英语翻译References[1] T.Vorm,Development of a quick-stop device
来源:学生作业帮 编辑:大师作文网作业帮 分类:英语作业 时间:2024/11/12 18:19:48
英语翻译
References
[1] T.Vorm,Development of a quick-stop device and an analysis of the
frozen-chip technique,Int.J.Mach.Tool Des.Res.16 (1976) 241–
250.
[2] J.Ellis,R.Kirk and G.Barrow,The development of a quick-stop
device for metal cutting research,Int.J.Mach.Tool Des.Res.9
(1969) 321–339.
[3] P.K.Philip,Study of the performance characteristics of an explosive
quick-stop device for freezing cutting action,Int.J.Mach.Tool Des.
Res.11 (1971) 133–144.
[4] R.H.Brown,A double shear-pin quick-stop device for very rapid
disengagement of a cutting tool,Int.J.Mach.Tool Des.Res.16
(1976) 115–121.
[5] J.T.Black,C.R.James,The hammer QSD—quick stop device for
high speed machining and rubbing,J.Eng.Ind.103 (1981) 13–21.
[6] R.Komanduri,R.H.Brown,On the mechanics of chip segmentation
in machining,J.Eng.Ind.103 (1981) 33–51.
[7] B.J.Griffiths,The development of a quick-stop device for use in metal
cutting hole manufacturing processes,Int.J.Mach.Tool Des.Res.26
(2) (1986) 191–203.
[8] S.H.Yeo,W.W.Lui and V.Phung,A quick-stop device for
orthogonal machining,J.Mater.Process.Technol.29 (1992) 41–46.
[9] Z.C.Lin,W.C.Pan and S.P.Lo,A study of orthogonal cutting with
tool flank wear and sticking behavior on the chip–tool interface,
J.Mater.Process.Technol.52 (1995) 524–538.
[10] J.T.Black,Shear front-lamella structure in large strain plastic
deformation processes,J.Eng.Ind.94 (1) (1972) 307–316.
[11] J.Q.Xie,A.E.Bayoumi and H.M.Zbib,A study on shear banding in
chip formation of orthogonal cutting,Int.J.Mach.Tools Manuf.36
(7) (1996) 835–847.
[12] J.T.Black,On the fundamental mechanism of large strain plastic
deformation—electron microscopy of metal cutting chips,J.Eng.Ind.
93 (2) (1971) 507–526.
[13] M.E.Merchant,Mechanics of the cutting processes.I.Orthogonal
cutting and a type 2 chip,J.Appl.Phys.,AIP 16 (5) (1945) 267–275.
References
[1] T.Vorm,Development of a quick-stop device and an analysis of the
frozen-chip technique,Int.J.Mach.Tool Des.Res.16 (1976) 241–
250.
[2] J.Ellis,R.Kirk and G.Barrow,The development of a quick-stop
device for metal cutting research,Int.J.Mach.Tool Des.Res.9
(1969) 321–339.
[3] P.K.Philip,Study of the performance characteristics of an explosive
quick-stop device for freezing cutting action,Int.J.Mach.Tool Des.
Res.11 (1971) 133–144.
[4] R.H.Brown,A double shear-pin quick-stop device for very rapid
disengagement of a cutting tool,Int.J.Mach.Tool Des.Res.16
(1976) 115–121.
[5] J.T.Black,C.R.James,The hammer QSD—quick stop device for
high speed machining and rubbing,J.Eng.Ind.103 (1981) 13–21.
[6] R.Komanduri,R.H.Brown,On the mechanics of chip segmentation
in machining,J.Eng.Ind.103 (1981) 33–51.
[7] B.J.Griffiths,The development of a quick-stop device for use in metal
cutting hole manufacturing processes,Int.J.Mach.Tool Des.Res.26
(2) (1986) 191–203.
[8] S.H.Yeo,W.W.Lui and V.Phung,A quick-stop device for
orthogonal machining,J.Mater.Process.Technol.29 (1992) 41–46.
[9] Z.C.Lin,W.C.Pan and S.P.Lo,A study of orthogonal cutting with
tool flank wear and sticking behavior on the chip–tool interface,
J.Mater.Process.Technol.52 (1995) 524–538.
[10] J.T.Black,Shear front-lamella structure in large strain plastic
deformation processes,J.Eng.Ind.94 (1) (1972) 307–316.
[11] J.Q.Xie,A.E.Bayoumi and H.M.Zbib,A study on shear banding in
chip formation of orthogonal cutting,Int.J.Mach.Tools Manuf.36
(7) (1996) 835–847.
[12] J.T.Black,On the fundamental mechanism of large strain plastic
deformation—electron microscopy of metal cutting chips,J.Eng.Ind.
93 (2) (1971) 507–526.
[13] M.E.Merchant,Mechanics of the cutting processes.I.Orthogonal
cutting and a type 2 chip,J.Appl.Phys.,AIP 16 (5) (1945) 267–275.
