Polymer adhesion, friction, and lubrication:
Gespeichert in:
| Weitere Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, New Jersey
Wiley
2013
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| Online-Zugang: | Klappentext Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | XXI, 699 S. Ill., graph. Darst. 24 cm |
| ISBN: | 9780470916278 |
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| 245 | 1 | 0 | |a Polymer adhesion, friction, and lubrication |c ed. by Hongbo Zeng |
| 264 | 1 | |a Hoboken, New Jersey |b Wiley |c 2013 | |
| 300 | |a XXI, 699 S. |b Ill., graph. Darst. |c 24 cm | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Includes bibliographical references and index | ||
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Datensatz im Suchindex
| _version_ | 1804150417936875520 |
|---|---|
| adam_text | advance
■
polymeric materials and applications
Building
а
deeper understanding of the surface properties, functionality, contact, and interactions
of polymers has become critical for the development of new advanced polymer materials and
novel applications. In order to support new research, this book presents our current understanding
of adhesion, friction, and lubrication in polymeric and biomacromolecular systems at molecular,
nano,
and micro scales. Moreover, the authors demonstrate how a better understanding of the
adhesion, scratch, wear, and lubrication properties of polymers can lead to new applications in
diverse areas such as
biomedical
research and automotive engineering.
Polytiier Adhesion, Friction, and Lubrication sets forth a variety of experimental and
theoretical methods such as the use of atomic force microscopy and surface forces apparatus
to analyze nanotribology. The book s sixteen chapters also explore topics such as:
•
Polymer thin films and brushes
•
Nanoparticles
•
Rubber and tire technology
•
Synovial joint
fabrication
•
Adhesion in paper products
•
Electrorheological fluids
All of the books chapters have been contributed by leading
international
experts and pioneers
in the field. Their contributions reflect not only the latest published findings, but also their own
firsthand experience studying the adhesion, friction, and lubrication properties of polymers
and then leveraging this knowledge to develop new applications. Readers will find references
at the end of each chapter in order to explore individual topics in greater depth.
Polymer Adhesion, Friction, and Lubrication is recommended for students and professionals
in polymer science and engineering,
materiais
science, colloid and interface science,
nanotechnology,
bioengineering,
and chemical engineering.
HONGBO
ZENG, PHD,
is an Associate Professor in the Department of Chemical and
Materials Engineering at the University of Alberta. Dr.
Zeng
leads a research group that
investigates various areas of surface and colloid science, and nanotechnology, with a special
focus on the intermolecular
ond
surface forces in polymer materials, complex fluids, biological
systems, oils, and minerals. In addition, be works on the development of advanced functional
materials that provide novel engineering and
biomedical
applications.
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Also available
an e-book
9B780470ll91627S
90000
CONTENTS
Preface
Contributors
xix
1
Fundamentals of Surface Adhesion, Friction, and Lubrication
1
AH Faghihnejad and Hongbo
Zeng
1.1
Introduction
1
1.2
Basic Concepts
2
1.2.1
Intermolecular and Surface Forces
2
1.2.2
Surface Energy
7
1.3
Adhesion and Contact Mechanics
12
1.3.1
Hertz Model
13
1.3.2
Johnson-Kendall-Roberts Model
14
1.3.3
Derjaguin-Muller-Toporov Model
15
1.3.4
Maugis Model
16
1.3.5
Indentation
16
1.3.6
Effect of Environmental Conditions on Adhesion
18
1.3.7
Adhesion of Rough Surfaces
19
1.3.8
Adhesion Hysteresis
20
1.4
Friction
20
1.4.1
Amontons Laws of Friction
20
1.4.2
The Basic Models of Friction
21
1.4.3
Stick-Slip Friction
26
1.4.4
Directionality of Friction
29
1.5
Rolling Friction
29
1.6
Lubrication
31
1.7
Wear
35
vi
CONTENTS
1.8
Real Contact Area
37
1.9
Modern Tools in Tribology
39
1.9.1
Х
-Ray Photoelectron Spectroscopy
39
1.9.2
Scanning Electron Microscopy
39
1.9.3
Infrared Spectroscopy
40
1.9.4
Optical Tweezers or Optical Trapping
40
1.9.5
Atomic Force Microscope (AFM)
41
1.9.6
Surface Forces Apparatus
(SFA)
45
1.10
Computer Simulations in Tribology
47
Acknowledgment
49
References
49
2
Adhesion and Tribological Characteristics of Ion-Containing
Polymer Brushes Prepared by Controlled Radical Polymerization
59
Motoyasu Kobayashi, Tatsuya Ishikawa, and Atsushi Takahara
2.1
Introduction
59
2.2
Controlled Synthesis of Ion-Containing Polymer Brushes
60
2.3
Wettability of Polyelectrolyte Brushes
63
2.4
Adhesion and Detachment between Polyelectrolyte Brushes
66
2.5
Water Lubrication and Frictional Properties of
Polyelectrolyte Brushes
70
2.6
Conclusions
76
References
76
3
Lubrication and Wear Protection of Natural (Bio)Systems
83
George W. Greene, Dong
Woog
Lee, Jing Yu, Saurabh Das,
Xavier
Banquy, and Jacob
N.
