Evaluaton model for the geometry complexity of casting based on fuzzy theory 被引量：1

Evaluaton model for the geometry complexity of casting based on fuzzy theory

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摘要 The parameters that describe the complex degree of a certain casting are of some uncertainty. Therefore, a new method based on the fuzzy theory to classify the complex degree of castings has been presented in this paper. The feasibility of fuzzy theory in describing the complex degree of castings has been discussed and the procedure of this method has been specified by analyzing the complex degrees of some typical castings. The element factors that influence the casting complexity, have been summarized, which include the wall-thickness and the number of transition surface, etc. The results show that it is reasonable and practicable to classify the complex degree of castings with the fuzzy theory. The parameters that describe the complex degree of a certain casting are of some uncertainty. Therefore, a new method based on the fuzzy theory to classify the complex degree of castings has been presented in this paper. The feasibility of fuzzy theory in describing the complex degree of castings has been discussed and the procedure of this method has been specified by analyzing the complex degrees of some typical castings. The element factors that influence the casting complexity, have been summarized, which include the wall-thickness and the number of transition surface, etc. The results show that it is reasonable and practicable to classify the complex degree of castings with the fuzzy theory.

作者吴士平徐琴薛祥吴光然

机构地区 School of Materials Science and Engineering Shoudu Space Machinery Company

出处《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2012年第4期9-12,共4页 哈尔滨工业大学学报（英文版）

基金 Sponsored by the National Natural Science Foundation of China(Grant No.50775050) the State Key Laboratory of Solidification Processing in NWPU(Grant No.200702)

关键词 fuzzy theory CASTING complex degree GEOMETRY evaluation model fuzzy theory casting complex degree geometry evaluation model

分类号 TG146 [金属学及工艺—金属材料]

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参考文献3

1汤淏,王腊春.基于熵权法的南京市水资源可持续利用评价[J].四川环境,2010,29(1):75-79. 被引量：18
2南海,谢成木,魏华胜,林汉同.大型复杂薄壁类钛合金精铸件的研制[J].中国铸造装备与技术,2001,36(2):12-14. 被引量：32
3肖树龙,陈玉勇,朱洪艳,田竟,吴宝昌.大型复杂薄壁钛合金铸件熔模精密铸造研究现状及发展[J].稀有金属材料与工程,2006,35(5):678-681. 被引量：66

二级参考文献34

1舒群,郭永良,陈子勇,孔凡涛,陈玉勇.铸造钛合金及其熔炼技术的发展现状[J].材料科学与工艺,2004,12(3):332-336. 被引量：33
2马倩,周毅.以水资源可持续利用支撑南京经济的可持续发展[J].治淮,2004(8):15-16. 被引量：3
3朱岭,许有鹏,李嘉峻.城市水资源可持续利用的系统调控研究——以南京市为例[J].水资源保护,2006,22(2):27-30. 被引量：4
4左东启,戴树声,袁汝华,李鸿业,芮孝芳.水资源评价指标体系研究[J].水科学进展,1996,7(4):367-373. 被引量：129
5谢成木.铸造钛合金及其铸造技术的发展和应用[J].金属学报,1999,35(9):550-556.
6陈冰.精铸模料显微组织初探[M].北京:北京航空航天大学出版社,1983..
7Zhou Yanbang(周彦邦).Titanium Casting Conspectus(钛合金铸造概论)[M].Beijing:Aviation Industry Press,2000:282
8Cotton J D et al.Proceeding of the 10th World Conference on Titanium[C].Hamburg:Wiley-VCH,2004:455
9Richards W J et al.Applied Radiation and Isotopes[J],2004,61(4):675
10Phelps H R et al.Proceeding of the 10th World Conference on Titanium[C].Hamburg:Wiley-VCH,2004:2635

共引文献103

1常化强,姬战利,穆晓辉,孙宏喆,李渤渤.涂层技术在钛合金石墨型铸造中的应用研究[J].特种铸造及有色合金,2022,42(5):652-654. 被引量：8
2谢华生,刘时兵,苏贵桥,汪志华,赵军.我国钛合金精铸件铸造技术的发展及应用[J].特种铸造及有色合金,2008,28(S1):462-464. 被引量：34
3张英明,韩明臣,舒滢,王成长,倪沛彤,肖松涛,杨建朝.低成本钛合金制备技术研究进展[J].稀有金属快报,2007,26(7):7-11. 被引量：11
4张鹏省,毛小南,赵永庆,曾卫东,洪权,李辉.世界钛及钛合金产业现状及发展趋势[J].稀有金属快报,2007,26(10):1-6. 被引量：28
5董和泉,国子明,毛协民,任忠鸣,李重河.低能耗节约型钛及钛合金熔炼技术的发展趋势[J].材料导报,2008,22(5):68-73. 被引量：15
6Xu Daming,Jia Limin,Fu Hengzhi.Effects of centrifugal and Coriolis forces on the mold-filling behavior of titanium melts in vertically rotating molds[J].China Foundry,2008,5(4):249-257. 被引量：4
7陈玉勇,陈艳飞,田竟,孔凡涛,肖树龙,徐丽娟.TiAl基合金熔模精密铸造技术的发展现状[J].稀有金属材料与工程,2009,38(3):554-558. 被引量：23
8阎峰云,陈基东,马孝斌.钛合金熔模铸造技术[J].中国铸造装备与技术,2009,44(2):1-5. 被引量：27
9高勇,刘强,余江洪.轻质耐压壳体减重研究[J].船电技术,2009,29(5):47-51. 被引量：4
10国子明,朱明,高永辉,毛协民,鲁雄刚,李重河.TiNi合金制备技术及连续铸造的可行性探讨[J].钛工业进展,2009,26(2):19-23. 被引量：2

