简介:Fatiguecuttingisanewapproachforseparatingmaterial.Man-madefatiguecanberealizedbyapplyingarotatingbendingloadtoanotchedbar.Tobetterutilizethenewmethod,lasertreatmentisadoptedinthisstudy.Afterlaserradiationatthenotchroot,thefatiguecycleofthebardropsdramatically.Basedontheexperimentalresult,wedrawtheconclusionthatthefatigueofthebarisinfluencedbytheshapeofthehardenedarea.Ahardenedareathathasasmallaxialdimensionandarelativelylargeradialdimensionfacilitatesthefatigue.Thedesirablehardenedareacanbeobtainedbycontrollingthelasertreatmentparameters.
简介:Microbe-inducedcalciteprecipitationisasustainableimprovementtechniqueforsandysoil,whichcanalterthepropertiesofsandviamicrobialactivity.Inthisstudy,weinvestigatedtheloose-sand-consolidationeffectbycontrollingtheinjectionvelocity,bacterialandcementingsolutionconcentrations,andholdtimes.Theresultsdemonstratethat,asthecyclicbatchincreases,theutilizationrateofthebacterialfluidincreasesandboththeopticaldensity(OD600)ofthebacteriaandureaseactivitydecrease.Moreover,itwasdeterminedthata3-hholdtimefora0.5mol/Lcementingsolutionwithacementingfluidvelocityof2mL/minhasthegreatestbondingeffect.Thefinalstrengthoftheloosesandwithanincreaseincalciumcarbonatecontentwasfurtherdiscussed.