Israelachvili
3.1
Introduction
83
3.1.1
What Makes Biolubrication Unique?
84
3.1.2
Theory of Friction
85
3.2
Boundary Lubrication
89
3.2.1
Dry/Contact Lubrication
90
3.2.2
Thin Film Boundary Lubrication
91
3.2.3 Hydration
Layers
92
3.2.4
Intermediate Boundary Lubrication
93
3.2.5
Thick Film Boundary Lubrication
95
3.2.6
Hyaluronic Acid
(HA) Interfacial
Layer
96
3.3
Huid
Film Lubrication
97
3.3.1
Elastohydrodynamic Lubrication in Biological
Systems
98
3.3.2
Weeping Lubrication
104
3.4 Multimodal
Lubrication
105
3.4.1
Mixed Lubrication and the Stribeck Curve
106
3.4.2
Adaptive Lubrication
108
3.4.3
Mechanically Controlled Adaptive Lubrication
109
CONTENTS
vii
3.5
Wear
112
3.5.1
How Are Friction and Wear Related?
112
3.5.2
Characterization, Measurement, and Evaluation
of Wear
113
3.5.3
Biological Strategies for Controlling Wear
119
3.5.4
Wear of Soft, Compliant Biological Materials
120
3.5.5
Controlling Wear in Hard Biological Materials:
Self-Sharpening Mechanism in Rodent Teeth
122
3.6
Biomimetic and Engineering Approaches of Biolubrication
123
3.6.1
Hydrogel Coatings as Artificial Cartilage Materials
123
3.6.2
Mimicking
Synovial
Fluid Lubricating Properties:
Polyelectrolytes Lubrication
124
3.6.3
Superlubrication by Aggrecan Mimics: End-Grafted
Polymers and the Brush Paradigm
125
3.6.4
Perspectives and Future Research Avenues
126
Acknowledgment
127
References
127
4
Polymer Brushes and Surface Forces
135
Jacob Klein, Wuge H.
Briscoe, Meng
Chen,
Erika Eiser, Nir Kampf,
Uri
Raviv, Rafael Tadmor, and
Larissa Tsarkova
4.1
Introduction
135
4.2
Some Generic Properties of Polymer Brushes
136
4.3
Sliding of High-re Polymer Brushes: The Semidilute
to Vitrified Transition
138
4.4
Sliding Mechanism and Relaxation of Sheared Brushes
140
4.5
Compression, Shear, and Relaxation of Melt Brushes
146
4.6
Shear Swelling of Polymer Brushes
150
4.7
Telechelic Brushes
155
4.8
Polyelectrolyte Brushes in Aqueous Media
158
4.8.1
Charged Brushes: The Symmetric Case
159
4.8.2
Charged Brushes: The Asymmetric Case
162
4.9
Zwitterionic Polymer Brushes
163
4.10
Summary
166
Acknowledgments
167
Appendix: Self-Regulation and Velocity Dependence of
Brush-Brush Friction
167
References
169
5
Adhesion, Wetting, and Superhydrophobicity of
Polymeric Surfaces
177
Mehdi Mortazavi and Michael Nosonovsky
5.1
Introduction
177
5.2
Adhesion between Polymeric Surfaces
178
5.2.1
Van
der Waals
Forces
179
5.2.2
Capillary Forces
181
viii CONTENTS
5.2.3
Electrostatic
Double-Layer Forces
182
5.2.4
Solvation Forces
183
5.2.5
Mechanical Contact Force
183
5.3
Wetting of Polymers
185
5.3.1
Definition of Contact Angle: Young s Equation
185
5.3.2
Rough Surfaces: Wenzei s Model
186
5.3.3
Heterogeneous Surfaces:
Cassie—
Baxter Model
187
5.4
Fabrication of Superhydrophobic Polymeric Materials
189
5.4.1
Replication of Natural Surfaces
189
5.4.2
Molding or Template-Assisted Techniques
192
5.4.3
Roughening by Introduction of Nanoparticles
