By using multi-pass straight-line scan strategies,a larger bending angle can be achieved.There is,however,a limited understanding of the variation in bending angle per pass during multi-pass under various process para...By using multi-pass straight-line scan strategies,a larger bending angle can be achieved.There is,however,a limited understanding of the variation in bending angle per pass during multi-pass under various process parameters.In multi-pass laser scanning,the bending angle cannot always linearly increase with scanning passes and this phenomenon can be observed mostly in low heat input.Strain hardening is the common explanation for this phenomenon.However,it could not explain why this bending angle reduction phenomenon occurs at low heat input scanning rather than at high heat input scanning.In this study,this phenomenon is discussed based on strain development in experiments and numerical simulation.The different growing mechanism of plastic strain is analyzed to reveal the effects of laser power and scanning velocity.Furthermore,the opposite bending trend that occurred at larger laser power is discussed in comparison to the plastic strain development.The study shows that relatively larger heat input below 6.7 J/mm can help to avoid the bending angle reduction phenomenon and the opposite bending trend is highly dependent on the larger laser power.For achieving the expected cumulative bending angle in multi-pass laser bending,it is recommended to decrease the scanning velocity at a relatively low laser power level while increase the scanning velocity at a high level of laser power.展开更多
Quasi-static and high strain rate compressive experiments on vinyl ester casting were carried out by means of MTS (Material Test System) and Hopkinson bar. The behaviors of the compressed unstable and fracture of the ...Quasi-static and high strain rate compressive experiments on vinyl ester casting were carried out by means of MTS (Material Test System) and Hopkinson bar. The behaviors of the compressed unstable and fracture of the resin casting at different strain rates were investigated.The results indicate that the response behavior of the resin casting is controlled by different mechanisms at different strain rate, and some mechanical properties of vinyl ester casting are rate-dependent: the casting are destroyed in toughness model under strain rate 3.3×10 -4~6.6×10 -3/s, while the casting are destroyed in brittleness model under strain rate 950~5800/s. The yield stress, yield strain energy density are all increased with the increasing strain rates at quasi-static as well as at high strain rates. What is interesting is that the yield strain decreased with the strain rates increasing at quasi-static while increased at high strain rates. It is considered that the casting occurred forcing high elastic deformation at high strain rates. The damage of the specimens is mainly controlled by axial stress before unstable deformation, while mainly controlled by shear stress after unstable deformation, and then developed to fracture finally. This progress is rate-dependent: the development of the cracks inside the castings increased with the strain rate increasing.展开更多
稻虱缨小蜂Anagrus nilaparvatae Pang et Wang是控制稻飞虱种群暴发的主要寄生性天敌之一,高温是制约其种群动态的重要因子。为了解35℃高温驯化获得的稻虱缨小蜂耐热品系(NR品系)的生防潜力,对不同温度下该品系的发育历期、有效积温...稻虱缨小蜂Anagrus nilaparvatae Pang et Wang是控制稻飞虱种群暴发的主要寄生性天敌之一,高温是制约其种群动态的重要因子。为了解35℃高温驯化获得的稻虱缨小蜂耐热品系(NR品系)的生防潜力,对不同温度下该品系的发育历期、有效积温、寄主卵选择、产卵量以及极端高温胁迫参数进行了测定。结果发现,与未经高温驯化的稻虱缨小蜂品系(HZ品系)相比,20℃时,NR品系雄蜂的发育速率显著高于HZ品系,这一差异主要表现在卵-幼虫中期和蛹期的发育时间明显缩短。NR品系在高温下能维持正常的产卵能力,35℃下NR品系产卵量仍能达到18.80粒/雌。NR品系有更强的耐极端温度的能力,50℃下NR品系雄蜂的热击倒时间为15.19 min,比HZ品系雄蜂长3.03 min。补充不同营养对NR品系的产卵量存在影响,35℃条件下补充10%蔗糖既能延长其寿命,也能提高产卵量。以上研究结果表明高温驯化得到的稻虱缨小蜂品系在35℃高温环境中能维持正常的生长发育和寄生能力,具备适应稻田夏季高温环境的潜力。展开更多
基金supported by the National Natural Science Foundation of China(No.61876024)the Natural Science Foundation for higher education of Jiangsu Province(No.21KJA510003&No.21KJB460035)Suzhou Municipal Science and Technology Plan Project(No.SYG202129)。
文摘By using multi-pass straight-line scan strategies,a larger bending angle can be achieved.There is,however,a limited understanding of the variation in bending angle per pass during multi-pass under various process parameters.In multi-pass laser scanning,the bending angle cannot always linearly increase with scanning passes and this phenomenon can be observed mostly in low heat input.Strain hardening is the common explanation for this phenomenon.However,it could not explain why this bending angle reduction phenomenon occurs at low heat input scanning rather than at high heat input scanning.In this study,this phenomenon is discussed based on strain development in experiments and numerical simulation.The different growing mechanism of plastic strain is analyzed to reveal the effects of laser power and scanning velocity.Furthermore,the opposite bending trend that occurred at larger laser power is discussed in comparison to the plastic strain development.The study shows that relatively larger heat input below 6.7 J/mm can help to avoid the bending angle reduction phenomenon and the opposite bending trend is highly dependent on the larger laser power.For achieving the expected cumulative bending angle in multi-pass laser bending,it is recommended to decrease the scanning velocity at a relatively low laser power level while increase the scanning velocity at a high level of laser power.
