PTC Creo Parametric - Advance Course Modules from Udemy

The objective of this course is to enhance your product designing skills.

The curriculum is especially oriented to make you understand the concepts with ease, and reduce your fear to work with the complicated tools of product designing.

The course offers you hours and hours of HD content that can be accessed from your mobile/laptop/desktop.

Through the course, you will be familiarized will the following significant tools:

Sheet Metal

· Introduction to various Sheet-metal concepts

· Creating Primary and Secondary Walls using different tool such as Planar, Flat, Flange, Extrude.

· Types of Walls

· Reliefs, Its necessity, & types.

· Corner reliefs, Corner Treatment, Mitre-cuts.

· Bending Sheet metal in Creo

· Tools used to bend sheet metal.

· Types of bend

· Edge & Planar Bend

· Unbending Sheet metal in Creo

· Different types of unbending options

· Cut-outs in Sheet-metal

· Forms, and its types – Punch, Die, Sketch and Quilt

· Rips, and its types – Edge, Sketch, Surface, and Rip Connect

Assembly

· Bottom-up and Top-Down Approach

· Different constraints in Assembly (Coincident, Distance, Normal, Parallel, Angle offset etc.,)

· Global Interference

· Repeat components

· Create Exploded View in Assembly.

· Add Sub-Assembly in Assembly.

· Detailed design process, i.e., from Part Modelling to Assembly of industrial components namely, “Butterfly Valve, Pedestal bearing and Electrical Cabinet Assembly)

Creo Drawing

· Elements of a Drawing Sheet

· Creation of a Drawing Format (User defined)

· Adding parameters to drawing sheets.

· Create user-defined parameters in title block

· Basic dimensioning

· Lines and line styles used in Dimensioning

· Create Detailed view in drawing sheet

· Visible Area View

· Create Auxiliary View

· Create Revolved View

· Create cross-sectional view of a part model in drawing sheet

· Create cross-sectional view of an assembly in drawing sheet

· Create Local View

· Create Offset View

· Create Exploded view in Drawing sheet

· Creating our own Detailed File.

· Adjusting dimensions using different tools

· Adding tolerances to the dimensions

· Adding Notes in the drawing sheets

· Adding Ordinate Dimensions.

· Adding Surface Finish Symbols

· Preparing Report Table: Bill of Materials (BOM)

· Creating Balloons on the Exploded view

· Create a user-defined template in Creo

Model Based Definitions

- Combo Views

- Annotations in Combo Views

- Driving and Driven Dimensions

- Different References for creating Annotations

The course doesn’t not require you to have any prerequisites.

By understanding the conceptual parameters, you can work on your own to explore and prepare your imagination into a virtual 3-D model.

I am looking forward to Teaching you all About the PTC CREO PARAMETRIC

What's inside

Learning objectives

Learn the design process i.e., modelling, assembling and drafting
Learn all the significant technical tools in sheet-metal modelling
Learn to prepare assembly of the industrial components,

Learn to prepare technical drawing of the modelled geometries
Learn to create your own drawing sheet format and template

Learn the design process i.e., modelling, assembling and drafting
Learn all the significant technical tools in sheet-metal modelling
Learn to prepare assembly of the industrial components,
Learn to prepare technical drawing of the modelled geometries
Learn to create your own drawing sheet format and template

Syllabus

Introduction

Join the community

In this section, we will briefly get acquainted with the theoretical aspects of sheet-metal, this includes the operations, tools etc.,

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Covers sheet metal operations like bending, shearing, blanking, punching, trimming, coining, notching, and forming, which are essential for product design

Explores assembly constraints such as coincident, distance, normal, parallel, and angle offset, which are fundamental for assembling industrial components

Details how to create revolved, cross-sectional, local, and offset views, which are essential skills for technical drawing and documentation

Uses Creo Parametric, which is a standard CAD software used in the product design and manufacturing industries

Teaches how to prepare a bill of materials (BOM), which is a critical skill for documentation and manufacturing processes

Focuses on an older version of Creo Parametric, so learners should be aware that the user interface and some features may differ in newer versions

Reviews summary

Advanced creo modules: practical insights & practice needs

According to students, this course offers a thorough deep dive into advanced PTC Creo Parametric modules, particularly excelling in the sheet metal section which is described as incredibly thorough with clear examples. Learners appreciated the use of helpful industrial component examples like the Butterfly Valve for assembly concepts. However, a significant point raised by reviewers is that the course, despite its description, assumes a basic understanding of Creo Part Modeling and is not for absolute beginners. Several students felt the course lacked sufficient practical exercises or challenging scenarios to reinforce learning, and the drafting section could be expanded. Overall, it's considered a highly practical course beneficial for advanced users or professionals looking to boost their skills, provided they come with foundational Creo knowledge.