好长呀!如满意请加分.
References 参考文献
[1] T.Vorm,Development of a quick-stop device and an analysis of the frozen-chip technique,Int.J.Mach.Tool Des.Res.16 (1976) 241–250.
急停装置的发展及冷冻屑片技术分析;作者:T.Vorm,
国际机械工具设计研究杂志,(1976)第16期,241至250页.
[2] J.Ellis,R.Kirk and G.Barrow,The development of a quick-stop device for metal cutting research,Int.J.Mach.Tool Des.Res.9 (1969) 321–339.
金属切削的急停装置研究的发展;作者:J.Ellis,R.Kirk and G.Barrow,
国际机械工具设计研究杂志,(1969)第9期,321至339页.
[3] P.K.Philip,Study of the performance characteristics of an explosive quick-stop device for freezing cutting action,Int.J.Mach.Tool Des.Res.11 (1971) 133–144.
刹住切削作用的爆发性急停装置的性能特点研究;作者:P.K.Philip
国际机械工具设计研究杂志,(1971)第11期,133至144页.
[4] R.H.Brown,A double shear-pin quick-stop device for very rapid disengagement of a cutting tool,Int.J.Mach.Tool Des.Res.16 (1976) 115–121.
可以快速分开切割器的双剪刀销急停装置;作者:R.H.Brown,
国际机械工具设计研究杂志,(1976)第16期,115至121页.
[5] J.T.Black,C.R.James,The hammer QSD—quick stop device for high speed machining and rubbing,J.Eng.Ind.103 (1981) 13–21.
高速切割与研磨的QSD锤的急停装置; 作者:J.T.Black,C.R.James,
机器制造工业杂志,(1981)第103期,13至21页.
[6] R.Komanduri,R.H.Brown,On the mechanics of chip segmentation in machining,J.Eng.Ind.103 (1981) 33–51.
切割时分割屑片的力学;作者:R.Komanduri,R.H.Brown,
机器制造工业杂志,(1981)第103期,33至51页.
[7] B.J.Griffiths,The development of a quick-stop device for use in metal cutting hole manufacturing processes,Int.J.Mach.Tool Des.Res.26 (2) (1986) 191–203.
制造过程中钻削金属孔口所使用的急停装置的发展;作者:B.J.Griffiths,
国际机械工具设计研究杂志,(1986)第26期(2),191至203页.
[8] S.H.Yeo,W.W.Lui and V.Phung,A quick-stop device for orthogonal machining,J.Mater.Process.Technol.29 (1992) 41–46.
正交切削的急停装置;作者:S.H.Yeo,W.W.Lui and V.Phung,
材料工艺技术杂志,(1992)第29期,41至46页.
[9] Z.C.Lin,W.C.Pan and S.P.Lo,A study of orthogonal cutting with tool flank wear and sticking behavior on the chip–tool interface,J.Mater.Process.Technol.52 (1995) 524–538.
研究正交切削 的刀-屑接触表面的后刀面磨损及粘结表现;作者:Z.C.Lin,W.C.Pan 和 S.P.Lo,材料工艺技术杂志,(1995)第52期,524至538页.
[10] J.T.Black,Shear front-lamella structure in large strain plastic deformation processes,J.Eng.Ind.94 (1) (1972) 307–316.
大型应变塑性变形过程中的剪切面-薄层结构;作者:J.T.Black,
机器制造工业杂志,(1972)第94期(1),307至316页.
[11] J.Q.Xie,A.E.Bayoumi and H.M.Zbib,A study on shear banding in chip formation of orthogonal cutting,Int.J.Mach.Tools Manuf.36 (7) (1996) 835–847.
正交切削过程中切屑形成的剪切现象研究;作者:J.Q.Xie,A.E.Bayoumi 和 H.M.Zbib,
国际机械工具制造杂志,(1996)第36期(7),835至847页.
[12] J.T.Black,On the fundamental mechanism of large strain plastic deformation — electron microscopy of metal cutting chips,J.Eng.Ind.93 (2) (1971) 507–526.
大型应变塑性变形的基本机理—金属切削屑片的电子显微;作者:J.T.Black,
机器制造工业杂志,(1971)第93期(2),507至526页.
[13] M.E.Merchant,Mechanics of the cutting processes.I.Orthogonal
cutting and a type 2 chip,J.Appl.Phys.,AIP 16 (5) (1945) 267–275.
切削工艺的力学.1.正交切削,以及一种2.屑片;作者:M.E.Merchant,
应用物理学杂志,(1945)第16期(5),267至275页.
【英语牛人团】
References 参考文献
[1] T.Vorm,Development of a quick-stop device and an analysis of the frozen-chip technique,Int.J.Mach.Tool Des.Res.16 (1976) 241–250.
急停装置的发展及冷冻屑片技术分析;作者:T.Vorm,
国际机械工具设计研究杂志,(1976)第16期,241至250页.
