@incollection{, E2E00504B0BB814D72DE853D890CB971 , author={{H.T. PeterLiu}}, journal={{Global Journal of Researches in Engineering}}, journal={{GJRE}}2249-45960975-586110.34257/gjre, address={Cambridge, United States}, publisher={Global Journals Organisation}203120 } @incollection{b0, , title={{Blind Transmembrane Puncture Access: Design and Development of a Novel Laparos-copic Trocar and Blade Retraction Mechanism}} , author={{ NBegg }} , journal={{Mechanical Engineering Department}} 103 , year={2011} MIT , note={Master Thesis} } @incollection{b1, , title={{Chlorinated Paraffin in DoD Metalworking Fluids and Alternate Ma-chining Technologies Waterjet}} , author={{ FCampo } and { MMiller } and { SSmith }} , booktitle={{Presented at the 2018 ASETSDefense Workshop}} , year={2018. August 21 -23} } @book{b2, , title={{New Technologies in Glass}} , author={{ VCutler }} , year={2012. 2012} , address={London: Bloomsbury} } @incollection{b3, , title={{Titanium mesh cages (TMC) in spine surgery}} , author={{ DGrob } and { SDaehn } and { AFMannion }} 10.1007/s00586-004-0748-7 , journal={{Eur Spine J}} 4 3 , year={2004} } @book{b4, , title={{Atlas of Craniomaxillofacial Osterosynthesis: Microplates, Miniplates, and Screws}} , author={{ FHaerle } and { MChampy } and { BTerry }} , year={2009} , publisher={Thieme} 225 , address={New York} , note={2nd Ed} } @incollection{b5, , title={{Low-cost manufacturing of lightweight airfra structures -Prototype Development}} , author={{ CHibbard } and { H.-TLiu } and { SFang } and { PMiles }} No. 810 , booktitle={{Under SBIR Contract No. NAS1-98018}} 44 , year={2000} Prepare for NASA Langley Research Center , note={WTI Technical Report} } @incollection{b6, , title={{Trimming of CFRP Aircraft components}} , author={{ MHashish }} , booktitle={{Proc. 2013 WJTA-IMCA Conference and Expo}} 2013 WJTA-IMCA Conference and ExpoHouston, Texas , year={2013. September 9-11, 2013} } @incollection{b7, , title={{Comparative Evaluation of Abrasive-Fluidjet Machining Systems}} , author={{ MHashish }} , booktitle={{Winter Annual Meeting}} San Francisco , year={1989. December} 16 } @incollection{b8, , title={{PEEK biomaterias in Trauma, orthopedic, and spineal implants}} , author={{ SMKurtz } and { JNDevine }} doi: 10.1016 /j.biomaterials.2007.07.013 , journal={{Bimaterials}} 28 32 , year={2007} } @incollection{b9, , title={{Health Risks From Exposure to Metal-Working Fluids in Machining and Grinding Operations}} , author={{ KLi } and { FAghazadeh } and { SHatipkarasulu } and { TGRay }} 10.1080/10803548.2003.11076555 , journal={{Int. J. Occup. Safety and Ergonomics (JOSE)}} 9 1 , year={2003} } @incollection{b10, , title={{Near-Net Shaping of Optical Surfaces with Abrasive Suspension Jets}} , author={{ H.-TLiu }} , booktitle={{Proc. 14th}} 14th , year={1998} } @book{b11, , author={{ Int } and { Conf }} , title={{on Jetting Technology}} Brugge, Belgium , year={September 21 -23} } @incollection{b12, , title={{Machining honeycomb composites with abrasive-waterjets}} , author={{ H.-TLiu }} , booktitle={{Proc. 18th Int}} 18th Int , year={2006. 2020} } @book{b13, , title={{Conf. On Water Jetting}} Gdansk, Poland , year={September 13-15} } @incollection{b14, , title={{Abrasive-Waterjet Technology for Biomedical Applications}} , author={{ H.