Advances in Water-Based Nanolubricants

Energy conservation and environmental protection face unprecedented challenges in modern manufacturing, highlighting the critical need for green manufacturing and sustainable development. Lubrication plays a vital role in minimizing energy loss caused by friction and wear in engineering applications...

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ভাষা:ইংরেজি
প্রকাশিত: MDPI - Multidisciplinary Digital Publishing Institute 2025
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অনলাইন ব্যবহার করুন:ONIX_20250220_9783725827992_438
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_version_ 1869518625689305088
collection Directory of Open Access Books
description Energy conservation and environmental protection face unprecedented challenges in modern manufacturing, highlighting the critical need for green manufacturing and sustainable development. Lubrication plays a vital role in minimizing energy loss caused by friction and wear in engineering applications. However, conventional oil-based lubricants pose significant environmental concerns due to their non-biodegradable nature and inherent toxicity, making recycling a major challenge. In contrast, water is a clean, low-cost, and recyclable lubricant, but its corrosive properties and low viscosity limit its broader application. To address these limitations, recent research has focused on enhancing water’s lubricity through the dispersion of nanomaterials as nanoadditives, aided by eco-friendly surfactants. Water-based nanolubricants have emerged as a promising alternative to conventional oil-based lubricants, including pure oils, oil-in-water emulsions, and oil-based nanolubricants, offering significant benefits for sustainable manufacturing. This Special Issue highlights the latest advancements in experimental and modeling research on novel water-based nanolubricants in tribology and related emerging fields.
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1530742025-02-20T13:31:11Z Advances in Water-Based Nanolubricants Wu, Hui Menezes, Pradeep ionic liquids lubricants additives nano-lubricants tribology water-based nanolubricant nanoadditive dispersion stability metal forming zirconia graphene oxide hybrid nanoparticles friction wear electroosmosis electrical double layer tribo-induced electric field water-based lubricant penetration lubrication tribological tests GO@SiO2 hybrid additive carbon nanotube composites nanofluids milling lubrication mechanism water-based TiO2 nanolubricant micro deep drawing pure titanium size effects alcohols electrostatic minimum quantity lubrication aluminum–steel contact friction and wear cellulose derivative carboxymethyl cellulose viscosity modifier water-containing lubricant aqueous lubrication biolubrication biopolymer nanolubricants titanium foil tribological behavior micro rolling thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology Energy conservation and environmental protection face unprecedented challenges in modern manufacturing, highlighting the critical need for green manufacturing and sustainable development. Lubrication plays a vital role in minimizing energy loss caused by friction and wear in engineering applications. However, conventional oil-based lubricants pose significant environmental concerns due to their non-biodegradable nature and inherent toxicity, making recycling a major challenge. In contrast, water is a clean, low-cost, and recyclable lubricant, but its corrosive properties and low viscosity limit its broader application. To address these limitations, recent research has focused on enhancing water’s lubricity through the dispersion of nanomaterials as nanoadditives, aided by eco-friendly surfactants. Water-based nanolubricants have emerged as a promising alternative to conventional oil-based lubricants, including pure oils, oil-in-water emulsions, and oil-based nanolubricants, offering significant benefits for sustainable manufacturing. This Special Issue highlights the latest advancements in experimental and modeling research on novel water-based nanolubricants in tribology and related emerging fields. 2025-02-20T13:31:08Z 2025-02-20T13:31:08Z 2024 book ONIX_20250220_9783725827992_438 9783725827992 9783725828005 https://directory.doabooks.org/handle/20.500.12854/153074 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/pdfview/book/10374 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-2800-5 10.3390/books978-3-7258-2800-5 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725827992 9783725828005 220 Basel open access
spellingShingle ionic liquids
lubricants
additives
nano-lubricants
tribology
water-based nanolubricant
nanoadditive
dispersion stability
metal forming
zirconia
graphene oxide
hybrid nanoparticles
friction
wear
electroosmosis
electrical double layer
tribo-induced electric field
water-based lubricant
penetration
lubrication
tribological tests
GO@SiO2 hybrid
additive
carbon nanotube
composites
nanofluids
milling
lubrication mechanism
water-based TiO2 nanolubricant
micro deep drawing
pure titanium
size effects
alcohols
electrostatic minimum quantity lubrication
aluminum–steel contact
friction and wear
cellulose derivative
carboxymethyl cellulose
viscosity modifier
water-containing lubricant
aqueous lubrication
biolubrication
biopolymer
nanolubricants
titanium foil
tribological behavior
micro rolling
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology
Advances in Water-Based Nanolubricants
title Advances in Water-Based Nanolubricants
title_full Advances in Water-Based Nanolubricants
title_fullStr Advances in Water-Based Nanolubricants
title_full_unstemmed Advances in Water-Based Nanolubricants
title_short Advances in Water-Based Nanolubricants
title_sort advances in water based nanolubricants
topic ionic liquids
lubricants
additives
nano-lubricants
tribology
water-based nanolubricant
nanoadditive
dispersion stability
metal forming
zirconia
graphene oxide
hybrid nanoparticles
friction
wear
electroosmosis
electrical double layer
tribo-induced electric field
water-based lubricant
penetration
lubrication
tribological tests
GO@SiO2 hybrid
additive
carbon nanotube
composites
nanofluids
milling
lubrication mechanism
water-based TiO2 nanolubricant
micro deep drawing
pure titanium
size effects
alcohols
electrostatic minimum quantity lubrication
aluminum–steel contact
friction and wear
cellulose derivative
carboxymethyl cellulose
viscosity modifier
water-containing lubricant
aqueous lubrication
biolubrication
biopolymer
nanolubricants
titanium foil
tribological behavior
micro rolling
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology
topic_facet ionic liquids
lubricants
additives
nano-lubricants
tribology
water-based nanolubricant
nanoadditive
dispersion stability
metal forming
zirconia
graphene oxide
hybrid nanoparticles
friction
wear
electroosmosis
electrical double layer
tribo-induced electric field
water-based lubricant
penetration
lubrication
tribological tests
GO@SiO2 hybrid
additive
carbon nanotube
composites
nanofluids
milling
lubrication mechanism
water-based TiO2 nanolubricant
micro deep drawing
pure titanium
size effects
alcohols
electrostatic minimum quantity lubrication
aluminum–steel contact
friction and wear
cellulose derivative
carboxymethyl cellulose
viscosity modifier
water-containing lubricant
aqueous lubrication
biolubrication
biopolymer
nanolubricants
titanium foil
tribological behavior
micro rolling
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology
url ONIX_20250220_9783725827992_438