The code for calculating the crown effect rate of hot strip steel Was developed using the effect function method. The effect of the initial crown on the crown of the product in hot strip rolling was investigated. The ...The code for calculating the crown effect rate of hot strip steel Was developed using the effect function method. The effect of the initial crown on the crown of the product in hot strip rolling was investigated. The coefficients of a polynomial of degree six for calculating the base value of initial crown effect rate in 4-high mill were determined and the compensation factors of per unit width rolling force, bending force, work roll crown and draft on the initial crown effect rate were given. The difference between the calculation result by established model and theoretical value obtained by effect function method was 4.88 μm when the strip width was 1.85 m.展开更多
Software for calculating the strip profile in 4-high hot rolling mill was developed using influence coefficient method. Regularity of backup roller diameter effect rate was studied systematically using the software. T...Software for calculating the strip profile in 4-high hot rolling mill was developed using influence coefficient method. Regularity of backup roller diameter effect rate was studied systematically using the software. The results show that backup roller diameter effect rates decrease versus the increase of strip width, increase significantly versus the increase of backup roller diameter and obscurely increase versus the increase of reduction. The difference between backup roller diameter effect rate and it is reference value increases versus strip width increasing. When backup rollers diameter is set to be 1.64 m and strip width is 1.85 m, the error of strip profile calculated using the model of backup roller diameter effect rate reference value will be 3.55μm. Based on the results, reference values of roller diameter effect rate and six power polynomial fitting coefficients of modification coefficients were determined considering coherent parameters. The high precision model of backup roller diameter effect rate was established. When the model is used to predict strip profile, the accuracy is less than 5.0 μm.展开更多
禽腺病毒血清4型(FAdV-4)引起的禽肝炎-心包积液综合征已严重危害我国养禽业的发展,迫切需要深入了解FAdV-4的致病机制并制定有效的防控方案。论文旨在利用高通量测序技术分析禽腺病毒血清4型感染鸡肝癌(Leghorn male hepatocellular,L...禽腺病毒血清4型(FAdV-4)引起的禽肝炎-心包积液综合征已严重危害我国养禽业的发展,迫切需要深入了解FAdV-4的致病机制并制定有效的防控方案。论文旨在利用高通量测序技术分析禽腺病毒血清4型感染鸡肝癌(Leghorn male hepatocellular,LMH)细胞后差异表达的mRNA,以探究mRNA在FAdV-4感染过程中的作用及其调控机制。结果显示,与对照组相比,FAdV-4感染48 h共筛选到2604个上调的差异表达基因,2883个下调的差异表达基因。其中,GNB3、NECTIN4、SFRP4、FABP2、PLPP3、GALR1L和MBL 2等基因之前并没有被报道过与FAdV-4感染相关。通过GO和KEGG分析得知,差异表达基因主要富集在从细胞表面位点和信号受体结合至细胞周期调节、MAPK信号通路、细胞黏附分子作用等;其中,显著下调的差异基因还富集到多种代谢途径中,提示病毒感染会影响宿主细胞的代谢水平。本研究为深入解析FAdV-4感染宿主细胞的致病机制提供了相关的理论基础及科学依据。展开更多
基金This study was financially supported by the National Nat-ural Science Foundation of China under grant No.59995440the State Key Development Programming Research under grant No.G2000027208-4the Natural Science Foundar tion of Liaoning Province under grant No.2001101021.
文摘The code for calculating the crown effect rate of hot strip steel Was developed using the effect function method. The effect of the initial crown on the crown of the product in hot strip rolling was investigated. The coefficients of a polynomial of degree six for calculating the base value of initial crown effect rate in 4-high mill were determined and the compensation factors of per unit width rolling force, bending force, work roll crown and draft on the initial crown effect rate were given. The difference between the calculation result by established model and theoretical value obtained by effect function method was 4.88 μm when the strip width was 1.85 m.
基金the National Natu-ral Science Foundation of China,under the contract No.59995440the State Key Development Prograrmming Research under the contract No.G2000027208-4 the Natural Science Foundation ofLiaoning Province,under the contract No.2001101021.
文摘Software for calculating the strip profile in 4-high hot rolling mill was developed using influence coefficient method. Regularity of backup roller diameter effect rate was studied systematically using the software. The results show that backup roller diameter effect rates decrease versus the increase of strip width, increase significantly versus the increase of backup roller diameter and obscurely increase versus the increase of reduction. The difference between backup roller diameter effect rate and it is reference value increases versus strip width increasing. When backup rollers diameter is set to be 1.64 m and strip width is 1.85 m, the error of strip profile calculated using the model of backup roller diameter effect rate reference value will be 3.55μm. Based on the results, reference values of roller diameter effect rate and six power polynomial fitting coefficients of modification coefficients were determined considering coherent parameters. The high precision model of backup roller diameter effect rate was established. When the model is used to predict strip profile, the accuracy is less than 5.0 μm.
文摘禽腺病毒血清4型(FAdV-4)引起的禽肝炎-心包积液综合征已严重危害我国养禽业的发展,迫切需要深入了解FAdV-4的致病机制并制定有效的防控方案。论文旨在利用高通量测序技术分析禽腺病毒血清4型感染鸡肝癌(Leghorn male hepatocellular,LMH)细胞后差异表达的mRNA,以探究mRNA在FAdV-4感染过程中的作用及其调控机制。结果显示,与对照组相比,FAdV-4感染48 h共筛选到2604个上调的差异表达基因,2883个下调的差异表达基因。其中,GNB3、NECTIN4、SFRP4、FABP2、PLPP3、GALR1L和MBL 2等基因之前并没有被报道过与FAdV-4感染相关。通过GO和KEGG分析得知,差异表达基因主要富集在从细胞表面位点和信号受体结合至细胞周期调节、MAPK信号通路、细胞黏附分子作用等;其中,显著下调的差异基因还富集到多种代谢途径中,提示病毒感染会影响宿主细胞的代谢水平。本研究为深入解析FAdV-4感染宿主细胞的致病机制提供了相关的理论基础及科学依据。