197
5.4.4
Surface Modification by Low Surface
Energy Materials
202
5.4.5
Electrospinning
205
5.4.6
Solution Method
207
5.4.7
Plasma, Electron, and Laser Treatment
210
5.5
Surface Characterization
213
5.5.1
Surface Chemistry
213
5.5.2
Wetting Property
213
5.5.3
Microscopy Techniques
215
5.6
Conclusions
218
Acknowledgments
218
References
218
6
Marine Bioadhesion on Polymer Surfaces and Strategies
for Its Prevention
227
Sitaraman Krishnan
6.1
Introduction
227
6.2
Protein Adsorption on Solid Surfaces
230
6.2.1
Protein-Repellant Surfaces
230
6.3
Polymer Coatings Resistant to Marine Biofouling
242
6.3.1 Hydrophobie
Marine
Fouling-Rełease
Coatings:
The Role of Surface Energy and Modulus
243
6.3.2
Hydrophilic Coatings
255
6.3.3
Amphiphilic Coatings
257
6.3.4
Self-Polishing Coatings
262
6.3.5
Coatings with Topographically Patterned
Surfaces
262
6.3.6
Antifouling Surfaces with Surface-Immobilized
Enzymes and Bioactive Fouling-Deterrent
Molecules
265
6.4
Conclusion
266
Acknowledgments
266
References
267
CONTENTS ix
7
Molecular
Engineering
of
Peptides
for Cellular Adhesion Control
283
Won Hyuk
Suh,
Badriprasad Ananthanarayanan, and Matthew Tirrell
7.1
Introduction: Cells, Biomacromolecules, and Lipidated
Peptides
283
7.2
Biomaterials
285
7.3
Chemistry Tools
287
7.3.1
Bioconjugate Chemistry
287
7.3.2
Solid-Phase
Peptide
Synthesis
288
7.4
Self-Assembly of Lipidated Peptides:
Peptide Amphiphiles
Engineering
289
7.4.1
Double-Tailed
Peptide Amphiphile
289
7.4.2
Single-Tailed (Monoalkylated)
Peptide
Amphiphiles
290
7.5
Biomimetic
Peptide
Amphiphile Surface Engineering Case
Studies
290
7.5.1
Melanoma Cell Adhesion on
a Lipid Bilayer
Incorporating RGD
292
7.5.2
Adhesion of
ccsßi
Receptors to Biomimetic
Substrates
292
7.5.3
Human Umbilical Vein Endothelial Cell Adhesion
293
7.5.4
Cell Adhesion on a Polymerized Monolayer
295
7.5.5
Cell Adhesion and Growth on Patterned
Lipid Bilayers
296
7.5.6
Cell Adhesion on Metallic Surfaces
297
7.5.7
Bone Marrow Mononuclear Cell Adhesion
298
7.5.8
Nanofibrous
Peptide
Amphiphile Gels for
Endothelial Cell Adhesion
299
7.6
Neural Stem Cells on Surfaces: A Deeper Look at
Cell Adhesion Control
299
7.6.1
The Stem Cell
Microenvironment 299
7.6.2
Neural Stem Cells on
Lipid
Bilayers
299
7.6.3
Vesicle Fusion and Bilayer Characterization
300
7.6.4
Initial NSC Adhesion on
Peptide
Surfaces
300
7.6.5
NSC Proliferation on
Peptide
Surfaces
301
7.6.6
NSC Differentiation on
Peptide
Surfaces
302
7.7
Overview of Molecular Engineering Designs for
Cellular Adhesion
303
7.7.1
Self-Assembled
Peptide
Surfaces
303
7.7.2
Cell Adhesion Molecule RGD Surface
Density Control: An Example
303
7.7.3
Cell Adhesion Molecule Accessibility
(Exposure) Control
307
7.8
Conclusion
307
Acknowledgments
308
References
308
χ
CONTENTS
8
A Microcosm of Wet Adhesion: Dissecting Protein
Interactions in Mussel Attachment Plaques
319
Dong
Soo
Hwang, Wei Wei,
Nadine R.