Uses helpful industrial component examples.

"the industrial component examples were very helpful."

"I particularly liked the assembly examples like the Butterfly Valve."

"The industrial examples are a plus."

Detailed coverage of sheet metal features.

"The sheet metal section was incredibly thorough, covering various bends, rips, and forms with clear examples."

"Excellent course for Creo advanced users. The depth of coverage on sheet metal forms and drawing sheet customization was exactly what I needed..."

"Sheet metal, assembly, and drafting are covered in detail."

Coverage in drafting section could be expanded.

"The drafting section felt a little rushed towards the end..."

"Drafting section could be expanded."

Could benefit from more practice exercises.

"Some topics could benefit from more challenging exercises or real-world design scenarios beyond the provided examples."

"I found myself having to search for additional practice models online to reinforce the concepts..."

"The exercises are not challenging enough and don't cover all tools demonstrated."

Not ideal for absolute beginners in Creo.

"The course claims no prerequisites, but it moves too fast if you don't already know the basics of Creo Part Modeling."

"It assumes a basic understanding of Creo."

"The course assumes you have Creo software access and some prior knowledge, despite the description. Not for absolute beginners."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in PTC Creo Parametric - Advance Course Modules with these activities:

Review Sheet Metal Fundamentals

Show steps

Reviewing sheet metal fundamentals will provide a solid base for understanding the advanced sheet metal tools in Creo Parametric.

Show steps

Review basic sheet metal operations like bending, cutting, and forming.
Practice creating simple sheet metal parts using basic CAD tools.

Review 'Sheet Metal Forming Processes: Principles and Applications'

Show steps

Reading this book will help you understand the theoretical background of sheet metal forming, which is essential for using Creo Parametric effectively.

View Putting Knowledge to Work on Amazon

Show steps

Read the chapters on bending, forming, and cutting processes.
Take notes on key concepts and formulas.

Assembly Constraint Exercises

Show steps

Practicing assembly constraints will improve your ability to efficiently assemble complex models in Creo Parametric.

Show steps

Create a series of simple assemblies using different constraint types.
Experiment with different constraint combinations to achieve desired results.

Four other activities

Expand to see all activities and additional details

Show all seven activities

Document Assembly Process

Show steps

Creating a video tutorial will reinforce your understanding of assembly techniques and help you communicate your knowledge to others.

Show steps

Choose a complex assembly from the course materials.
Record a video demonstrating the assembly process step-by-step.
Explain the reasoning behind each constraint and design choice.

Design a Sheet Metal Enclosure

Show steps

Designing a sheet metal enclosure will allow you to apply your knowledge of sheet metal tools and techniques in a practical project.

Show steps

Define the requirements and specifications for the enclosure.
Create a 3D model of the enclosure using Creo Parametric.
Generate a manufacturing drawing for the enclosure.

Generate a Bill of Materials (BOM) for an Assembly

Show steps

Creating a BOM will reinforce your understanding of assembly structure and help you manage component information effectively.

Show steps

Select a complex assembly from the course materials.
Use Creo Parametric to generate a BOM for the assembly.
Customize the BOM to include relevant information such as part numbers, descriptions, and quantities.

Review 'Product Design Modeling using CAD/CAE'

Show steps

Reading this book will help you understand the broader context of product design and how Creo Parametric fits into the overall process.

View Putting Knowledge to Work on Amazon

Show steps

Read the chapters on CAD modeling techniques and CAE analysis.
Focus on the sections related to assembly and drafting.

