Search results
(1 - 14 of 14)
- Title
- Integration of Process Improvements (Semester Unknown) IPRO 304
- Creator
- Flores, Emmanuel, Hawker, Corey, Loeppert, Charles, Marx, Ryan, Pollack, Richard, Rodriguez, Ricardo, Snyder, David, Stevanovic, Stefan, Willett, Joshua
- Date
- 2010, 2010-05
- Description
-
During the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is...
Show moreDuring the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is lost due to the fact that cutting inserts break catastrophically and without warning. The goal of this project is to devise an effective means by which a cutting insert breakage event can be quickly and reliably detected, thereby minimizing damage to the steel and other cutting inserts, and also freeing technicians to attend multiple machines at a time. This increases the productivity of their operations, and it has the potential to save A. Finkl & Sons substantial costs per year in time lost in rework and prematurely broken cutting inserts.
Sponsorship: A. Finkl & Sons
Deliverables
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- Title
- Integration of Process Improvements (Semester Unknown) IPRO 304: IntegrationOfProcessImprovementsIPRO304FinalPresentationSp10
- Creator
- Flores, Emmanuel, Hawker, Corey, Loeppert, Charles, Marx, Ryan, Pollack, Richard, Rodriguez, Ricardo, Snyder, David, Stevanovic, Stefan, Willett, Joshua
- Date
- 2010, 2010-05
- Description
-
During the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is...
Show moreDuring the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is lost due to the fact that cutting inserts break catastrophically and without warning. The goal of this project is to devise an effective means by which a cutting insert breakage event can be quickly and reliably detected, thereby minimizing damage to the steel and other cutting inserts, and also freeing technicians to attend multiple machines at a time. This increases the productivity of their operations, and it has the potential to save A. Finkl & Sons substantial costs per year in time lost in rework and prematurely broken cutting inserts.
Sponsorship: A. Finkl & Sons
Deliverables
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- Title
- Integration of Process Improvements (Semester Unknown) IPRO 304: IntegrationOfProcessImprovementsIPRO304PosterSp10
- Creator
- Flores, Emmanuel, Hawker, Corey, Loeppert, Charles, Marx, Ryan, Pollack, Richard, Rodriguez, Ricardo, Snyder, David, Stevanovic, Stefan, Willett, Joshua
- Date
- 2010, 2010-05
- Description
-
During the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is...
Show moreDuring the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is lost due to the fact that cutting inserts break catastrophically and without warning. The goal of this project is to devise an effective means by which a cutting insert breakage event can be quickly and reliably detected, thereby minimizing damage to the steel and other cutting inserts, and also freeing technicians to attend multiple machines at a time. This increases the productivity of their operations, and it has the potential to save A. Finkl & Sons substantial costs per year in time lost in rework and prematurely broken cutting inserts.
Sponsorship: A. Finkl & Sons
Deliverables
Show less
- Title
- Integration of Process Improvements (Semester Unknown) IPRO 304: IntegrationOfProcessImprovementsIPRO304BrochureSp10
- Creator
- Flores, Emmanuel, Hawker, Corey, Loeppert, Charles, Marx, Ryan, Pollack, Richard, Rodriguez, Ricardo, Snyder, David, Stevanovic, Stefan, Willett, Joshua
- Date
- 2010, 2010-05
- Description
-
During the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is...
Show moreDuring the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is lost due to the fact that cutting inserts break catastrophically and without warning. The goal of this project is to devise an effective means by which a cutting insert breakage event can be quickly and reliably detected, thereby minimizing damage to the steel and other cutting inserts, and also freeing technicians to attend multiple machines at a time. This increases the productivity of their operations, and it has the potential to save A. Finkl & Sons substantial costs per year in time lost in rework and prematurely broken cutting inserts.
Sponsorship: A. Finkl & Sons
Deliverables
Show less
- Title
- Integration of Process Improvements (Semester Unknown) IPRO 304: IntegrationOfProcessImprovementsIPRO304FinalReportSp10
- Creator
- Flores, Emmanuel, Hawker, Corey, Loeppert, Charles, Marx, Ryan, Pollack, Richard, Rodriguez, Ricardo, Snyder, David, Stevanovic, Stefan, Willett, Joshua
- Date
- 2010, 2010-05
- Description
-
During the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is...
