| Description |
1 online resource (136 pages). |
|
text file PDF |
| Series |
De Gruyter series in advanced mechanical engineering,
2367-3796 ;
volume 2
|
|
De Gruyter series in advanced mechanical engineering ; v. 2.
|
| Contents |
Frontmatter -- Preface -- About the editor -- Contents -- List of contributing authors -- 1 Tribological Materials -- An Ecosustainable Perspective -- 2 Preparation and Tribology Performance of Bio-based Ceramic Particles from Rice Waste -- 3 Tribological Behavior and Tribochemistry of Ti3SiC2 in Water and Alcohols -- 4 Modelling and Analysis of the Oil-Film Pressure of a Hydrodynamic Journal Bearing Lubricated by Nano-based Biolubricants Using a D-Optimal Design -- 5 Wear Performance of Oil Palm Seed Fibre-Reinforced Polyester (OpSeFRP) Composite Aged in Brake Fluid Solutions -- Index. |
| Summary |
Tribology is usually defined as "the science and technology of interacting surfaces in relative motion". It includes the research and application of principles of friction, wear, lubrication and design. Green tribology involves tribological aspects of environmental and biological impacts. This multidisciplinary field of science and technology is very important for the development of new products in mechanics, materials, chemistry, life sciences and by extension for all modern industry. The current volume aims to provide recent information on progress in green tribology. Chapter 1 provides information on tribological materials (an eco-sustainable perspective), while chapter 2 is dedicated to preparation and tribology performance of bio-based ceramic particles from rice waste and chapter 3 describes tribological behavior and tribochemistry of Ti3SiC2 in water and alcohols. Chapter 4 contains information on modelling and analysis of the oil-film pressure of a hydrodynamic journal bearing lubricated by nano based bio-lubricants using a D-optimal design. Finally, chapter 5 is dedicated to wear performance of oil palm seed fibre reinforced polyester composite aged in brake fluid solutions. The current volume can be used as a research book for final undergraduate in engineering courses or as a topic on green tribology at postgraduate level. This book can also serve as useful reference for academics, researchers, mechanical, materials, environmental and manufacturing engineers, professionals green tribology and related industries. |
| Bibliography |
Includes bibliographical references and index. |
| Local Note |
eBooks on EBSCOhost EBSCO eBook Subscription Academic Collection - North America |
| Language |
In English. |
| Subject |
Biomedical materials.
|
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Biomedical materials. |
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Biomedical engineering.
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Biomedical engineering. |
| Indexed Term |
(Produktform)Electronic book text |
|
(Zielgruppe)Fachpublikum/ Wissenschaft |
|
(BISAC Subject Heading)TEC021000 |
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(BISAC Subject Heading)TEC008000: TEC008000 TECHNOLOGY / Electronics / General |
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(BISAC Subject Heading)TEC009010: TEC009010 TECHNOLOGY / Engineering / Chemical & Biochemical |
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(BISAC Subject Heading)SCI013060: SCI013060 SCIENCE / Chemistry / Industrial & Technical |
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(BISAC Subject Heading)TEC009000: TEC009000 TECHNOLOGY / Engineering / General |
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(BISAC Subject Heading)SCI010000: SCI010000 SCIENCE / Biotechnology |
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Tribologie |
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Nachhaltigkeit |
|
Mechanochemie |
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Chemische Verfahrenstechnik |
|
(VLB-WN)9687 |
|
(Produktrabattgruppe)PR: rabattbeschränkt/Bibliothekswerke |
| Genre/Form |
Electronic books.
|
| Added Author |
Davim, J. Paulo.
|
|
Hu, Xianghuo.
|
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Lu, JingJun.
|
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Nirmal, Umar.
|
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Prasanta, Sahoo.
|
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S., Arunmungam.
|
| Other Form: |
bundle 9783110367089 |
|
EPUB 9783110392524 |
|
print 9783110372724 |
| ISBN |
9783110367058 |
|
311036705X |
|
9783110392524 |
|
3110392526 |
|
9783110372724 |
| Standard No. |
10.1515/9783110367058 |
|
9783110367058 |
|
urn:nbn:de:101:1-201704193029 |
|
9783110392524 |
|
urn:nbn:de:101:1-201705175163 |
|
