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LEADER 00000cam a2200589Ii 4500 
003    OCoLC 
005    20160513032602.5 
006    m     o  d         
007    cr cnu---unuuu 
008    151103s2016    sz      ob    100 0 eng d 
019    SPRINGERocn927404653 
020    9783319224589|qelectronic bk. 
020    3319224581|qelectronic bk. 
020    |z9783319224572 
020    |z3319224573 
024 7  10.1007/978-3-319-22458-9|2doi 
040    N$T|beng|erda|epn|cN$T|dN$T|dIDEBK|dOCLCO|dCDX|dYDXCP
       |dEBLCP|dOCLCO|dOCLCF|dOCLCO|dAZU|dCOO|dGW5XE|dOCLCO 
049    MAIN 
050  4 T174.7|b.A55 2016 
082 04 620.5|223 
111 2  Annual Conference on Experimental and Applied Mechanics
       |d(2015 :|cCosta Mesa, Calif.) 
245 10 MEMS and nanotechnology.|nVolume 5 :|bProceedings of the 
       2015 Annual Conference on Experimental and Applied 
       Mechanics /|cBarton C. Prorok, LaVern Starman, editors. 
246 30 Proceedings of the 2015 Annual Conference on Experimental 
       and Applied Mechanics 
264  1 Cham :|bSpringer,|c[2016] 
264  4 |c©2016 
300    1 online resource. 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
490 1  Conference proceedings of the society for experimental 
       mechanics series 
504    Includes bibliographical references. 
505 0  Preface; Contents; Chapter 1: Oxide Driven Strength 
       Degradation of (1 1 1) Silicon Surfaces; 1.1 Introduction;
       1.2 Methods; 1.2.1 Sample Preparation; 1.2.2 Fracture 
       Testing Procedure; 1.3 Experiments and Results; 1.3.1 
       Oxide Removal Experiment; 1.3.2 Atomistic Modeling of 
       Oxidation Induced Strength Changes; 1.3.3 Artificial 
       Oxidation Experiments; 1.4 Summary; References; Chapter 2:
       In Situ TEM Nanomechanical Testing; 2.1 Introduction; 2.2 
       Main Text; 2.2.1 Experimental Methods; 2.2.2 Dislocation 
       Processes Associated with the PLC Effect in Al 5754; 2.2.3
       Deformation in Nanowires 
505 8  2.3 Twinning in Nanopillars2.4 Future Directions; 
       References; Chapter 3: Poissonś Ratio as a Damage Index 
       Sensed by Dual-Embedded Fiber Bragg Grating Sensor; 3.1 
       Introduction; 3.2 Materials and Method; 3.2.1 Composite 
       Materials; 3.2.2 Equipment and Test; 3.3 Results and 
       Discussions; 3.4 Conclusion; References; Chapter 4: In 
       Situ High-Rate Mechanical Testing in the Dynamic 
       Transmission Electron Microscope; 4.1 Introduction; 4.2 
       Holder Design; 4.3 Sample Preparation; 4.3.1 Standard 
       Machining and Electropolishing; 4.3.2 Femtosecond Laser 
       Machining and Ion Milling 
505 8  4.3.3 Mounting Specimens for Testing4.3.4 Operating the 
       Holder; 4.4 Dynamic Transmission Electron Microscope; 4.5 
       Preliminary Results; 4.6 Conclusion; References; Chapter 5
       : In Situ TEM Observation of Twinning, Detwinning and 
       Retwinning in Quartz; 5.1 Introduction; 5.2 Experimental 
       Procedure; 5.3 Results and Discussion; 5.4 Conclusion; 
       References; Chapter 6: Nano to Macro: Mechanical 
       Evaluation of Macroscopically Long Individual Nanofibers; 
       6.1 Introduction; 6.2 Methods of Mechanical Testing of 1D 
       Nanomaterials; 6.3 Control of Nanofiber Diameter 
505 8  6.4 The Protocol for Mechanical Testing and Data 
       Reduction6.5 Future Challenges and Directions; 6.6 
       Conclusions; References; Chapter 7: Evaluating Pile-Up and
       Sink-In During Nanoindentation of Thin Films; 7.1 
       Introduction; 7.2 Experimental Procedure; 7.3 Results and 
       Discussion; 7.4 Conclusions; References; Chapter 8: 
       Tapered Cantilevered Bimorphs for Piezoelectric Energy 
       Harvesting: Characterization with Impedance Spectroscopy; 
       8.1 Introduction; 8.2 Methodology; 8.3 Results and 
       Discussion; 8.3.1 No Proof Mass; 8.3.2 2g proof mass; 
       8.3.3 4g Proof Mass; 8.4 Conclusions; References 
505 8  Chapter 9: Time and Temperature Dependence of Stress 
       Relaxation in Al and Al Alloy Thin Films Application for 
       MEMS9.1 Introduction; 9.2 Experimental; 9.2.1 Sample 
       Design and Fabrication; 9.2.2 Testing System; 9.3 Results;
       9.4 Conclusions; References; Chapter 10: Detecting 
       Interconnect Damage in Shock Using Acoustic Emission 
       Detection; 10.1 Introduction; 10.2 Test and Data Reduction
       Methods; 10.3 Results; 10.4 Conclusions; References; 
       Chapter 11: Application of Nanoindentation and 
       Microdiffraction to Study Aging Effects in Lead Free 
       Solder Interconnects; 11.1 Introduction 
520    The 16thInternational Symposium on MEMS and Nanotechnology,
       Volume 5 of the Proceedings of the 2015SEM Annual 
       Conference& Exposition on Experimental and Applied 
       Mechanics, the fifth 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 a wide range of areas, 
       including: Microscale and Microstructural Effects on 
       Mechanical Behavior Dynamic Micro/Nanomechanics In-situ 
       Techniques Mechanics of Graphene Indentation and Small 
       Scale Testing MEMS. 
650  0 Nanotechnology|vCongresses. 
650  0 Microelectromechanical systems|vCongresses. 
650  0 Mechanics, Applied|vCongresses. 
655  4 Electronic books. 
655  7 Conference papers and proceedings.|2fast
       |0(OCoLC)fst01423772 
700 1  Prorok, Barton C.,|eeditor. 
700 1  Starman, LaVern,|eeditor. 
710 2  SpringerLink|eissuing body. 
776 08 |cOriginal|z3319224573|z9783319224572|w(OCoLC)913556961 
830  0 Conference proceedings of the Society for Experimental 
       Mechanics series. 
830  0 Springer English/International eBooks 2016 - Full Set 
830  0 Springer Engineering eBooks 2016 English+International 
856 40 |uhttps://ezp.lib.unimelb.edu.au/login?url=http://
       link.springer.com/10.1007/978-3-319-22458-9|zConnect to 
       ebook (University of Melbourne only) 
990    Springer English/International eBooks 2016 - Full Set 
990    Springer Engineering 
990    Batch Ebook load (bud2) - do not edit, delete or attach 
       any records. 
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