[2] J.Ellis,R.Kirk and G.Barrow,The development of a quick-stop device for metal cutting research,Int.J.Mach.Tool Des.Res.9 (1969) 321–339.
金属切削的急停装置研究的发展;作者:J.Ellis,R.Kirk and G.Barrow,
国际机械工具设计研究杂志,(1969)第9期,321至339页.
[3] P.K.Philip,Study of the performance characteristics of an explosive quick-stop device for freezing cutting action,Int.J.Mach.Tool Des.Res.11 (1971) 133–144.
刹住切削作用的爆发性急停装置的性能特点研究;作者:P.K.Philip
国际机械工具设计研究杂志,(1971)第11期,133至144页.
[4] R.H.Brown,A double shear-pin quick-stop device for very rapid disengagement of a cutting tool,Int.J.Mach.Tool Des.Res.16 (1976) 115–121.
可以快速分开切割器的双剪刀销急停装置;作者:R.H.Brown,
国际机械工具设计研究杂志,(1976)第16期,115至121页.
[5] J.T.Black,C.R.James,The hammer QSD—quick stop device for high speed machining and rubbing,J.Eng.Ind.103 (1981) 13–21.
高速切割与研磨的QSD锤的急停装置; 作者:J.T.Black,C.R.James,
机器制造工业杂志,(1981)第103期,13至21页.
[6] R.Komanduri,R.H.Brown,On the mechanics of chip segmentation in machining,J.Eng.Ind.103 (1981) 33–51.
切割时分割屑片的力学;作者:R.Komanduri,R.H.Brown,
机器制造工业杂志,(1981)第103期,33至51页.
[7] B.J.Griffiths,The development of a quick-stop device for use in metal cutting hole manufacturing processes,Int.J.Mach.Tool Des.Res.26 (2) (1986) 191–203.
制造过程中钻削金属孔口所使用的急停装置的发展;作者:B.J.Griffiths,
国际机械工具设计研究杂志,(1986)第26期(2),191至203页.
[8] S.H.Yeo,W.W.Lui and V.Phung,A quick-stop device for orthogonal machining,J.Mater.Process.Technol.29 (1992) 41–46.
正交切削的急停装置;作者:S.H.Yeo,W.W.Lui and V.Phung,
材料工艺技术杂志,(1992)第29期,41至46页.
[9] Z.C.Lin,W.C.Pan and S.P.Lo,A study of orthogonal cutting with tool flank wear and sticking behavior on the chip–tool interface,J.Mater.Process.Technol.52 (1995) 524–538.
研究正交切削 的刀-屑接触表面的后刀面磨损及粘结表现;作者:Z.C.Lin,W.C.Pan 和 S.P.Lo,材料工艺技术杂志,(1995)第52期,524至538页.
[10] J.T.Black,Shear front-lamella structure in large strain plastic deformation processes,J.Eng.Ind.94 (1) (1972) 307–316.
大型应变塑性变形过程中的剪切面-薄层结构;作者:J.T.Black,
机器制造工业杂志,(1972)第94期(1),307至316页.
[11] J.Q.Xie,A.E.Bayoumi and H.M.Zbib,A study on shear banding in chip formation of orthogonal cutting,Int.J.Mach.Tools Manuf.36 (7) (1996) 835–847.
正交切削过程中切屑形成的剪切现象研究;作者:J.Q.Xie,A.E.Bayoumi 和 H.M.Zbib,
国际机械工具制造杂志,(1996)第36期(7),835至847页.
[12] J.T.Black,On the fundamental mechanism of large strain plastic deformation — electron microscopy of metal cutting chips,J.Eng.Ind.93 (2) (1971) 507–526.
大型应变塑性变形的基本机理—金属切削屑片的电子显微;作者:J.T.Black,
机器制造工业杂志,(1971)第93期(2),507至526页.
[13] M.E.Merchant,Mechanics of the cutting processes.I.Orthogonal
cutting and a type 2 chip,J.Appl.Phys.,AIP 16 (5) (1945) 267–275.
切削工艺的力学.1.正交切削,以及一种2.屑片;作者:M.E.Merchant,
应用物理学杂志,(1945)第16期(5),267至275页.
【英语牛人团】
英语翻译References[1] T.Vorm,Development of a quick-stop device
英语翻译Another underlying reason is the quick development of bo
英语翻译REFERENCES[1] T.Hummel,W.Fengler,“Design of Embedded Con
英语翻译REFERENCES[1] P.J.Moore,R.D.Carranza,and A.T.Johns,“Mode
英语翻译There are a variety of references that contain specifics
英语翻译Consideration on the Sustainable Development of Dalian T
With the quick development of economy ,international influen
英语翻译to achieve successful development of a country,a governm
英语翻译This standard is a further development of standard STD 1
英语翻译Development and Evaluation of a Speed-Activated Sign to
英语翻译Development of a New Brushless Doubly Fed Doubly Salient
英语翻译the development of a programme in environmental studies