TRAININGS
ANH CAD is one of its own kind top quality learning source of CAD CAM CAE Technologies. The Aim and Objective of ANH CAD is to provide Quality, Innovative and Reliable Trainings in the Field of Design and Manufacturing to the Students, Engineers and also to the Professionals. ANH aims to deliver industrial application based Trainings and hence bridges the gap of Knowledge and skill between the available and required in the industry.
We are a PTC authorized Training Centre and the training is managed and conducted by industry experts with years of practical experience giving users a benefit to get the best required in Industry.
COURSES
AutoCAD is a standout amongst the most well-known Computer Aided Design (CAD) project created to help experts to outline items, structures or structures without drawing up arrangements physically. The course target is to educate the students about the essential directions important for expert 2D CAD drawing, plan and drafting utilizing a 2D drafting device. Indeed, even participants with no past CAD experience can advance rapidly through this course which is masterminded in an arrangement that is straightforward. Members will learn CAD essentials and the capacities in 2D drawing.
Course Objectives
2D, 3D+Drafting | Getting Start (Intro. Engineering Drg.) | File Management |
Viewing/ Display | Drawing set-up | Input content |
Drawing Commands | Editing Commands | Management Text |
Creo for Design Engineers helps you to know how to utilize the core functionality enhancements in Creo. The Advanced Modeling using Creo teaches you how to use advanced part modeling techniques to improve your product designs. In this course, you will learn how to create and modify design models using advanced sketching techniques and feature creation tools. You will also learn how to reuse existing design geometry when creating new design models.
Course Objectives
Fundamentals | Basic solid part modeling | Basic Assembly Creation |
Flexible modeling | Detailing (Drawing) | Advanced solid part modeling |
Sheetmetal Design | Advanced Assembly design |
Creo for Industrial Engineers helps you to know how to utilize the core functionality enhancements in Creo. The Advanced Modeling using Creo teaches you how to use advanced part modeling techniques to improve your product designs. In this course, you will learn how to create and modify design models using advanced sketching techniques and feature creation tools. You will also learn how to reuse existing design geometry when creating new design models.
Course Objectives
Fundamentals | Basic solid part modeling | Basic Assembly Creation |
Intro to surface modeling | Adv solid part modeling | Adv surface modeling |
Freeform surfacing | Flexible modeling | Direct modeling |
In Creo for Analyst you will learn about creating mechanism connections, configuring the mechanism model, creating a kinematic analysis, and evaluating results. Mechanism Design using Creo Parameteric is designed for experienced users who want to add motion to their models by creating mechanism connections and servo motors. In Creo Parameteric you can add motion to your models using the standard mechanism functionality, often referred to as the Mechanism Design Extension (MDX).
Course Objectives
Fundamentals | Basic solid part modeling | Basic Assembly Creation |
Behavioral modeling | Mechanism Design | Mechanism Fundamentals |
Mechanical Analysis Process | Static Structure Analysis | Mechanism Simulation |
In Creo for Production Engineers, you will learn how to create, modify, and analyze mold components and assemblies. Any changes made to the design model automatically propagate to the mold components and assemblies. You will learn how to create final extract components that reflect the geometry of the design model, along with shrinkage considerations, adequate drafting, mold features, and cooling systems. After completing the course, you will have a better understanding of the mold design process and how to create molded products by using the mold design process.
Course Objectives
Fundamentals | Basic solid part modeling | Basic Assembly Creation |
Moldesign Fundamentals | Core Cavity Extraction | Manufacturing Fundamental |
3-Axis Milling |
In Creo for Piping & Cabling Designers, you will learn how to manually create (non-specification driven) mechanical piping designs using Creo Parametric. This includes learning how to configure pipelines, how to route pipelines, and how to insert pipe fittings such as valves and reducers. You will learn how to document piping designs by creating drawings that include BOM tables, pipe bend tables, and engineering information.
Course Objectives
Fundamentals | Basic solid part modeling | Basic Assembly Creation |
Piping and Cabling | ||
Types of Trainings

College Trainings

Centre Based Trainings

Corporate Training
COURSES
SolidWorks is a 3D CAD software tool that transports all tasks involved in product development into the visual and electronic 3D world for better collaboration. With its intuitive interface, and a wide range of specialized and compatible products to support all design and engineering functions, SolidWorks promises to Shortened design cycle, increased productivity of engineers & designers and faster delivery of innovative products.
Course Objectives
Introduction | Sketching | Part modeling |
Drafting | Assembly | Surfacing |
Sheet Metal |
ANH offers an advanced course in CATIA V5, leading parametric solid modeling software. CATIA comes with engineering, design, and systems engineering capabilities.
When it comes to engineering, it enables rapid development of high quality mechanical products. It empowers engineers to do digital prototyping, digital analysis and simulation to understand the quality and performance of product designs early in the product development phase.
Course Objectives
CATIA User Interface | Creating and Editing Sketches | Features and Advanced Replication Tools |
Editing Parts in Assembly | Creating Surface Features | Generative Sheet Metal Design |
Drawing View Generation | Real Time Rendering | Plotting |
Geometric dimensioning and tolerancing (GD & T) is used as a symbolic way of showing specific tolerances on drawings. GD&T is a valuable tool that effectively communicates the design intent to manufacturing and inspection.
Course Objectives
Introduction, Concepts (Limits, Fits & Tolerance) | Types of Tolerances | Limit Tolerancing |
Tolerancing methods | General Tolerancing | Fits – Clearance, Interference, Transition |
Statistical Symbols – Capability & Stat Tolerancing | Datum elements ; Definition, Rules | Orientation Tolerance |
Position Tolerance | Concentricity & Symmetry Tolerance | Run – out and Profile Tolerance |
Composite Tolerancing | Exercises – Individuals/ Group – Measurement methods | Q & A |
Industrial training can have a very positive influence on the quality of engineering education when properly carried out and adequately supervised.
Course Objectives
Design by CAD | Industrial Visits | One industrial project |
GD&T Trainings | Engineering Drawing | Documentation, Q.A, Measuring Instrumentation knowledge |
Engineering Drawings is related to mechanical drafting, engineering design and manufacturing. Technical drawing is used by architects or drafters in the construction and manufacturing industries. These drawings provide detailed instructions for how to construct products.
Course Objectives
Introduction to Technical Drawing | Engineering Drawing Basics | 2D Modeling and Print Reading for Technical Drawing |
Computer-Aided Design | Mechanical Drawing and Measurements | |

UPGRADE TRAININGS