Show moreDuring the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is lost due to the fact that cutting inserts break catastrophically and without warning. The goal of this project is to devise an effective means by which a cutting insert breakage event can be quickly and reliably detected, thereby minimizing damage to the steel and other cutting inserts, and also freeing technicians to attend multiple machines at a time. This increases the productivity of their operations, and it has the potential to save A. Finkl & Sons substantial costs per year in time lost in rework and prematurely broken cutting inserts.
Sponsorship: A. Finkl & Sons
Deliverables
Show less
- Title
- Integration of Process Improvements (Semester Unknown) IPRO 304: IntegrationOfProcessImprovementsIPRO304ProjectPlanSp10
- Creator
- Flores, Emmanuel, Hawker, Corey, Loeppert, Charles, Marx, Ryan, Pollack, Richard, Rodriguez, Ricardo, Snyder, David, Stevanovic, Stefan, Willett, Joshua
- Date
- 2010, 2010-05
- Description
-
During the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is...
Show moreDuring the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is lost due to the fact that cutting inserts break catastrophically and without warning. The goal of this project is to devise an effective means by which a cutting insert breakage event can be quickly and reliably detected, thereby minimizing damage to the steel and other cutting inserts, and also freeing technicians to attend multiple machines at a time. This increases the productivity of their operations, and it has the potential to save A. Finkl & Sons substantial costs per year in time lost in rework and prematurely broken cutting inserts.
Sponsorship: A. Finkl & Sons
Deliverables
Show less
- Title
- Integration of Process Improvements (Semester Unknown) IPRO 304: IntegrationOfProcessImprovementsIPRO304MidTermPresentationSp10
- Creator
- Flores, Emmanuel, Hawker, Corey, Loeppert, Charles, Marx, Ryan, Pollack, Richard, Rodriguez, Ricardo, Snyder, David, Stevanovic, Stefan, Willett, Joshua
- Date
- 2010, 2010-05
- Description
-
During the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is...
Show moreDuring the milling operations at an industrial steel producer like A. Finkl & Sons (Chicago, IL), a substantial amount of time and money is lost due to the fact that cutting inserts break catastrophically and without warning. The goal of this project is to devise an effective means by which a cutting insert breakage event can be quickly and reliably detected, thereby minimizing damage to the steel and other cutting inserts, and also freeing technicians to attend multiple machines at a time. This increases the productivity of their operations, and it has the potential to save A. Finkl & Sons substantial costs per year in time lost in rework and prematurely broken cutting inserts.
Sponsorship: A. Finkl & Sons
Deliverables
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- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318Poster1Sp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
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- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318FinalPresentationSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318ProjectPlanSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318BrochureSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318MidTermPresentationSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318: PEMFuelCellTechnologyIPRO318FinalReportSp09
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less
- Title
- PEM Fuel Cell Technology (Semester Unknown) IPRO 318
- Creator
- Adebole, Kolade, Aguirre, Marisol, Baker, Kathleen, Booher, Steven, Corson, Elizabeth, Dorr, Elena, Khan, Anam, Kloppenborg, Ellen, Kunkel, Emily, Marks, Matthew, Massoud, Hussein, Matezic, Samira, Mocny, William, Nicholson, Bethany, Shpuntova, Galina, Smith, Adam, Swillum, Bryce, Willett, Joshua, Zellarchaffer, Priscilla, Zhao, Yin, Zwibelman, Hannah
- Date
- 2009, 2009-05
- Description
-
1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other...
Show more1. Evaluate the feasibility of PEM fuel cells in commercial application, including military and defense, automotive, aerospace, and other specialties 2. Investigate industrial and commercial technicalities of PEM fuel cells and study methods of improving the robustness of catalysts and reducing fuel impurities 3. Compare and contrast the performance and cost of fuel cell and internal combustion engines 4. Design and incorporate a PEM fuel cell system into commercial application and perform a cost and benefit analysis utilizing engineering design principles
Deliverables
Show less