ITI Artisan Using Advanced Tool Syllabus: Course Structure, Detailed Syllabus

Jahanvi Bakshi

Updated On: February 06, 2025 07:11 PM

Scroll down to check out the ITI Artisan Using Advanced Tool Syllabus thoroughly. Subjects under the Artisan Using Advanced Tools ITI Trade include Basic Science, Engineering Drawing, Product Design, Workshops Calculation, etc. Check out the Artisan Using Advanced Tools ITI Trade course structure here.

ITI Artisan Using Advanced Tool Syllabus: Course Structure, Detailed Syllabus

ITI Artisan Using Advanced Tool Syllabus: The duration of the Artisan Using Advanced Tool ITI Trade is 1 year. If students wish to enroll in this course, they are required to pass Class 12th or need to at least have passed Class 10th and simultaneously enrolled for Class 12th through NIOS. The subjects taught under the ITI Trade Artisan Using Advanced Tool are product design, basic science knowledge, engineering drawing skills, quality control, advanced machinery operations, safety procedures, etc. If you wish to read the entire syllabus of this ITI Trade, then you can scroll down. While you’re here, check out the course structure of this ITI Trade as well to learn more about the notional training hours and more.

Also Read: ITI Admission 2025: State-wise Dates, Online Form, Fees

ITI Artisan Using Advanced Tool Detailed Syllabus

Check out the detailed syllabus of the ITI Artisan Using Advanced Tool trade in the table attached herewith:

ITI Artisan Using Advanced Tool Syllabus: Detailed Topics and Subjects

  • Safety attitude development of the trainee by educating them to use Personal Protective Equipment (PPE) such as use of gloves and goggles.
  • First Aid Method and basic training.
  • Safe disposal of waste materials like cotton waste, metal chips/burrs, etc.
  • Hazard identification and avoidance.
  • Safety signs for Danger, Warning, caution & personal safety messages.
  • Preventive measures for electrical accidents & steps to be taken in such accidents.
  • Use of Fire extinguishers.
  • Practice and understand precautions to be followed while working in fitting jobs.
  • Safe use of tools and equipment used in the trade by using tweezers for all purposes and handle scrappers.
  • Develop a concept of an innovative product to reduce human effort.
  • Define the complete product lifecycle.
  • Use product development phases to develop a new innovative product.
  • Developing a new product concept considers the function, aesthetics, production costs, and usability of products with the help of an industrial design study.
  • Improve the perceived quality of the product with the help of cite research & Ergonomics.
  • List out Practical demonstrations of ergonomic principles
  • Evaluate human factors and ergonomics ranged from simple questionnaires to complex.
  • Foundation buildup using the SCOPE tool.
  • Generate multiple ideas through brainstorming.
  • Develop a product using SCAMPER tool (Substitute, Combine, Adapt, Modify, Magnify, Minify, Eliminate, Reverse &Rearrange)
  • Develop a concept model from Analogous Inspiration.
  • Develop a concept model by deconstructing & Reconstructing material tools.
  • Refinement and Evaluation of Ideas.
  • Develop a concept model by sharing & integrating all ideas.
  • Draws the touch-point of your idea and describe the activities with the help of story boarding tool.
  • Develop a common understanding of reviewing all the user feedback and Finalize the big idea.
  • List out the virtual testing platform as per application.
  • Create/Prepare Innovative product concept design with Digital mock-up (DMU).
  • Identify the drawing projection method.
  • Use of Geometric dimensions & Tolerances as per assembly prospect.
  • Preparation of Bill of Material.
  • Perform basic engineering calculations.
  • Prepare a list of appropriate materials by interpreting detailed drawings and determine quantities of such materials.
  • Explain Different manufacturing processes.
  • List out the benefits of Additive manufacturing technology.
  • Perform linear measurements using Vernier Caliper, Vernier height gauge, and Micrometer.
  • Draw the system with an indication of geometrical tolerances
  • Perform Angular Measurement.
  • Inspection data was recorded to analyze with given drawing/measurement.
  • Customize the layout of artisan software.
  • Customize the toolbars of the artisan software module.
  • Creation and selection of work directory.
  • Selection of units and screen resolution for a new model
  • Customize the Docking Toolbars, Panels, and Themes for artisan software.
  • Use of shortcut keys &Mouse buttons application, Picking and selecting & Additional functions like Import, export, save, new model, cut, pest, etc.
  • Selection of working plane.
  • Importing and aligning the existing model.
  • Create Standard Geometries by using lines, circles, Arcs, and Text, etc.
  • Create standard geometries Square, Rectangle, Parallelogram, Rhombus, Trapezium, etc.
  • Create smooth curves by using the node editing median smooth curve option.
  • Create smooth curves by using the node editing virtual midpoint option.
  • Create vector layers by using Recess, window, outside, and default layer options.
  • Perform shapes creation operation.
  • Node Mode to convert the spans to Arcs. Convert Spans/Arcs to free-flow shapes.
  • Restore the toolbar for basic geometry.
  • Select the appropriate toolbar and create a 2D design (use size, corner, or center of geometry options)
  • Rotate the 2D design into a specific angle.
  • Use of vector tool to align the model to left, right, top, bottom, and center.
  • Create the vector text with the help of the style tool.
  • Editing the existing text like changing the size & style of vector text.
  • Use of vector text spacing tool to edit the existing artwork model.
  • Create the duplicate mirror design by using the mirror tool (Horizontal/vertical)
  • Constraint the complete model using the constraint tool.
  • Create and Edit mode the geometrics by using artisan software.
  • Scale the geometrics by using artisan software.
  • Create &break the vectors and re-join.
  • Create artwork by using Vector Layers
  • Exercises on Vector Preview – Print for approval.
  • Setting up the software for Basic 2D Machining
  • Create 2D art shapes for machining
  • Createan  area clearance toolpath on 2D geometry.
  • Selection of vector and cutting depth for 2D machining.
  • 2D Machining parameter selection from the library.
  • Selection of tool from the library for 2D machining.
  • Create a 2D Roughing path for curve & square path using 2D machining tools.
  • Create a Drilling operation setup and generate 2a D tool path.
  • List out the Basic 3D Modelling functionalities
  • Create & edit the Shape Spherical, Conical, Flat
  • Importing of 3D model and placement on working plane
  • Use 3D boundary frame from existing library and adjust according to the model
  • Add & Subtract the 3D geometries in artisan software.
  • Create merger by Using Tool Merge High and Merge Low
  • Create Smooth Relief & generate the profile.
  • Perform Sculpting operation and create Tool profile.
  • Import the model and select the whole tool for texturing.
  • Import the model and select the selected vector tool for texturing.
  • Use of standard texture Sphere, Ellipse, Cone, Pyramid, etc.
  • Create 2 Rail Sweep &leaf shape.
  • Create star shape.
  • Change the height of art work using boundary relief option
  • Create smooth boundaries of art work using boundary relief option
  • Setting up the machine area by using machine relief option.
  • Selection of vectors to create machine tool relief.
  • Perform the texture Relief operation.
  • Exercise on Texture Flow tool
  • Exercise on Texture scale up and Flow Spacing
  • Create the cylindrical surface of the model by considering manufacturing constraints.
  • Create & edit the ring side vector.
  • Create & edit the Bannister.
  • Create & edit the roller dies.
  • Import the tool library for roughing to finishing operation.
  • Create and update the Tool Database.
  • Create and update the Cutting Parameters.
  • Selection of Tools and editing the parameters as per 3D art work operation.
  • Perform Roughing operation set up in artisan software.
  • Create End mill and Finishing set up of Ball Nose
  • Generate Machine Relief Toolpaths artisan software.
  • Setting up the material thickness and model position of in material.
  • Export toolpath summary information of finalize toolpath.
  • Import the model and set to the co-ordinate.
  • Select the model or 3D art wok and set the tooling data for simulation.
  • Run the simulation tool and virtually verification of tool path.
  • Export the 3D generated tool path for future references.
  • Generate the NC code of art work design.
  • Export the NC code for machining purpose.
  • Modify the tool path by changing tooling and reference points.
  • Update the tool library and tooling database.
  • Virtual verification of machining by using simulation tool to confirm the tooling data and machining relief
  • Create complex product by using artisan software and generate the NC code by using advanced 3D machining toolbar.
  • Performing Rotary Machining Setup
  • Use of sub commands Ring Design.
  • Develop Pillar Design and perform machining setup
  • Export 3D model to various CAD file formats.
  • Prepare 3D printing machine (Material loading, Nozzle selection and calibration of work plate).
  • Prepare and optimize the model design using Slicing software.
  • Create the physical product by using Additive manufacturing machine
  • Prepare the CNC & VMC machine (Loading of cutting tools, machine and tool offset referencing.
  • Create the physical product by using CNC/VMC Machine for Artisan.
  • Prepare laser cutting machine (Setting of cutting parameters and adjusting of work holding device)
  • Create the physical product by using Laser cutter equipment’s.
  • Perform Preventive maintenance and basic troubleshooting of 3D printing, CNC, VMC and laser cutting machine.
  • Maintaining drawing, document and performing print operation.
  • Finish the component using post processing tools.
  • Setting up the paint booth.
  • By using paint booth apply the paint to make product/ work of art is aesthetically good and adds value.

