Autodesk Inventor (from Zero to Professional) الانفنتور
3.9 (78 ratings)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
667 students enrolled

Autodesk Inventor (from Zero to Professional) الانفنتور

Part modeling/Assembly/Drafting/Bolted connections/Power transmission elements/Sheet metal work
3.9 (78 ratings)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
667 students enrolled
Created by Amr Shaaban
Last updated 1/2019
Arabic
Current price: $16.99 Original price: $24.99 Discount: 32% off
5 hours left at this price!
30-Day Money-Back Guarantee
This course includes
  • 9.5 hours on-demand video
  • 17 downloadable resources
  • Full lifetime access
  • Access on mobile and TV
  • Certificate of Completion
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What you'll learn
  • رسم ثلاثي الأبعاد - Part modelling
  • تصميم منتجات الصاج المعدني - sheet metal work
  • تجميع العناصر الميكانيكية وتركيبها - assembly
  • إعداد لوحات الرسم الهندسية - drafting
  • تصميم وصلات المسامير - design of bolted connections
  • تصميم عناصر نقل الطاقة - design of power transmission elements
Requirements
  • الرسم الهندسي - engineering drawing
  • أساسيات إنشاء الماكينات وتصميمها - basics of machine construction and design
  • برنامج أوتودسك إنفنتور - Autodesk Inventor Software
Description

هذا الكورس يحتوى على 28 محاضرة مقسمة الى 6 أقسام في مجال التصميم الهندسي الميكانيكي باستخدام أحد أشهر برامج الكاد وهو الأوتوديسك إنفنتور.
يبدأ الكورس من مرحلة الصفر حيث يتعامل مع الطالب الذي لا يزال في مرحلة تعلم الرسم الهندسي..ثم يتدرج صاعدًا للوصول الى التصميمات الميكانيكة المعقدة.
يجمع الكورس بين التركيز على المفاهيم والأساسيات المتعلقة بالمجال وبين التطبيق العملي وتنفيذ مشاريع للوصول لمستوى الاحتراف.

. المحاضرات معروضة باللغة العربية مع استخدام المصطلحات الانجليزية.

This course comprises 28 lectures, divided into 6 sections, focusing on mechanical design, using one of the most famous CAD software (Autodesk Inventor). The course starts from zero, as it deals with the early level students and it gradually reaches the level of sophisticated mechanical designs. The course focuses on both theoretical concepts and practical tutorials to reach professionalism. 

The lectures are presented in Arabic,while using English terms.

Who this course is for:
  • طلاب أقسام ميكانيكا بفروعها المختلفة - Mechanical engineering students of different departments
  • كل من يرغب في تعلم التصميم الميكانيكي (طالب أو خريج) - whoever wishes to learn mechanical design (undergraduate students and graduates)
Course content
Expand all 28 lectures 09:35:06
+ Part modelling concepts and tuorials
9 lectures 02:40:38

تمثل هذه المحاضرة تمهيدًا للقسم الأول من الدورة.

This is an introductory lecture for the first section. In this lecture, we present the part modeling process step by step, starting from 2D sketching to 3D modeling. It is a key lecture, so stay focused.

Preview 13:41

تعلم الرسم ثنائي الأبعاد تمهيدًا لأوامر الرسم ثلاثي الأبعاد في بقية الدورة.

By the end of this lecture you will be qualified to create any 2D profile you may face. Learn how to prepare your working space, how to
deal with constrains, and how to deal with patterns to accelerate your job.

CAD 2D sketching
20:38

بداية الرسم ثلاثي الأبعاد

Learn how to convert the 2D profile you created in lecture 2 into a 3D feature, and how to build or cut your features until you
have your desired part. This lecture deals only with prismatic parts as a start.

CAD 3D modelling
18:46

استكمال المحاضرة السابقة

Learn how to convert the 2D profile you created in lecture 2 into a 3D feature, and how to build or cut your features until you have your desired part. This lecture deals only with revolved parts.

CAD 3D modelling of revolved parts
12:05

مشروع تنفيذي

Dealing with projects requires understanding some crucial principles. Get introduced to them through this lecture while working on a simple project “Pulley bracket”.

CAD deign of a pulley bracket I
15:08

استكمال المشروع.

Continuing the “Pulley bracket” project started in lecture 5.

CAD deign of a pulley bracket II
19:53

تصميم صمام اللا عودة.

Here is a project on which you can apply almost all part modelling principles related to prismatic and revolved parts. The “non-return
valve” project summarizes all the work discussed in the previous lectures. Through this lecture and the upcoming two, dealing with
complex features will not be a problem any more.

CAD deign of a non-return valve I
20:04

استكمال مشروع صمام اللا عودة.

