Gate 3 - Product Analysis (Group 10)

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|'''Product Analysis'''||
 
|'''Product Analysis'''||
Analyze the engineering decisions that were made during the design of the product,  
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In this section we analyze the engineering decisions that were made during the design of our product,  
considering the questions in Table 1 at a minimum for seven or more components.
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considering the many design questions ,in Table 1 (under the table one link to the right),of a few vital components of our product.In this section we also analyse the complexity of the parts in question useing our derived Complexity Scale which can be found under the Complexity Scale like tothe right.  
These components should be important to the user’s experience, product functionality,
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product failure, etc.; components which are heavily influenced by one or more GSEE factors
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are also good candidates for analysis. Justification of your component selection should be
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provided in the component’s introduction. You should reflect on the information gathered in  
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the previous stages (e.g., the development profile) to help inform your analysis.
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*[[Product Analysis -(Group 10)]]
 
*[[Product Analysis -(Group 10)]]
 
*[[Complexity Scale - (Group 10)]]
 
*[[Complexity Scale - (Group 10)]]
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*[[Table 1 Questions - (Group 10)]]
 
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|'''Solid Modeled Assembly'''||
 
|'''Solid Modeled Assembly'''||
Your group should provide solid models of 3-5 individual components using the CAD package of your
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In this section our group provides solid models of 3 components using Autodesk Inventor.
choice. These components should physically interact, and you must provide an assembly drawing
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that represents the interaction. Briefly explain your choice of components and CAD package; in
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this explanation, you may wish to consider previous work.
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*[[Solid Modeled Assembly -(Group 10)]]
 
*[[Solid Modeled Assembly -(Group 10)]]
 
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|'''Engineering Analysis'''||
 
|'''Engineering Analysis'''||
Choose a key component or function and explain how engineering analysis would be used in the design  
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In this section our group explains how engineering analysis would be used in the design of the Engines Piston. we provide a detailed description including relevant equations
or testing stages of the design process. Provide a detailed description including relevant equations
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and processes that would allow an engineer to easily perform this analysis following the analysis process.
and processes that would allow an engineer to easily perform this analysis. This analysis could also
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be used to help inform your proposed revisions.
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*[[Engineering Analysis -(Group 10)]]
 
*[[Engineering Analysis -(Group 10)]]

Revision as of 20:51, 15 November 2012

The goal of this gate of the project is to complete a detailed analysis of our Snow Blower. In this stage we examined the product at the component and subsystem level, gathering and analyzing detailed information, past what we did in the previous two gates. This proses entailed the revision of our parts list form gate two to include the manufacturing processes used to create each part as well as applicable part numbers on the parts. Also we analyzed some parts in more depth creating solid models and also suggested design revisions which could be made to our product.


Product Archaeology: Product Evaluation

Product Archaeology:Stage Stage Description Link to Page
Component Summary

Document all of the product’s components. In addition to an image of the component, identify the component’s function, materials used, manufacturing processes used, model or part number if applicable, and other important information. Be sure to include the number of times the components is used.

Product Analysis

In this section we analyze the engineering decisions that were made during the design of our product, considering the many design questions ,in Table 1 (under the table one link to the right),of a few vital components of our product.In this section we also analyse the complexity of the parts in question useing our derived Complexity Scale which can be found under the Complexity Scale like tothe right.

Solid Modeled Assembly

In this section our group provides solid models of 3 components using Autodesk Inventor.

Engineering Analysis

In this section our group explains how engineering analysis would be used in the design of the Engines Piston. we provide a detailed description including relevant equations and processes that would allow an engineer to easily perform this analysis following the analysis process.

Design Revisions

Recommend at least 3 design changes for the product at the component or subsystem level, including (part) features you would change or eliminate and components you would combine or eliminate. These changes should address one or more of the following: global, societal, economic, or environmental concerns. The changes should improve performance, serviceability, cost, etc. Keep in mind the products target audience and price point when making changes.

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