If you are looking to become an expert in "Fabrication Layout Development or Flat Pattern Layout Development", take action to gain in-depth knowledge of Fabrication Layout and Flat Pattern Layout Development for all fabrication shapes — whether you are a fresher or a working professional in the fabrication of Process Equipment, Sheet Metal, Insulation, or Ducting Industry.
Click Here to RegisterThis Unique 70 Days "Master in Fabrication Layout" Course will turn you into an expert in Flat Pattern Fabrication Layout Development of all shapes used in Process Equipment Fabrication, Sheet Metal Fabrication, Ducting Fabrication, and Insulation Industry — even if you are just starting your career in the field of fabrication.
Day 1: Introduction to Fabrication Layout Development or Flat Pattern Layout Development. Course structure overview.
Day 2: Pipe or Shell Flat Pattern Layout — Marking / Geometrical Method (concepts).
Day 3: Pipe or Shell Flat Pattern Layout — Numerical Calculation Method (concepts).
Day 4: Pipe or Shell — Practical example solution (layout development).
Day 5: Truncated Pipe Layout — Marking / Geometrical Method (concepts).
Day 6: Truncated Pipe Layout — Numerical Calculation Method (concepts).
Day 7: Truncated Pipe — Practical example solution.
Day 8: Pipe-to-Pipe Intersection (Equal Diameters) — Marking / Geometrical Method.
Day 9: Pipe-to-Pipe Intersection (Equal Diameters) — Numerical Calculation Method.
Day 10: Pipe-to-Pipe Intersection (Equal Diameters) — Practical example solution.
Day 11: Pipe-to-Pipe Intersection (Unequal Diameters) — Marking / Geometrical Method.
Day 12: Pipe-to-Pipe Intersection (Unequal Diameters) — Numerical Calculation Method.
Day 13: Pipe-to-Pipe Intersection (Unequal Diameters) — Practical example solution.
Day 14: Pipe-to-Pipe Intersection (Offset Centers) — Marking / Geometrical Method.
Day 15: Pipe-to-Pipe Intersection (Offset Centers) — Numerical Calculation Method.
Day 16: Pipe-to-Pipe Intersection (Offset Centers) — Practical example solution.
Day 17: Pipe-to-Cone Intersection (Perpendicular to Axis) — Marking / Geometrical Method.
Day 18: Pipe-to-Cone Intersection (Perpendicular to Axis) — Numerical Calculation Method.
Day 19: Pipe-to-Cone Intersection (Perpendicular to Axis) — Practical example solution.
Day 20: Pipe-to-Cone Intersection (Parallel to Axis) — Marking / Geometrical Method.
Day 21: Pipe-to-Cone Intersection (Parallel to Axis) — Numerical Calculation Method.
Day 22: Pipe-to-Cone Intersection (Parallel to Axis) — Practical example solution.
Day 23: Full Cone Layout — Marking / Geometrical Method (concepts).
Day 24: Full Cone Layout — Numerical Method when diameter & height known.
Day 25: Full Cone Layout — Numerical Method when diameter & cone angle known.
Day 26: Full Cone — Practical example solution.
Day 27: Truncated Cone Layout — Marking / Geometrical Method.
Day 28: Truncated Cone Layout — Numerical Calculation Method.
Day 29: Truncated Cone — Practical example solution.
Day 30: Multi-Level Cones — Marking / Geometrical Method (concepts).
Day 31: Multi-Level Cones — Numerical Calculation Method.
Day 32: Multi-Level Cones — Practical example solution.
Day 33: Eccentric Cone Layout — Marking / Geometrical Method.
Day 34: Eccentric Cone Layout — Numerical Calculation Method.
Day 35: Eccentric Cone — Practical example solution.
Day 36: Multi-Level Eccentric Cones — Marking / Geometrical Method.
Day 37: Multi-Level Eccentric Cones — Numerical Calculation Method.
Day 38: Multi-Level Eccentric Cones — Practical example solution.
Day 39: Tori Cone with Knuckle Radius at Large End — Marking / Geometrical Method.
Day 40: Tori Cone (Knuckle at Large End) — Numerical Calculation Method.
Day 41: Tori Cone (Knuckle at Large End) — Practical example solution.
Day 42: Tori Cone with Knuckle Radius at Both Ends — Marking / Geometrical Method.
Day 43: Tori Cone (Knuckle at Both Ends) — Numerical Calculation Method.
Day 44: Tori Cone (Knuckle at Both Ends) — Practical example solution.
Day 45: Square→Round or Rectangular→Round Layout — Marking / Geometrical Method.
Day 46: Square→Round or Rectangular→Round Layout — Numerical Calculation Method.
Day 47: Square→Round / Rectangular→Round — Practical example solution.
Day 48: Round→Square or Round→Rectangular Layout — Marking / Geometrical Method.
Day 49: Round→Square or Round→Rectangular Layout — Numerical Calculation Method.
Day 50: Round→Square / Round→Rectangular — Practical example solution.
Day 51: Pyramid Layout Development — Marking / Geometrical Method.
Day 52: Pyramid Layout Development — Numerical Calculation Method.
Day 53: Pyramid — Practical example solution.
Day 54: Truncated Pyramid Layout — Marking / Geometrical Method.
Day 55: Truncated Pyramid Layout — Numerical Calculation Method.
Day 56: Truncated Pyramid — Practical example solution.
Day 57: Sphere Petal Layout — Marking / Geometrical Method.
Day 58: Sphere Petal Layout — Numerical Calculation Method.
Day 59: Sphere Petal — Practical example solution.
Day 60: Dish Ends Petal Layout — Marking / Geometrical Method.
Day 61: Dish Ends Petal Layout — Numerical Calculation Method.
Day 62: Dish Ends Petal — Practical example solution.
Day 63: Miter Bend Layout — Marking / Geometrical Method.
Day 64: Miter Bend Layout — Numerical Calculation Method.
Day 65: Miter Bend — Practical example solution.
Day 66: Screw Flight Flat Pattern Layout — Numerical Calculation Method.
Day 67: Screw Flight — Practical example solution.
Day 68: Digital Tools for Checking Fabrication Layout Solutions (software checks & validation).
Day 69: Fabrication Layout Strategies and Material Planning Concepts (optimization & nesting).
Day 70: Overview of commonly used software in fabrication layout development & course wrap-up.
eBook "Master in Fabrication Layout Development"
(Free, Valued Rs.1000)
Real learners sharing their experience from this course
⭐ Rated 4.9/5 by 350+ Fabrication Professionals | 2,500+ Students Enrolled
Let’sFab is a team of working professionals in fabrication, continuously digitizing fabrication techniques. We have developed digital products such as eBooks, Video Courses, Excel Utilities, Mobile Apps, and Software to make a fabrication engineer’s work simpler, faster, and more efficient.
This is an e-learning course. After successful payment, you’ll receive login credentials via email or you can directly login to course using credentials you provided at the time of registrations. Use them to access your dashboard to view lessons, claim bonuses, and download your completion certificate. For any assistance, contact our support team.
Everything you need to know before enrolling
We have Created this Powerful Course with just one in mind that you will become expert in each and every concept of Flat Pattern Fabrication Layout Development in simple and easy way.
Click Here to Register