文摘Quasi-static and high strain rate compressive experiments on vinyl ester casting were carried out by means of MTS (Material Test System) and Hopkinson bar. The behaviors of the compressed unstable and fracture of the resin casting at different strain rates were investigated.The results indicate that the response behavior of the resin casting is controlled by different mechanisms at different strain rate, and some mechanical properties of vinyl ester casting are rate-dependent: the casting are destroyed in toughness model under strain rate 3.3×10 -4~6.6×10 -3/s, while the casting are destroyed in brittleness model under strain rate 950~5800/s. The yield stress, yield strain energy density are all increased with the increasing strain rates at quasi-static as well as at high strain rates. What is interesting is that the yield strain decreased with the strain rates increasing at quasi-static while increased at high strain rates. It is considered that the casting occurred forcing high elastic deformation at high strain rates. The damage of the specimens is mainly controlled by axial stress before unstable deformation, while mainly controlled by shear stress after unstable deformation, and then developed to fracture finally. This progress is rate-dependent: the development of the cracks inside the castings increased with the strain rate increasing.
文摘稻虱缨小蜂Anagrus nilaparvatae Pang et Wang是控制稻飞虱种群暴发的主要寄生性天敌之一,高温是制约其种群动态的重要因子。为了解35℃高温驯化获得的稻虱缨小蜂耐热品系(NR品系)的生防潜力,对不同温度下该品系的发育历期、有效积温、寄主卵选择、产卵量以及极端高温胁迫参数进行了测定。结果发现,与未经高温驯化的稻虱缨小蜂品系(HZ品系)相比,20℃时,NR品系雄蜂的发育速率显著高于HZ品系,这一差异主要表现在卵-幼虫中期和蛹期的发育时间明显缩短。NR品系在高温下能维持正常的产卵能力,35℃下NR品系产卵量仍能达到18.80粒/雌。NR品系有更强的耐极端温度的能力,50℃下NR品系雄蜂的热击倒时间为15.19 min,比HZ品系雄蜂长3.03 min。补充不同营养对NR品系的产卵量存在影响,35℃条件下补充10%蔗糖既能延长其寿命,也能提高产卵量。以上研究结果表明高温驯化得到的稻虱缨小蜂品系在35℃高温环境中能维持正常的生长发育和寄生能力,具备适应稻田夏季高温环境的潜力。
文摘目的调查广泛性发育障碍(pervasive developmental disorders,PDDs)患儿多动、刻板、自伤、易激惹行为对照料者情绪及育儿压力的影响。方法对138例PDDs患儿使用异常行为量表(aberrant behavior checklist,ABC)、Conners多动指数问卷(Conner index of hyperactivity,CIH)评估患儿近一个月异常行为情况,使用医院焦虑抑郁量表(hospital anxiety and depression scale,HAD)、照料者压力问卷(caregiver strain questionnaire,CGSQ)分别评估患儿照料者的情绪及育儿压力。结果 PDDs患儿的照料者中6.2%存焦虑情绪,17.8%存抑郁情绪,29.5%同时存在焦虑抑郁情绪。偏相关分析示,PDDs患儿照料者CGSQ得分与患儿CIH分(r=0.201,P=0.023)、刻板动作(r=0.189,P=0.033)呈正相关,与刻板言语呈负相关(r=-0.219,P=0.013),照料者焦虑情绪与刻板动作呈正相关(r=0.206,P=0.021)。结论焦虑抑郁情绪在PDDs照料者中较普遍。除刻板言语外,PDDs患儿的异常行为越严重,照料者育儿压力越大,焦虑情绪越明显。