Nanoindentation of brittle solids:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton ; London ; New York
CRC Press, Taylor and Francis Group
[2014]
|
| Online-Zugang: | TUM01 Volltext https://ebookcentral.proquest.com/lib/gbv/detail.action?docID=1398222 Volltext Volltext |
| Beschreibung: | Description based upon print version of record |
| Beschreibung: | Online-Ressource (472 p) |
| ISBN: | 9781466596917 |
Internformat
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| 100 | 1 | |a Dey, Arjun |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Nanoindentation of brittle solids |c Arjun Dey, Anoop Kumar Mukhopadhyay |
| 264 | 1 | |a Boca Raton ; London ; New York |b CRC Press, Taylor and Francis Group |c [2014] | |
| 300 | |a Online-Ressource (472 p) | ||
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| 505 | 8 | |a Front Cover; Contents; Prologue; Preface; Acknowledgments; About the Authors; Contributors; Chapter 1: Contact Issues in Brittle Solids; Chapter 2: Mechanics of Elastic and Elastoplastic Contacts; Chapter 3: Brief History of Indentation; Chapter 4: Hardness and Elastic Modulus; Chapter 5: Nanoindentation: Why at All and Where?; Chapter 6: Nanoindentation Data Analysis Methods; Chapter 7: Nanoindentation Techniques; Chapter 8: Instrumental Details; Chapter 9: Materials and Measurement Issues; Chapter 10: What If the Contact is Too Quick in Glass? | |
| 505 | 8 | |a Chapter 11: Enhancement in Nanohardness of Glass: Possible?Chapter 12: Energy Issues in Nanoindentation; Chapter 13: Dynamic Contact Damage in Glass; Chapter 14: Does the Speed of Dynamic Contact Matter?; Chapter 15: Nanoindentation Inside the Scratch: What Happens?; Chapter 16: Nanomechanical Properties of Ceramics; Chapter 17: Does the Contact Rate Matter for Ceramics?; Chapter 18: Nanoscale Contact in Ceramics; Chapter 19: Shock Deformation of Ceramics; Chapter 20: Nanohardness of Alumina; Chapter 21: Interaction of Defects with Nanoindents in Shocked Ceramics | |
| 505 | 8 | |a Chapter 22: Effect of Shock Pressure on ISE: A Comparative StudyChapter 23: Nano-/Micromechanical Properties of C/C and C/C-SiC Composites; Chapter 24: Nanoindentation on Multilayered Ceramic Matrix Composites; Chapter 25: Nanoindentation of Hydroxyapatite-Based Biocomposites; Chapter 26: Nanoindentation of Silicon; Chapter 27: Nanomechanical Behavior of ZTA; Chapter 28: Nanoindentation Behavior of Actuator Ceramics; Chapter 29: Nanoindentation of Magnetoelectric Multiferroic Material; Chapter 30: Nanoindentation Behavior of Anode-Supported Solid Oxide Fuel Cell | |
| 505 | 8 | |a Chapter 31: Nanoindentation Behavior of High-Temperature Glass-Ceramic Sealants for Anode-Supported Solid Oxide Fuel CellChapter 32: Nanoindentation on HAp Coating; Chapter 33: Weibull Modulus of Ceramic Coating; Chapter 34: Anisotropy in Nanohardness of Ceramic Coating; Chapter 35: Fracture Toughness of Ceramic Coating Measured by Nanoindentation; Chapter 36: Effect of SBF Environment on Nanomechanical and Tribological Properties of Bioceramic Coating; Chapter 37: Nanomechanical Behavior of Ceramic Coatings Developed by Micro Arc Oxidation | |
| 505 | 8 | |a Chapter 38: Nanoindentation Behavior of Soft Ceramic Thin Films: Mg(OH)2Chapter 39: Nanoindentation Study on Hard Ceramic Thin Films: TiN; Chapter 40: Nanoindentation Study on Sputtered Alumina Films for Spacecraft Application; Chapter 41: Nanomechanical Behavior of Metal-Doped DLC Thin Films; Chapter 42: Orientational Effect in Nanohardness of Tooth Enamel; Chapter 43: Slow or Fast Contact: Does it Matter for Enamel?; Chapter 44: Anisotropy of Modulus in Cortical Bone; Chapter 45: Nanoindentation of Fish Scale | |
| 505 | 8 | |a Chapter 46: Indentation Size Effect (ISE) and Reverse Indentation Size Effect (RISE) in Nanoindentation | |
| 700 | 1 | |a Mukhopadhyay, Anoop Kumar |e Verfasser |4 aut | |
