Search results
(1 - 7 of 7)
- Title
- Enhancing the Reliability and Performance of Paper Shredders (semester?), IPRO 321: Enhancing the Reliability and Perf of Paper Shredders IPRO 321 Poster F07
- Creator
- Choi, Migun, Choriki, Justin, Flicek, Stephen, Huang, Yuxiong, Inouye, Tyler, King, Richard, Marinov, Plamen, Nagwan, Angad, Nielson, Garrett, Obst, Leslie, Pesik, Vesna, Swaidner, Kyle, Toyama, Brandee, Valls, Nil
- Date
- 2007-12, 2007-12
- Description
-
1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount...
Show more1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount of force is determined, develop a computer simulation model that can predict the amount of force required based upon the following variable inputs: number of sheets, shred width, and shred length. 2. Through computer simulation or prototype development, design an efficient gear train that optimizes the number of gears and minimizes the motor size based upon data obtained from previous semester’s data. The goal is to develop and simulate a gear train that can withstand 500 cycles at maximum sheet capacity. 3. Develop acoustical sound dampeners or “tune” the shredder to reduce the amount of noise created during the shredding process, leveraging information obtained from previous semesters’ data. The goal is to reduce the noise output by 10 decibels
Sponsorship: Seth Lewis, President of The Manhattan Group
Deliverables for IPRO 321: Enhancing the Reliability and Performance of Paper Shredders for the Fall 2007 semester
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- Title
- Enhancing the Reliability and Performance of Paper Shredders (semester?), IPRO 321: Enhancing the Reliability and Perf of Paper Shredders IPRO 321 Midterm Report F07
- Creator
- Choi, Migun, Choriki, Justin, Flicek, Stephen, Huang, Yuxiong, Inouye, Tyler, King, Richard, Marinov, Plamen, Nagwan, Angad, Nielson, Garrett, Obst, Leslie, Pesik, Vesna, Swaidner, Kyle, Toyama, Brandee, Valls, Nil
- Date
- 2007-12, 2007-12
- Description
-
1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount...
Show more1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount of force is determined, develop a computer simulation model that can predict the amount of force required based upon the following variable inputs: number of sheets, shred width, and shred length. 2. Through computer simulation or prototype development, design an efficient gear train that optimizes the number of gears and minimizes the motor size based upon data obtained from previous semester’s data. The goal is to develop and simulate a gear train that can withstand 500 cycles at maximum sheet capacity. 3. Develop acoustical sound dampeners or “tune” the shredder to reduce the amount of noise created during the shredding process, leveraging information obtained from previous semesters’ data. The goal is to reduce the noise output by 10 decibels
Sponsorship: Seth Lewis, President of The Manhattan Group
Deliverables for IPRO 321: Enhancing the Reliability and Performance of Paper Shredders for the Fall 2007 semester
Show less
- Title
- Enhancing the Reliability and Performance of Paper Shredders (semester?), IPRO 321: Enhancing the Reliability and Perf of Paper Shredders IPRO 321 Final Report F07
- Creator
- Choi, Migun, Choriki, Justin, Flicek, Stephen, Huang, Yuxiong, Inouye, Tyler, King, Richard, Marinov, Plamen, Nagwan, Angad, Nielson, Garrett, Obst, Leslie, Pesik, Vesna, Swaidner, Kyle, Toyama, Brandee, Valls, Nil
- Date
- 2007-12, 2007-12
- Description
-
1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount...
Show more1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount of force is determined, develop a computer simulation model that can predict the amount of force required based upon the following variable inputs: number of sheets, shred width, and shred length. 2. Through computer simulation or prototype development, design an efficient gear train that optimizes the number of gears and minimizes the motor size based upon data obtained from previous semester’s data. The goal is to develop and simulate a gear train that can withstand 500 cycles at maximum sheet capacity. 3. Develop acoustical sound dampeners or “tune” the shredder to reduce the amount of noise created during the shredding process, leveraging information obtained from previous semesters’ data. The goal is to reduce the noise output by 10 decibels
Sponsorship: Seth Lewis, President of The Manhattan Group
Deliverables for IPRO 321: Enhancing the Reliability and Performance of Paper Shredders for the Fall 2007 semester
Show less
- Title
- Enhancing the Reliability and Performance of Paper Shredders (semester?), IPRO 321: Enhancing the Reliability and Perf of Paper Shredders IPRO 321 Project Plan F07
- Creator
- Choi, Migun, Choriki, Justin, Flicek, Stephen, Huang, Yuxiong, Inouye, Tyler, King, Richard, Marinov, Plamen, Nagwan, Angad, Nielson, Garrett, Obst, Leslie, Pesik, Vesna, Swaidner, Kyle, Toyama, Brandee, Valls, Nil
- Date
- 2007-12, 2007-12
- Description
-
1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount...
