MY 3400 - Mechanical Properties of Materials - Materials Science ...

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.

MY 3400 - Mechanical Properties of MaterialsSpring 2006Instructor:Dr. Walter W. Milligan (please call me Walt)Professor, Department of Materials Science and Engineering401 M&M Bldg., 487-2015, milligan@mtu.eduOffice Hours:No set hours. I am generally available, feel free to stop by. For bestresults, e-mail for appointment.Objectives:To develop a sound understanding of the following topics:1. How to physically measure the mechanical properties of structuralmaterials and interpret the results of standard tests.2. Engineering mechanics: stress and strain in 3-D, stress-strain relations,material behavior under non-trivial loading conditions.3. Relationships between material microstructure and mechanicalbehavior. How to manipulate materials to optimize mechanicalperformance.4. Mechanical failure of structural materials.5. Introduction to mechanical behavior of biomaterials.Required Text:Class Website:M.A. Meyers and K.K. Chawla: Mechanical Behavior of Materials,Prentice-Hall, 1999.http://www.mse.mtu.edu/~milligan/my3400/Grading:3 Mid-terms and a final, 25% each.