| 776 | 0 | 8 | |i Erscheint auch als |n Druck-Ausgabe, Hardcover |z 978-1-4665-9691-7 |
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Datensatz im Suchindex
| _version_ | 1804179552364134400 |
|---|---|
| any_adam_object | |
| author | Dey, Arjun Mukhopadhyay, Anoop Kumar |
| author_facet | Dey, Arjun Mukhopadhyay, Anoop Kumar |
| author_role | aut aut |
| author_sort | Dey, Arjun |
| author_variant | a d ad a k m ak akm |
| building | Verbundindex |
| bvnumber | BV045566086 |
| classification_tum | WER 510f WER 530f |
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| contents | Front Cover; Contents; Prologue; Preface; Acknowledgments; About the Authors; Contributors; Chapter 1: Contact Issues in Brittle Solids; Chapter 2: Mechanics of Elastic and Elastoplastic Contacts; Chapter 3: Brief History of Indentation; Chapter 4: Hardness and Elastic Modulus; Chapter 5: Nanoindentation: Why at All and Where?; Chapter 6: Nanoindentation Data Analysis Methods; Chapter 7: Nanoindentation Techniques; Chapter 8: Instrumental Details; Chapter 9: Materials and Measurement Issues; Chapter 10: What If the Contact is Too Quick in Glass? Chapter 11: Enhancement in Nanohardness of Glass: Possible?Chapter 12: Energy Issues in Nanoindentation; Chapter 13: Dynamic Contact Damage in Glass; Chapter 14: Does the Speed of Dynamic Contact Matter?; Chapter 15: Nanoindentation Inside the Scratch: What Happens?; Chapter 16: Nanomechanical Properties of Ceramics; Chapter 17: Does the Contact Rate Matter for Ceramics?; Chapter 18: Nanoscale Contact in Ceramics; Chapter 19: Shock Deformation of Ceramics; Chapter 20: Nanohardness of Alumina; Chapter 21: Interaction of Defects with Nanoindents in Shocked Ceramics Chapter 22: Effect of Shock Pressure on ISE: A Comparative StudyChapter 23: Nano-/Micromechanical Properties of C/C and C/C-SiC Composites; Chapter 24: Nanoindentation on Multilayered Ceramic Matrix Composites; Chapter 25: Nanoindentation of Hydroxyapatite-Based Biocomposites; Chapter 26: Nanoindentation of Silicon; Chapter 27: Nanomechanical Behavior of ZTA; Chapter 28: Nanoindentation Behavior of Actuator Ceramics; Chapter 29: Nanoindentation of Magnetoelectric Multiferroic Material; Chapter 30: Nanoindentation Behavior of Anode-Supported Solid Oxide Fuel Cell Chapter 31: Nanoindentation Behavior of High-Temperature Glass-Ceramic Sealants for Anode-Supported Solid Oxide Fuel CellChapter 32: Nanoindentation on HAp Coating; Chapter 33: Weibull Modulus of Ceramic Coating; Chapter 34: Anisotropy in Nanohardness of Ceramic Coating; Chapter 35: Fracture Toughness of Ceramic Coating Measured by Nanoindentation; Chapter 36: Effect of SBF Environment on Nanomechanical and Tribological Properties of Bioceramic Coating; Chapter 37: Nanomechanical Behavior of Ceramic Coatings Developed by Micro Arc Oxidation Chapter 38: Nanoindentation Behavior of Soft Ceramic Thin Films: Mg(OH)2Chapter 39: Nanoindentation Study on Hard Ceramic Thin Films: TiN; Chapter 40: Nanoindentation Study on Sputtered Alumina Films for Spacecraft Application; Chapter 41: Nanomechanical Behavior of Metal-Doped DLC Thin Films; Chapter 42: Orientational Effect in Nanohardness of Tooth Enamel; Chapter 43: Slow or Fast Contact: Does it Matter for Enamel?; Chapter 44: Anisotropy of Modulus in Cortical Bone; Chapter 45: Nanoindentation of Fish Scale Chapter 46: Indentation Size Effect (ISE) and Reverse Indentation Size Effect (RISE) in Nanoindentation |
| ctrlnum | (OCoLC)1099857769 (DE-599)GBV788204742 |
| discipline | Werkstoffwissenschaften |
| format | Electronic eBook |
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| id | DE-604.BV045566086 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T08:21:41Z |
| institution | BVB |
| isbn | 9781466596917 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-030949758 |
| oclc_num | 1099857769 |
| open_access_boolean | |