Show more1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount of force is determined, develop a computer simulation model that can predict the amount of force required based upon the following variable inputs: number of sheets, shred width, and shred length. 2. Through computer simulation or prototype development, design an efficient gear train that optimizes the number of gears and minimizes the motor size based upon data obtained from previous semester’s data. The goal is to develop and simulate a gear train that can withstand 500 cycles at maximum sheet capacity. 3. Develop acoustical sound dampeners or “tune” the shredder to reduce the amount of noise created during the shredding process, leveraging information obtained from previous semesters’ data. The goal is to reduce the noise output by 10 decibels
Sponsorship: Seth Lewis, President of The Manhattan Group
Deliverables for IPRO 321: Enhancing the Reliability and Performance of Paper Shredders for the Fall 2007 semester
Show less
- Title
- Enhancing the Reliability and Performance of Paper Shredders (semester?), IPRO 321: Enhancing the Reliability and Perf of Paper Shredders IPRO 321 IPRO Day Presentation F07
- Creator
- Choi, Migun, Choriki, Justin, Flicek, Stephen, Huang, Yuxiong, Inouye, Tyler, King, Richard, Marinov, Plamen, Nagwan, Angad, Nielson, Garrett, Obst, Leslie, Pesik, Vesna, Swaidner, Kyle, Toyama, Brandee, Valls, Nil
- Date
- 2007-12, 2007-12
- Description
-
1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount...
Show more1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount of force is determined, develop a computer simulation model that can predict the amount of force required based upon the following variable inputs: number of sheets, shred width, and shred length. 2. Through computer simulation or prototype development, design an efficient gear train that optimizes the number of gears and minimizes the motor size based upon data obtained from previous semester’s data. The goal is to develop and simulate a gear train that can withstand 500 cycles at maximum sheet capacity. 3. Develop acoustical sound dampeners or “tune” the shredder to reduce the amount of noise created during the shredding process, leveraging information obtained from previous semesters’ data. The goal is to reduce the noise output by 10 decibels
Sponsorship: Seth Lewis, President of The Manhattan Group
Deliverables for IPRO 321: Enhancing the Reliability and Performance of Paper Shredders for the Fall 2007 semester
Show less
- Title
- Enhancing the Reliability and Performance of Paper Shredders (semester?), IPRO 321
- Creator
- Choi, Migun, Choriki, Justin, Flicek, Stephen, Huang, Yuxiong, Inouye, Tyler, King, Richard, Marinov, Plamen, Nagwan, Angad, Nielson, Garrett, Obst, Leslie, Pesik, Vesna, Swaidner, Kyle, Toyama, Brandee, Valls, Nil
- Date
- 2007-12, 2007-12
- Description
-
1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount...
Show more1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount of force is determined, develop a computer simulation model that can predict the amount of force required based upon the following variable inputs: number of sheets, shred width, and shred length. 2. Through computer simulation or prototype development, design an efficient gear train that optimizes the number of gears and minimizes the motor size based upon data obtained from previous semester’s data. The goal is to develop and simulate a gear train that can withstand 500 cycles at maximum sheet capacity. 3. Develop acoustical sound dampeners or “tune” the shredder to reduce the amount of noise created during the shredding process, leveraging information obtained from previous semesters’ data. The goal is to reduce the noise output by 10 decibels
Sponsorship: Seth Lewis, President of The Manhattan Group
Deliverables for IPRO 321: Enhancing the Reliability and Performance of Paper Shredders for the Fall 2007 semester
Show less
- Title
- Enhancing the Reliability and Performance of Paper Shredders (semester?), IPRO 321: Enhancing the Reliability and Perf of Paper Shredders IPRO 321 Abstract F07
- Creator
- Choi, Migun, Choriki, Justin, Flicek, Stephen, Huang, Yuxiong, Inouye, Tyler, King, Richard, Marinov, Plamen, Nagwan, Angad, Nielson, Garrett, Obst, Leslie, Pesik, Vesna, Swaidner, Kyle, Toyama, Brandee, Valls, Nil
- Date
- 2007-12, 2007-12
- Description
-
1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount...
Show more1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount of force is determined, develop a computer simulation model that can predict the amount of force required based upon the following variable inputs: number of sheets, shred width, and shred length. 2. Through computer simulation or prototype development, design an efficient gear train that optimizes the number of gears and minimizes the motor size based upon data obtained from previous semester’s data. The goal is to develop and simulate a gear train that can withstand 500 cycles at maximum sheet capacity. 3. Develop acoustical sound dampeners or “tune” the shredder to reduce the amount of noise created during the shredding process, leveraging information obtained from previous semesters’ data. The goal is to reduce the noise output by 10 decibels
Sponsorship: Seth Lewis, President of The Manhattan Group
Deliverables for IPRO 321: Enhancing the Reliability and Performance of Paper Shredders for the Fall 2007 semester
Show less