Challenges in mechanics of time dependent materials, Volume 2 [electronic resource] : Proceedings of the 2015 Annual Conference on Experimental and Applied Mechanics / Bonnie Antoun, editor.
Annual Conference on Experimental and Applied Mechanics (2015 : Costa Mesa, California); Antoun, Bonnie, editor.
2016
TA349
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Title Challenges in mechanics of time dependent materials, Volume 2 [electronic resource] : Proceedings of the 2015 Annual Conference on Experimental and Applied Mechanics / Bonnie Antoun, editor.
Meeting Name Annual Conference on Experimental and Applied Mechanics (2015 : Costa Mesa, California)
ISBN 9783319224435 (electronic book)
3319224433 (electronic book)
9783319224428
3319224425
DOI https://doi.org/10.1007/978-3-319-22443-5
Published Cham : Springer, 2016.
Language English
Description 1 online resource.
Item Number 10.1007/978-3-319-22443-5 doi
Call Number TA349
Dewey Decimal Classification 620.5
Summary Challenges in Mechanics of Time-Dependent Materials, Volume 2 of the Proceedings of the 2015SEM Annual Conference& Exposition on Experimental and Applied Mechanics, the second volume of nine from the Conference, brings together contributions to this important area of research and engineering. The collection presents early findings and case studies on fundamental and applied aspects of Experimental Mechanics, including papers in the following general technical research areas: Time-dependence in Metallic Materials Rate and Time Effects Additive Manufacturing General Materials Response.
Bibliography, etc. Note ""References""""Chapter 5: Interaction of Shock Wave with Granular Materials""; ""5.1 Introduction""; ""5.2 Experimental Aspects""; ""5.3 Results and Discussion""; ""5.4 Conclusion""; ""References""; ""Chapter 6: Characterisation of Viscoelastic Material Properties During Curing Processes""; ""6.1 Introduction""; ""6.2 Method""; ""6.2.1 Material""; ""6.2.2 Cure Kinetics""; ""6.2.3 Viscoelastic Characterisation""; ""6.3 Results and Analysis""; ""6.3.1 DSC""; ""6.3.2 DMTA""; ""6.4 Discussion and Concluding Remarks""; ""References""
Access Note Access limited to authorized users.
Source of Description Online resource; title from PDF title page (viewed November 3, 2015).
Added Author Antoun, Bonnie, editor.
Series Conference proceedings of the Society for Experimental Mechanics series.
Available in Other Form Print version: 9783319224428
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""Preface""; ""Contents""; ""Chapter 1: Thermal Degradation of Extension Springs""; ""1.1 Introduction""; ""1.2 Experimental Procedures""; ""1.3 Results""; ""1.4 Summary""; ""Reference""; ""Chapter 2: Effect of Applied Temperature and Strain Rate on Laser Welded Stainless Steel Structures""; ""2.1 Material""; ""2.2 Tensile Specimen Geometry""; ""2.3 Wedge Specimen Geometry""; ""2.4 Weld Penetration Depth Quantification""; ""2.5 Experimental Results: Tensile Characterization""; ""2.6 Experimental Results: Wedge Specimens Loaded in Bending/Shear and Tension""; ""2.7 Summary""; ""References""

""Chapter 3: Process Modeling and Experiments for Forging and Welding""""3.1 Introduction""; ""3.2 Material Model""; ""3.3 Experiments and Simulations""; ""3.3.1 Forging""; ""3.3.2 Welding""; ""3.3.3 Measurements of Recrystallized Volume Fraction and Hardness""; ""3.4 Results""; ""3.5 Conclusions""; ""References""; ""Chapter 4: Time-Dependent Viscoplastic Model for Dislocation Generation During the Cooling Process in the Silicon Ingot""; ""4.1 Introduction""; ""4.2 3 Dimensional Time-Dependent Haasen-Sumino Viscoplastic Model""; ""4.3 Results and Discussion""; ""4.4 Conclusions""

""Chapter 7: Structure-Property Relationships in Bimodal Polyethylene from Indentation Measurements""""7.1 Introduction""; ""7.2 Experimental Details ""; ""7.3 Results and Discussions""; ""7.4 Conclusion""; ""References""; ""Chapter 8: Prediction Validation of Thermal Aging Performance of Military Composite Bridges""; ""8.1 Introduction""; ""8.2 Composite System""; ""8.3 Analysis Method""; ""8.4 Test and Simulation Procedures""; ""8.5 Test Specimens""; ""8.6 Simulation Models""; ""8.7 Test and Simulation Results""

""8.7.1 Control: Mechanical Properties Prior to Thermal Cycling or UV Exposure""""8.7.2 No-Load Thermal Cycling and Subsequent Mechanical Loading""; ""No-Load Thermal Cycling (50 Cycles from -27.4 to 159.8 °F)""; "" Tension Subsequent to the No-Load Thermal Cycling""; "" Compression Subsequent to the No-Load Thermal Cycling""; "" Mechanical Fatigue Subsequent to the No-Load Thermal Cycling""; ""8.7.3 Impact and Post Impact Mechanical Properties After 50 No-Load Thermal Cycles""; ""Impact After No-Load Thermal Cycling""; ""Tension Subsequent to the No-Load Thermal Cycling and Impact""

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