| owner | DE-91 DE-BY-TUM |
| owner_facet | DE-91 DE-BY-TUM |
| physical | Online-Ressource (472 p) |
| psigel | ZDB-4-NLEBK ZDB-38-EBR ZDB-30-PQE ZDB-4-NLEBK TUM_Einzelkauf |
| publishDate | 2014 |
| publishDateSearch | 2014 |
| publishDateSort | 2014 |
| publisher | CRC Press, Taylor and Francis Group |
| record_format | marc |
| spelling | Dey, Arjun Verfasser aut Nanoindentation of brittle solids Arjun Dey, Anoop Kumar Mukhopadhyay Boca Raton ; London ; New York CRC Press, Taylor and Francis Group [2014] Online-Ressource (472 p) txt rdacontent c rdamedia cr rdacarrier Description based upon print version of record Front Cover; Contents; Prologue; Preface; Acknowledgments; About the Authors; Contributors; Chapter 1: Contact Issues in Brittle Solids; Chapter 2: Mechanics of Elastic and Elastoplastic Contacts; Chapter 3: Brief History of Indentation; Chapter 4: Hardness and Elastic Modulus; Chapter 5: Nanoindentation: Why at All and Where?; Chapter 6: Nanoindentation Data Analysis Methods; Chapter 7: Nanoindentation Techniques; Chapter 8: Instrumental Details; Chapter 9: Materials and Measurement Issues; Chapter 10: What If the Contact is Too Quick in Glass? Chapter 11: Enhancement in Nanohardness of Glass: Possible?Chapter 12: Energy Issues in Nanoindentation; Chapter 13: Dynamic Contact Damage in Glass; Chapter 14: Does the Speed of Dynamic Contact Matter?; Chapter 15: Nanoindentation Inside the Scratch: What Happens?; Chapter 16: Nanomechanical Properties of Ceramics; Chapter 17: Does the Contact Rate Matter for Ceramics?; Chapter 18: Nanoscale Contact in Ceramics; Chapter 19: Shock Deformation of Ceramics; Chapter 20: Nanohardness of Alumina; Chapter 21: Interaction of Defects with Nanoindents in Shocked Ceramics Chapter 22: Effect of Shock Pressure on ISE: A Comparative StudyChapter 23: Nano-/Micromechanical Properties of C/C and C/C-SiC Composites; Chapter 24: Nanoindentation on Multilayered Ceramic Matrix Composites; Chapter 25: Nanoindentation of Hydroxyapatite-Based Biocomposites; Chapter 26: Nanoindentation of Silicon; Chapter 27: Nanomechanical Behavior of ZTA; Chapter 28: Nanoindentation Behavior of Actuator Ceramics; Chapter 29: Nanoindentation of Magnetoelectric Multiferroic Material; Chapter 30: Nanoindentation Behavior of Anode-Supported Solid Oxide Fuel Cell Chapter 31: Nanoindentation Behavior of High-Temperature Glass-Ceramic Sealants for Anode-Supported Solid Oxide Fuel CellChapter 32: Nanoindentation on HAp Coating; Chapter 33: Weibull Modulus of Ceramic Coating; Chapter 34: Anisotropy in Nanohardness of Ceramic Coating; Chapter 35: Fracture Toughness of Ceramic Coating Measured by Nanoindentation; Chapter 36: Effect of SBF Environment on Nanomechanical and Tribological Properties of Bioceramic Coating; Chapter 37: Nanomechanical Behavior of Ceramic Coatings Developed by Micro Arc Oxidation Chapter 38: Nanoindentation Behavior of Soft Ceramic Thin Films: Mg(OH)2Chapter 39: Nanoindentation Study on Hard Ceramic Thin Films: TiN; Chapter 40: Nanoindentation Study on Sputtered Alumina Films for Spacecraft Application; Chapter 41: Nanomechanical Behavior of Metal-Doped DLC Thin Films; Chapter 42: Orientational Effect in Nanohardness of Tooth Enamel; Chapter 43: Slow or Fast Contact: Does it Matter for Enamel?; Chapter 44: Anisotropy of Modulus in Cortical Bone; Chapter 45: Nanoindentation of Fish Scale Chapter 46: Indentation Size Effect (ISE) and Reverse Indentation Size Effect (RISE) in Nanoindentation Mukhopadhyay, Anoop Kumar Verfasser aut Erscheint auch als Druck-Ausgabe, Hardcover 978-1-4665-9691-7 http://site.ebrary.com/lib/alltitles/docDetail.action?docID=10882791 Volltext https://ebookcentral.proquest.com/lib/gbv/detail.action?docID=1398222 http://gbv.eblib.com/patron/FullRecord.aspx?p=1398222 Volltext http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=798055 Volltext |
