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    Learn Progressive Die Design In Nx From Scratch

    Posted By: ELK1nG
    Learn Progressive Die Design In Nx From Scratch

    Learn Progressive Die Design In Nx From Scratch
    Published 12/2024
    MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
    Language: English | Size: 15.09 GB | Duration: 17h 11m

    A comprehensive approach towards die design for a beginner and pro alike.

    What you'll learn

    Design a progressive die.

    Validate the tool through tooling motion simulation and static interference check.

    Export the BOM and present the quote to the customer.

    Understand the material science behind die materials.

    Requirements

    A mechanical engineering graduate or a diploma holder.

    Description

    The basic objective behind designing this course the way it is lies in the fact that mechanical engineering graduates are merely falling apart as placeholders in the manufacturing industry, and eventually end up pursuing a career avenue in other fields like IT, AI, etc. This can be partly attributed to the fact that these students don't have the necessary acumen or pre-requisite for pursuing a job in mechanical engineering and sustaining themselves, and partly because fields like IT, and AI are outpacing the other conventional pursuits in growth. Progressive Die Design is an evergreen career opportunity that caters to the needs of the mechanical, electronic, automotive, and aerospace industries, among others. This course has been curated to fulfill the expectations of someone who is a layman in this field to someone who already has some experience going forward. Each section has been strategically designed to cover every aspect of die design from creation, assembly, and simulation to validation. The instructor can certainly vouch for the fact that whosoever enrolls in this course will get value for his money. Rest assured, the course has enough content to make the students tailor-made in this field. Additionally, the instructor aspires to continuously add more content as the scope of learning is always endless. Enjoy the course!

    Overview

    Section 1: Introduction

    Lecture 1 Different Types of Dies

    Lecture 2 Introduction to Progressive Die Design in NX

    Lecture 3 Introduction to Progressive Die Wizard

    Section 2: Sheet Metal tools

    Lecture 4 Direct Unfolding

    Lecture 5 Bend Operation

    Lecture 6 Formability Analysis

    Lecture 7 Common sheet metal tools

    Section 3: Progressive Die Project

    Lecture 8 Initialize Project

    Lecture 9 Generate Blank

    Lecture 10 Creating Blank Layout

    Lecture 11 Design Scrap

    Lecture 12 Creating Strip Layout

    Section 4: Force Calculation

    Lecture 13 Force Calculation

    Section 5: Manage Die Base

    Lecture 14 Manage Die Base

    Lecture 15 Die Design Setting

    Section 6: Piercing Insert Design

    Lecture 16 Adding piercing inserts (punch and die)

    Section 7: Recapitulation

    Lecture 17 Creating Intermediate Stages

    Lecture 18 Creating Blank Layout

    Lecture 19 Scrap Design

    Lecture 20 Strip Layout

    Lecture 21 Creating Die Base

    Lecture 22 Creating Piercing Inserts

    Section 8: Creating Bending Inserts

    Lecture 23 Creating bending inserts

    Section 9: Creating Forming Inserts

    Lecture 24 Creating Forming Inserts

    Section 10: Creating Burring Inserts

    Lecture 25 Creating burring inserts

    Section 11: Auxiliary operations on Inserts

    Lecture 26 Insert auxiliary design

    Section 12: Standard Parts

    Lecture 27 Inserting standard parts

    Lecture 28 Designing Pilots Part 1

    Lecture 29 Designing Pilots Part 2

    Lecture 30 Designing Pilots Part 3

    Lecture 31 Inserting Punches and Lifters in NX

    Section 13: Relief and Pocket design

    Lecture 32 Relief design

    Lecture 33 Pocket Design

    Section 14: Bill Of Material & Component Drawing

    Lecture 34 Bill Of Material

    Lecture 35 Assembly and Component drawing

    Section 15: Die making materials and their heat treatment

    Lecture 36 Die Making Materials

    Lecture 37 Heat Treatment of Die Materials

    Section 16: Hole Table and View Manager

    Lecture 38 Creating Hole Table

    Lecture 39 Understanding View Manager

    Section 17: Tooling Validation

    Lecture 40 Static Interference Check

    Lecture 41 Tooling Motion Simulation

    Lecture 42 Design Change Check

    Aspiring mechanical engineers, tool designers, tool room experts, NX CAD tool specialist, product specialist.