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Basics of TRIZ - Theory of Inventive Problem solving for Mechanical Design
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Innovation in Engineering design
What is Systematic Innovation ?
TRIZ background and origins
Levels of Innovation
What are the Inventive principles, 1st Principle
2nd Principle Extraction
3rd Principle Local Quality
4th Principle Asymmetry
5th Principle Consolidation / Merging
6th Principle Universality
7th Principle Nesting
8th Principle Counterweight
9th Principle Prior Counteraction
10th Principle Prior Action
11th Principle Cushion In Advance
12th Principle Equipotentiality
13th Principle Inversion
14th Principle Spheriodality / Curvature
15th Principle Dynamicity
16th Principle Partial or Overdone Action
17th Principle Moving To Another Dimension
18th Principle Mechanical Vibration
19th Principle Periodic Action
20th Principle Continuity of Useful Action
21st Principle Rushing Through
22nd Principle Convert Harm to Benefit
23rd Principle Feedback
24th Principle Mediator or Intermediary
25th Principle Self Service
26th Principle Copying
27th Principle Replacing Expensive part with Cheap
28th Principle Replacing Mechanical Systems
29th Principle Using Pneumatic or Hydraulics
30th Principle Using Flexible Membranes or Thin Films
31st Principle Use of Porous Materials
32th Principle Change the Colour
33th Principle Homogenity
34th Principle Rejecting and Regenerating Parts
35th Principle Changing Engineering Parameters
36th Using Phase Transitions
37th Principle Thermal Expansion
38th Principle Oxidation
39th Principle Inert Atmosphere
40th Principle Composite Materials
Introduction to Engineering Parameters framework
Engineering Parameters Defined Part 1
Engineering Parameters Defined Part 2
Engineering Parameters Defined Part 3
Engineering Parameters Defined Part 4
Engineering Parameters Defined Part 5
Engineering Parameters Defined Part 6
Introduction to Contradictions in Engineering parameters
Contradiction #1
Contradiction #2
Contradiction #3
Contradiction #4
Contradiction #5
Contradiction #6
Contradiction #7
Contradiction #8
Contradiction #9
Using TRIZ for design engineering - Summary
Basics of Innovation and Background of TRIZ
Innovation in Engineering design
Preview
What is Systematic Innovation ?
TRIZ background and origins
Levels of Innovation
Preview
Inventive Principles
What are the Inventive principles, 1st Principle
2nd Principle Extraction
3rd Principle Local Quality
4th Principle Asymmetry
5th Principle Consolidation / Merging
6th Principle Universality
7th Principle Nesting
8th Principle Counterweight
9th Principle Prior Counteraction
10th Principle Prior Action
11th Principle Cushion In Advance
12th Principle Equipotentiality
13th Principle Inversion
14th Principle Spheriodality / Curvature
15th Principle Dynamicity
16th Principle Partial or Overdone Action
17th Principle Moving To Another Dimension
18th Principle Mechanical Vibration
19th Principle Periodic Action
Preview
20th Principle Continuity of Useful Action
21st Principle Rushing Through
22nd Principle Convert Harm to Benefit
23rd Principle Feedback
24th Principle Mediator or Intermediary
25th Principle Self Service
26th Principle Copying
27th Principle Replacing Expensive part with Cheap
28th Principle Replacing Mechanical Systems
29th Principle Using Pneumatic or Hydraulics
30th Principle Using Flexible Membranes or Thin Films
31st Principle Use of Porous Materials
32th Principle Change the Colour
33th Principle Homogenity
34th Principle Rejecting and Regenerating Parts
35th Principle Changing Engineering Parameters
36th Using Phase Transitions
37th Principle Thermal Expansion
38th Principle Oxidation
39th Principle Inert Atmosphere
40th Principle Composite Materials
Engineering Parameters framework
Introduction to Engineering Parameters framework
Engineering Parameters Defined Part 1
Engineering Parameters Defined Part 2
Engineering Parameters Defined Part 3
Engineering Parameters Defined Part 4
Engineering Parameters Defined Part 5
Engineering Parameters Defined Part 6
Contradictions in Engineering parameters - Using principles
Introduction to Contradictions in Engineering parameters
Contradiction #1
Contradiction #2
Contradiction #3
Contradiction #4
Contradiction #5
Contradiction #6
Contradiction #7
Contradiction #8
Contradiction #9
Using TRIZ for design engineering - Summary
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