同被引文献12

1李洋,张春香,关绍康,李海鹏,曾博.摩托车铝合金缸体压铸工艺参数优化[J].材料科学与工艺,2015,23(2):39-44. 被引量：3
2马国亭.锌压铸流道成本质量分析实例[J].模具制造,2005,5(5):54-56. 被引量：2
3黄勇,黄尧.压铸模具设计实用教程[M].北京:化学工业出版社.2011.
4JIANG J, CHEN G, WANG Y, et al. Microstructure and mechanical properties of thin-wall and high-rib parts of AM60B Mg alloy formed by double control forming and die casting under the optimal conditions [ J ]. Journal of Alloys & Compounds, 2013, 552(3) : 44-54.
5LI X, XIONG S M, GUO Z. On the porosity induced by externally solidified crystals in high-pressure die- east of AM60B alloy and its effect on crack initiation and propagation [ J ]- Materials Science & Engineering A, 2015, 633: 35-41.
6DEMIRER A, SOYDAN Y, KAPTI A O. An experi- mental investigation of the effects of hot runner system on injection moulding process in comparison with con- ventional runner system [ J ]. Materials & Design, 2007, 28(5) : 1467-1476.
7MICHAEL B C Z. Advances in Powder Injection Mold- ing[ C]//Proceedings of the 1998 56th Annual Tech- nical Conference.Atlanta: AN-TEC, 1998 : 3.
8REIKHER A, PILLAI K M. A fast simulation of tran- sient metal flow and solidification in a narrow channel. Part I: Model development using lubrication approxi- mation [ J ]. International Journal of Heat & Mass Transfer, 2013, 60(60): 797-805.
9黄先.热流道模具的现状及发展前景[J].科技创新导报,2011,8(15):95-95. 被引量：4
10孙长波,尚伟,周君华,李波,李宝峰.高温合金扩压器整体精铸过程的数值模拟及工艺优化[J].材料科学与工艺,2014,22(1):100-104. 被引量：9

引证文献1

1戴伟,付利兵,刘佳,张琦.热流道辅助长筒薄壁形锌合金件压铸成型研究[J].材料科学与工艺,2016,24(4):25-32. 被引量：2

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1吴晶晶,李阳,范希营,单以波.温控器下壳体热流道注塑模具设计[J].现代制造工程,2018(1):109-113.
2石欣琳,钟文镇,管旭鑫,柴银福,杨潮,赵庆鑫,陈超.基于Flow-3D压铸锌合金轮护板热流道数值模拟[J].特种铸造及有色合金,2023,43(3):385-389. 被引量：1

1刘志宏,刘铖.ZZ—1800KB型高真空卷绕式镀膜设备[J].信息交流,2001(1):4-5.
2A.K.LAKSHMINARAYANAN,C.S.RAMACHANDRAN,V.BALASUBRAMANIAN.Feasibility of surface-coated friction stir welding tools to join AISI 304grade austenitic stainless steel[J].Defence Technology（防务技术）,2014,10(4):360-370. 被引量：3
3王宏健,司乃潮,刘光磊,王正军,丁冉.Al元素对ZZn-Al-Cu系合金组织和力学性能的影响[J].铸造,2015,64(4):330-335. 被引量：1
4宋丽梅,覃名翠,李宗艳,杨燕罡,李大鹏.A non-contact gear measurement method based on laser vision[J].Optoelectronics Letters,2014,10(3):237-240. 被引量：2
5于进文,张平则,滕新营.稀土Ce对Al-12Si合金微观组织影响[J].金属功能材料,2011,18(1):39-43. 被引量：8
6Kong, Fansen, Yu, Junyi.FUZZY STABILITY ANALYSIS OF MODE COUPLING CHATTER ON CUTTING PROCESS[J].Chinese Journal of Mechanical Engineering,1998,11(2):30-35.
7谢敬佩,白杰,王松燕,林纲.金属材料剥层磨损的力学分析[J].洛阳工学院学报,1998,19(2):1-5. 被引量：1
8寇生中,李林,李春燕,赵燕春,高凯雄,于朋.MgZnCa合金的组织结构和力学性能分析[J].兰州理工大学学报,2012,38(3):5-8. 被引量：1
9程大勇,陆善平,郭义.陶瓷/金属钎焊接头内残余应力计算[J].材料研究学报,2000,14(B01):49-52. 被引量：16
10G.Q.Jia,H.W.Shen,Y.M.Zhu.TENSILE STRESS RELAXATION OF TURBINE BOLT STEELS AT HIGH TEMPERATURE[J].Acta Metallurgica Sinica(English Letters),2004,17(4):542-547. 被引量：3

Journal of Harbin Institute of Technology(New Series)

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