Rodriguez-Martinez,
Eric Danner,
and J. Herbert Waite
8.1
Introduction
319
8.2
Mussel Adhesion
320
8.2.1
Marine Surfaces
320
8.2.2
Byssal Attachment
320
8.2.3
Direct Observation of Plaque Attachment
323
8.3
Surface Forces Apparatus
323
8.3.1
Making the
SFA
Relevant to Biological
Environments
325
8.4
Assessing Protein Contributions by
SFA
327
8.4.1
Asymmetric/Symmetric Configurations
327
8.4.2
Protein-Surface Interactions
330
8.4.3
Protein-Protein Interactions
335
8.5
Conclusions
343
8.5.1
Insights about Protein Interactions
343
8.5.2
Effects of
DOPA
Reactivity on Adhesion
344
8.5.3
Mussel Foot Controls the
Microenvironment
around
DOPA
345
8.5.4
Other Factors Influencing Adhesion
345
Acknowledgments
346
References
346
9
Gecko-Inspired Polymer Adhesives
351
Yigit
Mengiiç
and
Metìn Sitti
9.1
Introduction
351
9.1.1
A Note on Terminology
352
9.2
Biological Inspirations
354
9.2.1
Key Discoveries in Gecko Adhesion
354
9.2.2
Structured Adhesion in Other Animals
355
9.2.3
Summary of Observed Principles of
Micro-Structured Adhesives
357
9.3
Mechanical Principles of Structured Adhesive Surfaces
359
9.3.1
Adhesion
359
9.3.2
Friction
365
9.4
Gecko-Inspired Adhesives and Their Fabrication
367
9.4.1
Macro- and
Microscale
Fibers
367
9.4.2
Nanoscale Fibers
371
9.4.3
Hierarchical Fibers
372
9.5
Applications of Bioinspired Adhesives
374
9.5.1
Robotics
374
9.5.2
Safety and Medical Devices
377
CONTENTS xi
9.6
Future Directions: Unsolved Challenges and
Possible Applications
378
References
379
10
Adhesion and Friction Mechanisms of Polymer Surfaces
and Thin Films
391
Hongbo
Zeng
10.1
Introduction
391
10.2
Adhesion and Contact Mechanics
392
10.2.1
Surface Energies
392
10.2.2
Advances in Contact and Adhesion Mechanics
393
10.3
Adhesion of Glassy Polymers and Elastomers
398
10.3.1
Adhesion Interface: Chain Pull-Out
399
10.3.2
Glassy Polymers: Transition from Chain Pull-Out,
Chain Scission to Crazing
403
10.3.3
Adhesion Promoters for Polymer Systems
407
10.4
Experimental Advances in Adhesion and Friction
between Polymer Surfaces and Thin Films
408
10.5
Adhesion and Fracture Mechanism of Polymer
Thin Films: from Liquid to Solid-Like Behaviors
416
10.6
Adhesion and Friction between Rough Polymer Surfaces
423
10.7
Friction between Immiscible Polymer Melts
425
10.8 Hydrophobie
Interactions between Polymer Surfaces
426
10.9
Perspectives and Future Research Avenues
431
Acknowledgment
432
References
432
11
Recent Advances in Rubber Friction in the Context of
Tire Traction
443
Xiao-Dong Pan
11.1
Introduction
443
11.2
Background on Rubber Friction and Tire Traction
445
11.2.1
Characterization of Surface Roughness and Contact
Mechanics
453
11.3
Recent Innovations on Tire Tread Compounds
457
11.4
Rubber Friction under Stationary Sliding on Rough
Surfaces
461
11.4.1
Theory of Rubber Friction on Rough Surfaces
by
Klüppel
and
Heinrich 462
11.4.2
Persson
s
Model on Rubber Friction
471
11.4.3
The Model by
Heinrich
and
Klüppel
versus
the Model by
Persson:
Some Comparisons
474
11.5
Rubber Friction under Nonstationary Conditions
475
xii
CONTENTS
11.6
Interfacial
Effects on Rubber Friction
478
11.6.1
Rubber Surface Treatment
482
11.6.2
Molecular Scale Probing of Contact/Sliding
Interface
482
11.7
Rubber Friction Involving Textured Surfaces
484
11.8
Field Measurements within a Frictional Contact
486
11.9
Other Studies on or Related to Rubber Friction
488
11.10
Concluding Remarks
490
References
491
12
Polymers, Adhesion, and Paper Materials
501
