solution sets in engineering simulation that a design process requires, you can comply with increasingly demanding safety and government regulations and create environmentally conscious designs.
Companies in a wide variety of industries use ANSYS software. You can narrow the scope of field investigations, save considerable time and cost on projects, and move more quickly to the groundbreaking stage.
Learning Objectives:
At Sherman Gray, we help you master the following features of ANSYS Civil:
• Blast, Explosion & Impact :
This advanced capability used in analysing the impact of blast, explosion and impact in civil engineering projects as diverse as high-rise buildings, bridges, dams, tunnels and stadiums.
• Fire & Smoke Propagation:
Designing fire and smoke management systems for buildings, subways and other facilities HVAC Equipment Design; Structural Building Design; and Ventilation & Comfort Modeling
• Wind Engineering :
Understanding the aerodynamics of a building is much more efficient and accurate when virtual modeling is used. Assessing the structural load imposed by the wind is a priority
Learning Outcome:
• You will learn to test variables virtually to simulate the many possible scenarios and ultimately create the safest systems possible.
• You will know how to do rock and soil mechanics analysis; material-specific maximum load assumptions; linear, nonlinear, static and dynamic analyses; sensitivity and parametric studies; and other related works.
• You will experiment with design in a virtual environment, and analyze safety, strength, comfort and environmental considerations of buildings and other civil projects.
• You will know how to virtually model various structures and test the impact of environmental and destructive forces as many times as needed to completely understand the effects of a disaster on a structure.
• You will know how to apply mechanical, fluids and multiphysics tools to a wide range of HVAC equipment design, including: air cleaning equipment, air conditioners, boilers, chillers, diffusers, heat exchangers/coils, humidifiers/dehumidifiers, heating equipment, pumps/blowers, fans and compressors/exhausters, and refrigeration
• You will know how to import full 3-D CAD models into the ANSYS Workbench environment, and view and analyze 3-D product designs.