Career center

Learners who complete PTC Creo Parametric - Advance Course Modules will develop knowledge and skills that may be useful to these careers:

Mechanical Engineer

A mechanical engineer researches, designs, develops, manufactures, and tests mechanical devices and systems. This course helps mechanical engineers enhance their product designing skills, particularly in sheet metal design, assembly, and drafting. The course's focus on Creo Parametric equips mechanical engineers with the skills to create and modify 3D models, prepare technical drawings, and manage assemblies. Understanding sheet metal concepts and tools for bending and unbending, as covered in the course, can be valuable for creating enclosures, brackets, and other structural components. The modules on assembly and creating exploded views further enable mechanical engineers to design and document complex mechanical systems. Learning to create drawing sheets and templates helps standardize documentation.

See salaries and explore the career path for Mechanical Engineer

CAD Technician

A CAD technician creates technical drawings and 3D models using computer-aided design (CAD) software. Training in Creo parametric is integral to this career. This course helps CAD technicians refine their skills in creating detailed designs, particularly in sheet metal, assembly configurations, and drafting. The course's focus on various tools within Creo Parametric enables CAD technicians to generate accurate and comprehensive technical documentation. Understanding sheet metal concepts, bending techniques, and cut-outs equips CAD technicians with the skills required to design and document sheet metal components. Expertise in assembly constraints is important for accurately representing complex mechanical systems. The drawing module enables the creation of custom drawing sheets and templates.

See salaries and explore the career path for CAD Technician

Design Engineer

A design engineer is responsible for creating and developing new product designs, or improving existing ones. This course helps design engineers enhance their 3D modeling and technical drawing skills using Creo Parametric. The course's emphasis on sheet metal design, assembly, and drafting equips design engineers with the tools to create detailed and manufacturable designs. Understanding sheet metal bending and unbending techniques enables design engineers to design robust sheet metal components. The assembly module allows design engineers to design complex mechanical systems. Learning how to create drawings helps design engineers communicate their designs effectively.

See salaries and explore the career path for Design Engineer

Manufacturing Engineer

A manufacturing engineer develops and optimizes manufacturing processes to ensure efficient and cost-effective production. This course helps manufacturing engineers develop technical 3D modeling skills, focusing on design for manufacturability using Creo Parametric. The course covers sheet metal design, assembly processes, and drafting, which can be valuable when optimizing production lines and creating detailed manufacturing instructions. Its sheet metal module helps in designing enclosures and other sheet metal parts. The assembly techniques covered in this course are relevant for designing assembly fixtures and processes. Drafting skills are useful for creating detailed manufacturing drawings and process documentation.

See salaries and explore the career path for Manufacturing Engineer

Robotics Engineer

A robotics engineer designs, develops, and tests robots and robotic systems. This course helps to improve the design process for robotics engineers. The course can help robotics engineers design and analyze robot components, create detailed assembly models, and generate technical drawings for manufacturing. Sheet metal concepts and bending techniques are valuable for designing robot enclosures and structural elements. Assembly skills allow robotics engineers to design complex systems such as robotic arms and end effectors. The drafting module enables the creation of detailed manufacturing drawings and documentation.

See salaries and explore the career path for Robotics Engineer

Product Designer

A product designer conceptualizes and designs new products, or redesigns existing ones, focusing on functionality, aesthetics, and user experience. This course may be useful because it can enhance a product designer's ability to create detailed 3D models and technical drawings using Creo Parametric. The course covers sheet metal design, assembly techniques, and drafting, which product designers can leverage to develop innovative and manufacturable product designs. Understanding assembly constraints and creating exploded views enables product designers to visualize and communicate how different components fit together. The module on creating custom drawing sheets and templates helps product designers document their designs effectively.

See salaries and explore the career path for Product Designer

Tool and Die Maker

A tool and die maker manufactures tools, dies, and molds used in manufacturing processes. This course may helps tool and die makers enhance their skills in creating precise 3D models and technical drawings using Creo Parametric. The course's focus on sheet metal design, assembly, and drafting equips tool and die makers with the tools to design and manufacture complex tooling. Understanding sheet metal bending and unbending techniques is valuable for creating forming dies. Expertise in assembly constraints allows tool and die makers to design complex die assemblies. The drafting module helps create detailed manufacturing drawings for tool and die fabrication.