-TLiu }} , booktitle={{Proc. 21st Int Conf on Water Jetting}} 21st Int Conf on Water JettingOttawa, Canada , year={2012. September 19 to 21} } @incollection{b15, , title={{Novel Processes for Improving Precision of Abrasive-Waterjet Machining}} , author={{ Liu } and { ) H.-TPeter }} , booktitle={{Proc 2015 WJTA-ICMA Conference and Expo}} 2015 WJTA-ICMA Conference and ExpoNew Orleans, Louisiana , year={2015. November 2-4} } @incollection{b16, , title={{7M"Advantage of Abrasive Waterjet for Machining Advanced Materials}} , author={{ H.-TLiu }} , journal={{J. Manuf. Mater. Process}} 1 1 , year={2017a} , publisher={MDPI} } @book{b17, , title={{Versatility of micro abrasive waterjet technology for machining nanomaterials}} , author={{ H.-TLiu }} 10.1081/E-ENN3-120054064 , year={2017b} , note={Dekker Encyclopedia of Nanoscience and Nanotechnology} } @incollection{b18, , title={{Green Waterjet Machining Technology}} , author={{ Liu } and { ) H.-TPeter }} , booktitle={{Presented at the 2018 ASETS Defense Workshop}} , year={2018. August 21 -23} } @incollection{b19, , title={{Performance Comparison on Meso-Micro Machining of Waterjet, Lasers, EDM, and CNC Milling}} , author={{ H.-TLiu }} ISSN 2349-4409 , journal={{International Journal of Emerging Engineering Research and Technology}} 2349-4395 9print 7 6 , year={2019a. 2019} , publisher={Peter} } @incollection{b20, , title={{Advanced Waterjet Technology for Machining Curved and Layered Struc-tures}} , author={{ H.-TLiu }} , journal={{Curled and Layer Structure Journal}} (Online) 2353-7396 6 1 , year={2019b} , publisher={Peter} } @book{b21, , title={{Micro Abrasive-Waterjet Technology (Chapter Title)", Micromachining Techniques for Fabrication of Micro and Nano Structures}} , author={{ H.-TLiu } and { ESchubert }} , editor={Mojtaba Kahrizi} , year={2012. January} , publisher={INTECH Open Access Publisher} } @incollection{b22, , title={{CFD and Physical Modeling of UHP AWJ Drilling}} , author={{ H.-TLiu } and { PMiles } and { SDVeenhuizen }} , booktitle={{Proc. 14th Int. Conf. on Jetting Technology}} 14th Int. Conf. on Jetting TechnologyBrugge, Belgium , year={1998. September 21 -23} } @incollection{b23, , title={{Applications of Abrasive-Waterjets for Machining Fatigue-Critical Aerospace Aluminum Parts}} , author={{ H.-TLiu } and { YHovanski } and { MEDahl } and { JZeng }} , booktitle={{Proc. ASMEPVP2009 Conf}} ASMEPVP2009 ConfPrague, Czech , year={2009a. July 26-30} } @incollection{b24, , title={{Fatigue Performance Enhancement of AWJ-Machined Aircraft Aluminum with Dry-Grit Blasting}} , author={{ H.-TLiu } and { TGnäupel-Herold } and { YHovanski } and { MEDahl }} , booktitle={{Proc. 2009 Amer. WJTA Conference}} 2009 Amer. WJTA ConferenceHouston, TX , year={2009b. August 18-20} } @incollection{b25, , title={{Machining of Aircraft Titanium with Abrasive-Waterjets for Fatigue Critical Applications}} , author={{ H.-TLiu } and { YHovanski } and { MEDahl }} , booktitle={{Proc. ASME 2010 Pressure Vessels & Piping Division}} ASME 2010 Pressure Vessels & Piping DivisionBellevue, WA , year={2010. July 18-22} } @incollection{b26, , title={{Machining of Aircraft Titanium with Abrasive-Waterjets for Fatigue Critical Applications}} , author={{ H.-TLiu } and { YHovanski } and { MEDahl }} , journal={{ASME JPVT}} 134 1 , year={2012. February} } @incollection{b27, , title={{Performance comparison of subtractive and additive machine tools for meso-micro machining}} , author={{ Liu } and { ) H.