Continuing the “Non-return valve” project started in lecture 7.

CAD deign of a non-return valve II
16:13

استكمال مشروع صمام اللا عودة.

Continuing the “Non-return valve” project started in lecture 7.

CAD deign of a non-return valve III
24:10
+ CAD - Assembly
4 lectures 59:11

This is an introductory lecture for the “Assembly” section. In this lecture, we are going to present the
following:
-Types of constraints.
-How to edit, modify, delete, and drive a constrain.
-Using interference analyzer and contact solver.
-Three tutorials.

Assembly constraints 1
19:05

Continuing lecture 10, covering the rest of constraints, and working on three tutorials:

-Rigid and flexible coupling.
-Planetary and ordinary gear connection.
-Shaft and hole connection.

Assembly constraints 2
12:12

This lecture focuses on creating components and driving adaptivity within the assembly module. Two tutorials are covered:
-Gear unit frame.
-Spring connection.

Assembly - Create component
16:21

This is the last lecture in the "Assembly" section. The “piston-cylinder mechanism” project is presented. Also, some auxiliary commands such as view control and positions are covered.

Piston cylinder mechanism project
11:33
+ CAD - Drafting
4 lectures 01:06:52

In this lecture, the basic principles of mechanical drafting are introduced. It covers the first topic “drawing resources controls”:

-Sheet size
-Sheet type
-Title blocks
-Borders

Drawing resources
15:07

In this lecture, you will learn how to obtain professional standardized working and construction drawings by dealing with various view editing tools such as:
-Projection
-Section
-Break out
-Detailed
-Alignment
-Crop
-Overlay

Views editing 1
14:52

Continuing lecture 16.

Views editing 2
18:20

Learn how to assign correctly the fits and tolerances on your draft.

Fits and tolerances
18:33
+ Design of bolted connections
3 lectures 01:03:39

In this lecture, the basic principles of bolted connections’ design are introduced. Some basic terminologies such as “tightening torque, pre-stress, Assembly and working stresses, Bolt and joint stiffness” are clarified. It also introduces the design accelerator module on Autodesk Inventor.

Design of bolted connections 1
22:52

In this lecture, a step by step tutorial is introduced to apply the basic principles discussed in lecture 18. The lecture covers the followings:

-Placement methods of bolts.
-Type, size, standards of bolts, washers and nuts.
-Load and safety factors.
-Assigning material for bolt and joint.
-Mentoring results and preparing professional reports.

Design of bolted connections 2
21:16

Applications on bolted connections:

-Brackets
-Steel structures
-Jib cranes
-Bench press
-Pressure vessels

Design of bolted connections 3
19:31
+ Design of power transmission elements
6 lectures 03:11:15

In this lecture, the basic principles of power transmission elements in general are introduced. Some general basic terminologies such as “Power, torque, rpm” together with others related to gear design such as “Module, Number of teeth, Gear ratio, pressure angle, etc.” are all clarified. It also introduces the use of design accelerator module on Autodesk Inventor to obtain a professional full-detailed design report to evaluate a gear connection.

Gear design
32:11

In this lecture, the basic terminologies related to shaft design such as “Load sources, NFD, SFD, BMD, TD, theory of elastic failure, support’s reactions, etc.” are all clarified. It also introduces the use of design accelerator module on Autodesk Inventor to obtain a professional full-detailed design report to evaluate a shaft. Various applications are studied through the lecture and finally a step by step tutorial is introduced.

Shaft analysis 1
30:37

Continuing the shaft analysis started in lecture 22. 

Shaft analysis 2
17:05

In this lecture, the theoretical background including hand-calculation for bearings and keys are reviewed. The parameters affecting the design of each, the placement methods, the related standards, and the results items are all covered. The session also introduces the use of design accelerator module on Autodesk Inventor to obtain a professional full-detailed design report to evaluate bearings and keys. Finally, step by step tutorials are introduced.

Design of bearing and keys
23:29

Design of compression springs:
Types of spring
Spring geometry
Free and solid length
Spring loads
Deflection, stiffness, and stresses
Spring standards

Design of compression springs
40:31

Design of V-belts:
Types of belts
Theory of power transmitted via belts
Standards of belts
Belts geometry
Loads and stresses
Belts assembly

Design of belt drives
47:22
+ Design of sheet metal parts
2 lectures 33:31

A special part modeling process that deals with sheet metals is presented in this lecture. Get introduced to the special nature and ways of manufacturing, and standards related to that interesting branch of mechanical industries. Learn how to utilize various commands to create any sheet metal part and how to obtain its flat pattern with ease.

Modelling of sheet metals 1
16:53

Continuing the sheet metal tutorials started in lecture 25.

Modelling of sheet metals 2
16:38