Call Number (LC) Title Results
TJ853 .N38 1971 American national standard methods of presenting basic performance data for fluidic devices / 1
TJ853 .N38 1973 American national standard method for verifying the material compatibility of a hydraulic fluid power filter element / 1
TJ853 .N38 1979 Pneumatic fluid power applications-- metal separable test fittings-- qualifications test / 1
TJ853 .N38 1981 Pneumatic fluid power-- quick action couplings-- test conditions and procedures /
Hydraulic fluid power. 		2
TJ853 .N39 1873 American national standard method for verifying the flow fatigue characteristics of a hydraulic fluid power filter element / 1
TJ853 .N48 2006eb Fundamentals and applications of microfluidics
Fundamentals and applications of microfluidics / 		2
TJ853 .N48 2011eb Micromixers fundamentals, design and fabrication / 1
TJ853 .N48 2012eb Micromixers : fundamentals, design and fabrication / 1
TJ853 .N49 2008 Micromixers : fundamentals, design and fabrication / 1
TJ853 .N49 2008eb Micromixers fundamentals, design and fabrication / 2
TJ853 .O68 2006 Optofluidics 15-16 August, 2006, San Diego, California, USA / 1
TJ853 .P53 1990 Pneumatic quick-action couplings : plug dimensions / 1
TJ853 .P54 1990 Pneumatic fluid power : flow rating test procedure and reporting method : for fixed orifice components / 1
TJ853 .P55 1990 Pneumatic fluid power : measurement of response time : directional control valves / 1
TJ853 .T33 2005 Introduction to microfluidics / 1
TJ853 .T3313 2005 Introduction to microfluidics / 2
TJ853 .T47 2007 Pressure-driven microfluidics / 1
TJ853 .Y37 2009 Fluid flow, heat transfer and boiling in micro-channels / 1
TJ853.4.M53 Microfluidics : theory and applications /
Nanofluids and their engineering applications /
Microfluidic devices for biomedical applications /
Fundamentals and applications of microfluidics /
Nanofluid boiling /
Nanofluids Technology for Thermal Sciences and Engineering : Research, Development, and Applications /
Microfluidics and microscale transport processes
Microfluidics and Nanofluidics Handbook
Advanced Materials-Based Fluids for Thermal Systems
Open microfluidics /
NANOFLUIDS advanced applications and numerical simulations.
Microfluidics for biologists : fundamentals and applications /
Open-space microfluidics : concepts, implementations, applications /
Hybrid nanofluids for convection heat transfer
Transport phenomena in microfluidic systems /
Microfluidics and Nanofluidics : Theory and Selected Applications.
Nanofluids for heat and mass transfer sustainable manufacturing and applications /
Applications of nanofluid for heat transfer enhancement /
Microfluidics : modeling, mechanics and mathematics /
External magnetic field effects on hydrothermal treatment of nanofluid : numerical and analytical studies /
Topology optimization theory for laminar flow : applications in inverse design of microfluidics /
Hybrid nanofluids for convection heat transfer /
Microfluidics : fundamental, devices and applications /
Advances in nanofluid heat transfer
Micro- and nanoflows : modeling and experiments /
Laboratory methods in microfluidics
Micro-segmented flow : applications in chemistry and biology /
Inkjet technology for digital fabrication /
Microscale acoustofluidics /
Microfluidics for medical applications /
Applications of semi-analytical methods for nanofluid flow and heat transfer /
Micro and nanofluid convection with magnetic field effects for heat and mass transfer applications using MATLAB
Magnetic microhydrodynamics : an emerging research field /
Droplet Microfluidics
Nanofluidics : thermodynamic and transport properties /
Applications of nanofluids in chemical and bio-medical process industry /
Towards autonomous soft matter systems : experiments on membranes and active emulsions /
Microfluidics in biotechnology /
Micro-electrode-dot-array digital microfluidic biochips : design automation, optimization, and test techniques /
Thermal transport characteristics of phase change materials nd nanofluids /
Fundamentals and Transport Properties of Nanofluids.
Applications of microfluidic systems in biology and medicine /
Electrokinetic microfluidics and nanofluidics
Microfluidics for advanced functional polymeric materials /
Lab-on-a-chip devices and micro-total analysis systems : a practical guide /
Microfluidic biosensors
Dynamic wetting by nanofluids /
Microfluidics-enabled soft manufacture /
Nanofluids mathematical, numerical and experimental analysis /
Nanoscale and microscale phenomena : fundamentals and applications /
Nanofluidics /
External magnetic field effects on hydrothermal treatment of nanofluid numerical and analytical studies /
Current trends in green nano-emulsions : food, agriculture and biomedical sectors /
Paper microfluidics : theory and applications /
Nanofluids : preparation, applications and simulation methods /
Nanofluids : fundamentals, applications, and challenges /
Tip streaming of simple and complex fluids /
Droplet and digital microfluidics ideation to implementation.
Microfluidic and compartmentalized platforms for neurobiological research /
Microchip diagnostics : methods and protocols /
Towards nanofluids for large-scale industrial applications
Human organs-on-a-chip technology /
Thermal characteristics and convection in nanofluids
Microfluidics modeling, mechanics and mathematics /
Preparation, characterization, properties and application of nanofluid
Nanofluids and mass transfer
Microfluidics and Nanofluidics Handbook.
Microfluidics for pharmaceutical applications : from nano/micro systems fabrication to controlled drug delivery /
Microfluidics for single-cell analysis /
Microfluidics in detection science : lab-on-a-chip technologies /
Hybrid nanofluids preparation, characterization and applications /
Topological microfluidics : nematic liquid crystals and nematic colloids in microfluidic environment /
Microfluidics and Nanofluidics Theory and Selected Applications.
Modelling of convective heat and mass transfer in nanofluids with and without boiling and condensation /
Open microfluidics
Nanotechnology and microfluidics /
Ice microfluidics : ice as size-tunable separation field and physicochemical nature of freeze concentrated solutions : doctoral thesis accepted by Tokyo Institute of Technology, Tokyo, Japan.
Designing droplet microfluidic networks a toolbox for designers /
Advances in nanofluid heat transfer /
Fundamentals and Applications of Microfluidics, Third Edition / 		100
TJ853.4.M53 A24 2009 Nanofluidics / 1