| spellingShingle | Dey, Arjun Mukhopadhyay, Anoop Kumar Nanoindentation of brittle solids Front Cover; Contents; Prologue; Preface; Acknowledgments; About the Authors; Contributors; Chapter 1: Contact Issues in Brittle Solids; Chapter 2: Mechanics of Elastic and Elastoplastic Contacts; Chapter 3: Brief History of Indentation; Chapter 4: Hardness and Elastic Modulus; Chapter 5: Nanoindentation: Why at All and Where?; Chapter 6: Nanoindentation Data Analysis Methods; Chapter 7: Nanoindentation Techniques; Chapter 8: Instrumental Details; Chapter 9: Materials and Measurement Issues; Chapter 10: What If the Contact is Too Quick in Glass? Chapter 11: Enhancement in Nanohardness of Glass: Possible?Chapter 12: Energy Issues in Nanoindentation; Chapter 13: Dynamic Contact Damage in Glass; Chapter 14: Does the Speed of Dynamic Contact Matter?; Chapter 15: Nanoindentation Inside the Scratch: What Happens?; Chapter 16: Nanomechanical Properties of Ceramics; Chapter 17: Does the Contact Rate Matter for Ceramics?; Chapter 18: Nanoscale Contact in Ceramics; Chapter 19: Shock Deformation of Ceramics; Chapter 20: Nanohardness of Alumina; Chapter 21: Interaction of Defects with Nanoindents in Shocked Ceramics Chapter 22: Effect of Shock Pressure on ISE: A Comparative StudyChapter 23: Nano-/Micromechanical Properties of C/C and C/C-SiC Composites; Chapter 24: Nanoindentation on Multilayered Ceramic Matrix Composites; Chapter 25: Nanoindentation of Hydroxyapatite-Based Biocomposites; Chapter 26: Nanoindentation of Silicon; Chapter 27: Nanomechanical Behavior of ZTA; Chapter 28: Nanoindentation Behavior of Actuator Ceramics; Chapter 29: Nanoindentation of Magnetoelectric Multiferroic Material; Chapter 30: Nanoindentation Behavior of Anode-Supported Solid Oxide Fuel Cell Chapter 31: Nanoindentation Behavior of High-Temperature Glass-Ceramic Sealants for Anode-Supported Solid Oxide Fuel CellChapter 32: Nanoindentation on HAp Coating; Chapter 33: Weibull Modulus of Ceramic Coating; Chapter 34: Anisotropy in Nanohardness of Ceramic Coating; Chapter 35: Fracture Toughness of Ceramic Coating Measured by Nanoindentation; Chapter 36: Effect of SBF Environment on Nanomechanical and Tribological Properties of Bioceramic Coating; Chapter 37: Nanomechanical Behavior of Ceramic Coatings Developed by Micro Arc Oxidation Chapter 38: Nanoindentation Behavior of Soft Ceramic Thin Films: Mg(OH)2Chapter 39: Nanoindentation Study on Hard Ceramic Thin Films: TiN; Chapter 40: Nanoindentation Study on Sputtered Alumina Films for Spacecraft Application; Chapter 41: Nanomechanical Behavior of Metal-Doped DLC Thin Films; Chapter 42: Orientational Effect in Nanohardness of Tooth Enamel; Chapter 43: Slow or Fast Contact: Does it Matter for Enamel?; Chapter 44: Anisotropy of Modulus in Cortical Bone; Chapter 45: Nanoindentation of Fish Scale Chapter 46: Indentation Size Effect (ISE) and Reverse Indentation Size Effect (RISE) in Nanoindentation |
| title | Nanoindentation of brittle solids |
| title_auth | Nanoindentation of brittle solids |
| title_exact_search | Nanoindentation of brittle solids |
| title_full | Nanoindentation of brittle solids Arjun Dey, Anoop Kumar Mukhopadhyay |
| title_fullStr | Nanoindentation of brittle solids Arjun Dey, Anoop Kumar Mukhopadhyay |
| title_full_unstemmed | Nanoindentation of brittle solids Arjun Dey, Anoop Kumar Mukhopadhyay |
| title_short | Nanoindentation of brittle solids |
| title_sort | nanoindentation of brittle solids |
| url | http://site.ebrary.com/lib/alltitles/docDetail.action?docID=10882791 https://ebookcentral.proquest.com/lib/gbv/detail.action?docID=1398222 http://gbv.eblib.com/patron/FullRecord.aspx?p=1398222 http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=798055 |
| work_keys_str_mv | AT deyarjun nanoindentationofbrittlesolids AT mukhopadhyayanoopkumar nanoindentationofbrittlesolids |