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Intro -- Preface -- Dynamic Data Acquisition and Uncertainty in Measurements -- Statistical Treatment of Data and Uncertainty in Measurements -- Statistical Data Representation of Infinite Data -- Statistical Data Representation for Finite Data -- Uncertainty Analysis -- Dynamic Data Acquisition -- Objective -- Background Needed for Conducting the Lab -- Prelab Questions -- Equipment and Resources Needed -- Part 1: Measurement of a Fixed Reference Voltage using the DAQ and LabVIEW -- Problem Statement -- Why Are We Doing This? -- Required LabVIEW Program (VI) -- Connections Required -- Experimental Task for Part 1 -- Issues to be Discussed in the Lab Report for Part 1 -- Part 2: Quantification of Accuracy in Measurements Made by the DAQ -- Problem Statement -- Why Are We Doing This? -- Required LabVIEW Program -- Connections Required -- Experimental Task for Part 2 -- Issues to be Discussed in the Lab Report for Part 2 -- Part 3: Estimation of Strain in an Object Using a Strain Gage -- Problem Statement -- Why Are We Doing This? -- Background -- Required LabVIEW VI -- Connections Required -- Experimental Task for Part 3 -- Issues to be Discussed in the Lab Report for Part 3 -- Part 4: Uncertainty Calculations -- Problem Statement -- Issues to be Discussed in the Lab Report for Part 3 -- Equipment Requirements and Sourcing -- Appendix A: Part 1 - Preparing VI -- Appendix B: Lab Report Format -- Abstract -- Index Terms -- Introduction -- Procedure -- Results -- Discussion -- Conclusion -- References -- Appendices -- General Format -- Design and Build a Transducer to Measure the Weight of an Object -- Cantilever Beam, Strain Gages, and Wheatstone-Bridge -- Cantilever Beam Theory -- Strain Gages and Wheatstone-Bridge -- Strain Gage Theory -- Wheatstone-Bridge -- Calibration of the Transducer -- Determine the Weight of the Bottle Using the MOM Method.
Quantify Uncertainty -- Calibration Curve Method (CCM) -- Use of Multiple-Strain Gages on the Cantilever Beam and in the Wheatstone-Bridge -- Half-bridge (1/2-Bridge) -- Full-bridge -- Micrometer -- Cantilever Beam, Strain Measurement, and Uncertainty -- Objective -- Prelab Preparation -- Equipment and Supplies Needed -- Problem Statement -- Required LabVIEW Program (VI) -- Experimental Task -- Issues to be Discussed in the Lab Report -- Equipment Requirements and Sourcing -- Appendix: Monte Carlo Simulation to Estimate Uncertainty in a Linear Fit -- Stress-Strain Response of Materials -- Introduction -- Tensile Stress-Strain Response of Materials -- Load-based Stress-Strain Curve -- Displacement-based Stress-Strain Curve -- Tensile Response of Materials -- Uncertainty in Stress, Strain, and Elastic Modulus -- Uncertainty in Stress -- Uncertainty in Strain U_ -- Uncertainty in Elastic Modulus (Monte Carlo Simulations) -- Load Controlled Tensile Testing of a Metallic Wire -- Objective -- Before Lab -- Prelab Questions -- Equipment and Supplies Needed -- Problem Statement -- Required LabVIEW Program (VI) -- Connections Required -- Experimental Task -- Issues to be Discussed in the Lab Report -- Principal Equipment Requirements and Sourcing -- Displacement-Controlled Tensile Testing of Materials -- Objective -- Before Lab -- Equipment and Resources Needed -- Problem Statement -- Experimental Task -- Issues to be Discussed in the Lab Report -- Principal Equipment Requirements and Sourcing -- Thin-walled Pressure Vessels -- Thin-walled Pressure Vessel and Strain Rosette -- Introduction -- Theory of Strain Rosette -- Stress-Strain Relationships -- Theory of Thin-walled Pressure Vessel -- Uncertainty Calculations (From Hoop Stress) -- Strain Rosette Bonding and Determination of Pressure in a Beverage Can -- Objective -- Equipment and Supplies Needed.
Experimental Task -- Equipment Needed -- Required LabVIEW Program (VI) -- Experimental Task -- Issues to be Discussed in the Lab Report -- Principal Equipment Requirements and Sourcing -- Strength of Adhesive Joints -- Shear Strength of Adhesive Joints -- Introduction -- Double Lab Shear Testing of Adhesives -- Objectives -- Prelab Question -- Equipment and Resources Needed -- Experimental Tasks -- Issues to be Discussed in the Lab Report -- Creep Behavior of Metals -- Introduction -- Mechanism of Creep -- Creep Behavior of a Metallic Wire -- Objective -- Prelab Questions -- Background Needed for Conducting the Lab -- Equipment Needed -- Problem Statement -- Required LabVIEW Program (VI) -- Experimental Task -- Issues to be Discussed in the Lab Report -- Principal Equipment Requirements and Sourcing -- Charpy Impact Testing -- Motivation -- Theory of Charpy Impact Testing -- Wind Resistance and Frictional Losses -- Monitoring of Forces During Impact -- Determination of F_impact -- Charpy Impact Testing -- Objective -- Background -- Prelab Question -- Equipment Needed -- Required LabVIEW Program (VI) -- Problem Statement -- Experimental Procedure -- Issues to be Discussed in the Lab Report -- Equipment Requirements and Sourcing -- Flexural Loading, Beam Deflections, and Stress Concentration -- Stress in a Beam -- Bending Moment Diagram -- Simply Supported Beam -- Simply Supported Beam with Two Forces Acting at Equidistant from End Supports -- Stress Concentration -- Beam Deflections -- Measurement of Stress, Deflection, and Stress Concentration -- Objective -- Background Required for Conducting the Lab -- Equipment and Resources Needed -- Four-Point Bending Apparatus with Instrumented Beam -- Typical Wiring for Strain Gages and Load Cell -- Development of Lab Goals and Procedure -- Objective -- Why Are We Doing This? -- Connections Required.
Required LabVIEW Program (VI) -- Instructions -- Issues to be Discussed in the Lab Report -- Equipment Requirements and Sourcing -- Wave Propagation in Elastic Solids and Dynamic Testing of Materials -- Motivation -- Basic Concepts of Wave Propagation -- 1D Stress Wave Propagation in a Slender Rod -- Wave Reflection at a Free-end -- Wave Reflection at a Fixed-end (rigid) -- Measurement of Stress Wave Duration and Amplitude -- Wave Transfer Through a Boundary Between Two Similar Rods -- Dynamic Stress-Strain Response of Materials -- Wave Propagation and High Strain Rate Material Behavior -- Objectives -- Equipment and Resources Needed -- Experimental Task -- Issues to be Discussed in the Lab Report -- Equipment Requirements and Sourcing -- Authors' Biographies -- Blank Page.
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