See salaries and explore the career path for Tool and Die Maker

Aerospace Engineer

An aerospace engineer designs, develops, and tests aircraft, spacecraft, and related systems. This course may be useful as it provides specialized training in Creo Parametric, a CAD software used in the aerospace industry, particularly in sheet metal design, assembly, and drafting. The course can help aerospace engineers design and analyze structural components, create detailed assembly models, and generate technical drawings for manufacturing. Sheet metal concepts and bending techniques could be helpful in designing lightweight structures. Skills in creating exploded assembly views can be useful for documenting complex aerospace systems.

See salaries and explore the career path for Aerospace Engineer

Automotive Engineer

An automotive engineer designs, develops, and tests vehicles and their components. This Creo training may be useful, as it can enhance an automotive engineer's skills in 3D modeling and technical drawing using Creo Parametric. The course's focus on sheet metal design, assembly, and drafting equips automotive engineers with the tools to design and document vehicle components and systems. Understanding sheet metal concepts and bending techniques can be valuable for designing body panels and structural elements. Assembly skills allow automotive engineers to design complex systems such as chassis and powertrain assemblies. The drafting module helps create detailed manufacturing drawings and documentation.

See salaries and explore the career path for Automotive Engineer

Structural Engineer

A structural engineer analyzes and designs structures to ensure their safety and stability. This course may provide familiarity with CAD software, which is useful for structural engineers. The course's coverage of sheet metal design, assembly, and drafting can be valuable for designing and documenting structural components. Understanding sheet metal concepts and bending techniques may be helpful for designing lightweight structural elements. Assembly skills enable structural engineers to design complex structural systems. The drafting module can assist in creating detailed construction drawings and documentation.

See salaries and explore the career path for Structural Engineer

HVAC Engineer

An Heating, Ventilation, and Air Conditioning (HVAC) engineer designs and maintains HVAC systems for buildings. This course may be useful by providing training in CAD software, particularly Creo Parametric. The course's focus on sheet metal design, assembly, and drafting equips HVAC engineers with the tools to design and document ductwork, enclosures, and other system components. Understanding sheet metal concepts and bending techniques is valuable for designing custom ductwork and fittings. Assembly skills are useful for designing complex HVAC systems. The drafting module can assist in creating detailed installation drawings and documentation.

See salaries and explore the career path for HVAC Engineer

Piping Designer

A piping designer creates detailed designs for piping systems used in various industries. This course helps designers gain valuable Creo Parametric skills. The course's focus on sheet metal design, assembly, and drafting will likely benefit the design of supports and enclosures. Understanding sheet metal concepts might apply to the design of specialized piping components. Assembly skills can be applied in the design of modular piping systems and skids. While not directly related to piping itself, the drafting module is very useful for creating detailed piping layouts and isometrics.

See salaries and explore the career path for Piping Designer

Civil Engineer

A civil engineer designs, constructs, and maintains infrastructure projects such as roads, bridges, and buildings. This course may be useful by providing familiarity with CAD software. The course's coverage of sheet metal design, assembly, and drafting may have limited applications in civil engineering, but could be useful for designing and documenting certain structural components. Understanding sheet metal concepts may be relevant for designing metal building elements. Assembly skills could be applied to designing modular structures. The drafting module may assist in creating detailed construction drawings.

See salaries and explore the career path for Civil Engineer

Technical Writer

A technical writer creates technical documentation, such as manuals, guides, and reports. A technical writer might find this course useful as it provides an understanding of how products are designed and manufactured at a high level which can allow him or her to create better documentation for people working in manufacturing or design firms. The course's introduction to sheet metal design, assembly, and drafting can be valuable for creating clear and accurate documentation. Technical writers who understand design documentation can be invaluable to a technical design team.

See salaries and explore the career path for Technical Writer

Architect

An architect designs buildings and other structures, focusing on aesthetics, functionality, and safety. This course may be most useful in creating design documents. The course's coverage provides a foundation for design, assembly, and drafting. The drafting module may assist in creating detailed construction drawings and documentation.

See salaries and explore the career path for Architect

PTC Creo Parametric - Advance Course Modules

What's inside

Learning objectives

Syllabus

Traffic lights

Save this course

Reviews summary

Advanced creo modules: practical insights & practice needs

Activities

Career center

Reading list

Share

Similar courses