Boxin Zhao, Dhamodaran Arunbabu, and Brendan McDonald
12.1
Introduction
501
12.2
Polymer Nature of Paper
502
12.2.1
Paper as a Network of Fibers
502
12.2.2
Wood Fibers and Its Natural Polymeric
Constituents
503
12.2.3
Cellulose Fibers
508
12.3
Functional Polymers and Sizing Agents Used in
Papermaking
509
12.3.1
Major Functions of Polymer Additives
509
12.3.2
Common Functional Polymers
514
12.3.3
Sizing Agents
519
12.4
Polymer Adhesion and the Formation of Paper
520
12.4.1
Intermolecular Forces or Molecular Adhesion
Processes
521
12.4.2
Capillary Forces
524
12.4.3
Work of Adhesion and Johnson—Kendall—Roberts
Contact Mechanics
524
12.4.4
The Formation of
Interfiber
Bonds
526
12.4.5
Linkage between Molecular Adhesion to
Paper Strength
530
12.5
Polymer Adhesion Measurement
533
12.5.1
Shear Adhesion Testing
533
12.5.2
Peeling Adhesion Testing
535
12.5.3
JKR-Type Contact Adhesion Testing
536
12.5.4
AFM Colloidal Probe Testing
537
12.6
Summary and Perspectives
538
References
539
13
Carbohydrates and Their Roles in Biological Recognition
Processes
545
Keshwaree Babooram and Ravin Narain
13.1
Introduction
545
CONTENTS xiii
13.2
Recent Advances in the Field of Carbohydrate Chemistry
546
13.2.1
Glycopolymers
546
13.2.2
Carbohydrate Microarrays
550
13.2.3
Carbohydrate-Based Vaccines
552
13.3
Molecular Interactions of Carbohydrates in Cell
Recognition
557
13.4
Techniques Used in the Identification of Carbohydrate
Interactions in Cell Recognition
558
13.4.1
Atomic Force Microscopy (AFM)
558
13.4.2
Cantilever Microarray Biosensors
563
13.5
Conclusions and Future Trends
564
References
566
14
The Impact of Bacterial Surface Polymers on
Bacterial Adhesion
575
Yang Liu
14.1
Bacterial Adhesion
575
14.1.1
Significance of Bacterial Adhesion
575
14.1.2
Mechanisms of Bacterial Adhesion
576
14.2
The Impact of Bacterial Surface Polymers on
Bacterial Adhesion
577
14.2.1
Bacterial Surface Polymers
577
14.2.2
Impact of Bacterial Surface Polymers on Adhesion
579
14.3
Methods and Models for Understanding Interaction
Mechanisms of Bacterial Adhesion
582
14.3.1
Techniques for Studying Bacterial Surface Polymers
582
14.3.2
Models to Explain Bacterial Adhesion Mechanisms
590
References
600
15
Adhesion, Friction, and Lubrication of Polymeric
Nanoparticles and Their Applications
617
Bassem
Kheireddin, Ming Zhang, and Mustafa Akbulut
15.1
Introduction
617
15.2
Applications of Polymeric Nanoparticles
617
15.2.1
Biomedical
Applications of PNPs
618
15.2.2
Energy Storage
621
15.2.3
Skin Care
622
15.2.4
Sensors
623
15.2.5
Electronic Devices
624
15.3
Methods of Preparation of Polymeric Nanoparticles
(PNPs)
625
15.3.1
Dispersion of Preformed Polymers
625
15.3.2
Polymerization of Monomers
633
xiv CONTENTS
15.4
Adhesion of PNP
636
15.4.1
Hertz Theory
637
15.4.2
JKR Theory
637
15.4.3
DMT Theory
638
15.4.4
Studies on Adhesion of PNPs
638
15.5
Adsorption of Polymeric Nanoparticles
641
15.5.1
Adsorption onto Polymeric Nanoparticles
641
15.5.2
Adsorption of Polymeric Nanoparticles on Large
Surfaces
642
15.5.3
Adsorption Isotherms
643
15.5.4
Adsorption Kinetics of Polymeric Nanoparticles
onto Substrates
644
15.6
Friction of PNP
647
15.7
Summary
648
References
649
16
Electrorheological and Magnetorheological Materials and
Mechanical Properties
659
Yu
Tian,
Yonggang
Meng,
and Shizhu Wen
16.1
Electrorheological and Magnetorheological History
659
16.2
ER/MR Phenomenon
661
16.3
ER/MR Materials
662
16.4
ER/MR Effect Models
664
16.5
Properties of ER/MR Fluids under Shearing, Tension,