-TPeter } and { NeilGershenfeld }} , journal={{J. Manuf. Mater. Process. (JMMP)}} 4 1 , year={2020} , publisher={MDPI} } @incollection{b28, , title={{Recent Advancement in Abrasive Waterjet for Precision Multimode Machining}} , author={{ Liu } and { ) H.-TPeter } and { VCutler } and { NWebers }} , booktitle={{Proc. 24th Int}} 24th Int , year={2018a} } @book{b29, , title={{Conf. on Water Jetting}} Manchester, UK , year={September 5-7} } @book{b30, , title={{Advanced Abrasive Waterjet for Precision Multimode Machining}} , author={{ Liu } and { ) H.-TPeter } and { VCutler } and { CRaghavan } and { PMiles } and { NWebers }} , year={2018b. October} , publisher={Intech Open Publisher} , address={Ed. Anna Rudawska} , note={Abrasive Technology -Characteristics and Applications} } @incollection{b31, , title={{Rectal cancer and exposure to metalworking fluids in the automobile manufacturing industry}} , author={{ EJMalloy } and { KLMiller } and { EAEisen }} , journal={{Occup Environ Med}} 64 , year={2007} } @incollection{b32, , title={{Light weighting Large Optics with Abrasive-Waterjets}} , author={{ PeterMiles }} , booktitle={{Proceedings of SPIE, Novel Optical Systems and Large Aperture Imaging, I 998}} SPIE, Novel Optical Systems and Large Aperture Imaging, I 998 , year={1998} 3430 } @book{b33, , title={{Method and Apparatus for Etching Plural Depths with a Fluid Jet}} , author={{ COlsen }} , year={2009. 2009/0311944 Al, filed December 17, 2009} , address={U.S} } @book{b34, , title={{Radical innovation in scaling up: Boeing's Dreamliner and the challenge of socio-technical transitions}} , author={{ RSlayton } and { GSpinardi }} , year={2016} , note={Technovation 47} } @incollection{b35, , title={{Study on Water Jet Machining and Its Future Trends}} , author={{ GSYadav } and { BKSingh }} , journal={{International Journal of Recent Research Aspects}} 2349-7688 3 2 , year={2016. June} } @incollection{b36, , title={{Improving Fatigue Strength of Metals using abrasive waterjet peening}} , author={{ DArola } and { AEAlade } and { WWeber }} , journal={{Machining Science and Technology}} 10 2 , year={2006} } @incollection{b37, , title={{Comparison between Shot Peening and Surface Nanocrystallization and Hardening Processes}} , author={{ KDai } and { LShaw }} , booktitle={{Structural materials: properties, micro-structure and processing}} , year={2007} 463 } @incollection{b38, , title={{Shot-Peening Effects on Metal Erosion}} , author={{ YMeged }} ID JTE12749 , journal={{J. Testing and Evaluation}} 34 4 , year={2006} } @incollection{b39, , title={{Waterjet Machining and Peen-ing of Metals}} , author={{ MRamulu } and { SKunaporn } and { DArola } and { MHashish } and { JHopkins }} , journal={{ASME J. Pressure Vessel Technology}} 122 1 , year={2000} } @incollection{b40, , title={{Fatigue Performance of Waterjet Peened Aluminum Alloy}} , author={{ MRamulu } and { SKunaporn } and { MGJenkins } and { MHashish } and { JHopkins }} , journal={{ASME J. Pressure Vessel Technology}} 123 1 , year={2002} } @incollection{b41, , title={{Fatigue Limits of Shot-Peened Metals}} , author={{ SWang } and { YLi } and { MYao } and { Wang } and { R }} , journal={{J. Materials Proc. Tech}} 73 , year={1998a} } @incollection{b42, , title={{Compressive Residue Stress Introduced by Shot Peening}} , author={{ SWang } and { YLi } and { MYao } and { Wang } and { R }} , journal={{J. Materials Proc. Tech}} 73 , year={1998b} }