ITI Artisan Using Advanced Tool Course Structure

To know more about the ITI Artisan Using Advanced Tool course structure, check out the table given below:

S.No

Course Element

Notional Training Hours

1.

Professional Skill (Trade Practical)

1000

2.

Professional Knowledge (Trade Theory)

280

3.

Workshop Calculation and Science

80

4.

Engineering Skills

80

3.

Employability Skills

160

Total

1600

Also Read: ITI Courses After 10th in India: Admission Process, Types, Fees, Career Options

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FAQs

What is the starting salary of an Artisan Using Advanced Tool?

The starting salary of an Artisan Using Advanced Tool is INR 15,000 to INR 30,000 per month in India.

What are the assessment criteria for the ITI Artisan Using Advanced Tool trade?

The assessment evidence of the ITI Artisan Using Advanced Tool trade includes project work, assignments, viva voce, progress chart, attendance and punctuality, record book, jobs carried out in labs/workshops, record book, and answer sheet of assessment.

What is the passing percentage of the Artisan Using Advanced Tool ITI Trade?

The passing percentage of the Artisan Using Advanced Tool ITI Trade is 60% for trade practical and formative assessment, and for the other subjects, the passing percentage is 33%. No grace marks are awarded to students.

What is the duration of the ITI Trade Artisan Using Advanced Tool?

The duration of the ITI Trade Artisan Using Advanced Tool is 1 year. The total amount of notional training hours for this ITI trade is 1600 hours.

What are the eligibility criteria for the Artisan Using Advanced Tool ITI Trade?

The eligibility criteria for the Artisan Using Advanced Tool ITI Trade requires students to have at least passed Class 10th and enrolled in Class 12th through NIOS or they should have passed Class 12th. Moreover, students must be 14 years of age on the first day of the academic session.

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