and Squeezing
667
16.5.1
Shear Properties of ER/MR Fluids
667
16.5.2
Tensile Behavior of ER/MR Fluids
669
16.5.3
Compression of ER/MR Fluids
672
16.6
Transient Response to Field Strength, Shear Rate,
and Geometry
676
16.7
Shear Thickening in ER/MR Fluids at Low Shear Rates
681
16.8
Applications
683
References
684
Index
691
|
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| author2 | Zeng, Hongbo |
| author2_role | edt |
| author2_variant | h z hz |
| author_facet | Zeng, Hongbo |
| building | Verbundindex |
| bvnumber | BV041055331 |
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| dewey-ones | 540 - Chemistry and allied sciences |
| dewey-raw | 540 |
| dewey-search | 540 |
| dewey-sort | 3540 |
| dewey-tens | 540 - Chemistry and allied sciences |
| discipline | Chemie / Pharmazie Physik Werkstoffwissenschaften / Fertigungstechnik |
| format | Book |
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| id | DE-604.BV041055331 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:38:36Z |
| institution | BVB |
| isbn | 9780470916278 |
| language | English |
| lccn | 2012031792 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-026032555 |
| oclc_num | 854718332 |
| open_access_boolean | |
| owner | DE-11 DE-29T DE-703 |
| owner_facet | DE-11 DE-29T DE-703 |
| physical | XXI, 699 S. Ill., graph. Darst. 24 cm |
| publishDate | 2013 |
| publishDateSearch | 2013 |
| publishDateSort | 2013 |
| publisher | Wiley |
| record_format | marc |
| spelling | Polymer adhesion, friction, and lubrication ed. by Hongbo Zeng Hoboken, New Jersey Wiley 2013 XXI, 699 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Schmierung (DE-588)4052922-8 gnd rswk-swf Adhäsion (DE-588)4000493-4 gnd rswk-swf Polymere (DE-588)4046699-1 gnd rswk-swf Reibung (DE-588)4049098-1 gnd rswk-swf Polymere (DE-588)4046699-1 s Adhäsion (DE-588)4000493-4 s DE-604 Reibung (DE-588)4049098-1 s Schmierung (DE-588)4052922-8 s Zeng, Hongbo edt Erscheint auch als Online-Ausgabe, PDF 978-1-11-850514-4 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026032555&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Klappentext Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026032555&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Polymer adhesion, friction, and lubrication Schmierung (DE-588)4052922-8 gnd Adhäsion (DE-588)4000493-4 gnd Polymere (DE-588)4046699-1 gnd Reibung (DE-588)4049098-1 gnd |
| subject_GND | (DE-588)4052922-8 (DE-588)4000493-4 (DE-588)4046699-1 (DE-588)4049098-1 |
| title | Polymer adhesion, friction, and lubrication |
| title_auth | Polymer adhesion, friction, and lubrication |
| title_exact_search | Polymer adhesion, friction, and lubrication |
| title_full | Polymer adhesion, friction, and lubrication ed. by Hongbo Zeng |
| title_fullStr | Polymer adhesion, friction, and lubrication ed. by Hongbo Zeng |
| title_full_unstemmed | Polymer adhesion, friction, and lubrication ed. by Hongbo Zeng |
| title_short | Polymer adhesion, friction, and lubrication |
| title_sort | polymer adhesion friction and lubrication |
| topic | Schmierung (DE-588)4052922-8 gnd Adhäsion (DE-588)4000493-4 gnd Polymere (DE-588)4046699-1 gnd Reibung (DE-588)4049098-1 gnd |
| topic_facet | Schmierung Adhäsion Polymere Reibung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026032555&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026032555&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT zenghongbo polymeradhesionfrictionandlubrication |