冲击攻丝系统中高聚物材料缓冲性能的研究
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摘要
工程实际问题中,冲击现象的存在十分普遍,除了合理利用之外,由于冲击
所带来的损失也是极为严重的,使用缓冲材料可以有效减缓冲击,对缓冲材料的
缓冲性能进行研究优化,是一个很迫切的问题。
冲击攻丝是近年来发展起来的一种攻丝方法,它的出现使螺纹的加工迈上了
一个新台阶,它的广泛应用将会产生重大的经济效益。只是,这里还有一个关键
的技术问题-需要应用缓冲垫对剧烈的冲击进行缓冲,缓冲垫起着保护装置不被
损坏并协助装置回复的作用,缓冲垫的性能直接影响系统的运行,缓冲垫材料要
求即强又韧。论文详细地分析了缓冲垫的重要作用以及缓冲垫材料选择的重要性。
针对冲击攻丝系统缓冲垫材料性能的要求,对缓冲垫材料进行选材,缓冲材
料中高聚物材料较其它材料的缓冲性能更加优越,所以选用高聚物材料作缓冲垫。
高聚物种类繁多,性能各异,其中聚氨酯弹性体材料具有硬度范围大、弹性好、
剩余变形量小等特性,比较适合缓冲垫材料。聚乙烯和聚氯乙烯分别具有冲击强
度高、韧性好以及强度高的特征,也在某方面符合缓冲垫材料要求。因此论文选
取了这三类材料与两种国外聚氨酯弹性体材料一起进行静态压缩试验性能测试。
运用高分子材料的相关理论知识,从化学组成和物理结构的细节出发,用分
子观点对试验材料的力学特征作了解释,重点探讨了聚氨酯弹性体的性能及影响
性能的因素。并对材料的力学性能用宏观的描述进行了深入分析。
通过试验,得出了应力-应变曲线、缓冲系数-应变曲线等应用曲线,根据
试验曲线对材料的缓冲性能进行深入分析,并用分子观点进行解释。探讨了在缓
冲应用方面聚氨酯弹性体材料与聚乙烯以及聚氯乙烯材料相比所具有的优越性。
对三种聚氨酯弹性体材料在冲击攻丝系统上的应用情况进行分析:PU1最容易
变形,寿命比较短;PU2比较适合冲击攻丝系统的冲压工况,它的缓冲性能较PU1
好;PU3不但能够满足冲击攻丝系统的正常工况,在冲击攻丝系统承载更大压力时,
该材料也可以适用。对聚乙烯和聚氯乙烯的缓冲性能也进行了探讨,它们不适合
作冲击攻丝系统上的缓冲垫材料,并对它们所表现出的特性及应用作了分析。
根据试验时试件的变形现象,对压缩过程中缓冲垫的形状和尺寸的变形规律
进行了分析,鉴于现有试件压缩时力学性能不稳定,提出建议--根据冲击攻丝
系统的结构设计对缓冲垫的尺寸进行调整。以提高缓冲垫的力学性能和使用寿命。
最后,根据本论文所做的研究工作对今后仍需要探讨的方面进行了展望。
There are a large amount of impact in engineering problems. Apart from its useful aspacts, it can bring about serious loss. Cushion materials can be used to relax impact, and it is a imperative problem to research the cushion properties of cushion materials.
Impact tapping is one of tap methods that rises recently. Its rise make the produce of screw thread upgrade, and its abroad application can bring important economic benefits. But there is an important problemxushion is needed to relax the acute impact. The cushion helps to the protection and comeback of the system. The properties of the cushion have a direct relation with the running of the system. The need of cushion material is strong and tough. The important function of the cushion and the importance of the cushion material choice are nailed down in the paper..
According to the need of cushion material, choice is made on cushion materials. Among cushion materials, macromolecule possesses outstanding cushion properties, so it is choosed. Among macromolecule materials, the cushion properties of polyurethane elastomers are outstanding very much, for example the higher rigidity, better elasticity and less remnent, and so on. Polythylenes possesses higher impact rigidity and excellent toughness, and polyvinyls possesses the higher rigidity. They can meet the cushion material's needs. Then one kind of polyurethane elastomers, polythylenes and polyvinyls that made in China are choosed, then they are compressed statically with the other two polyurethane elastomers that made abroad.
According to macromolecular theories, chemical compose and physical structure, explain the mechanics properties with molecule viewpoint, the relations between molecule sructure and properties of polyurethane elastomers are analyzed in detail. And the mechanics properties are analyzed with macroscopical describe in the paper.
The properties are tested, and from the results of the test some useful strain-stress curves, cushion coefficient-stress curves are atained. According to the experiment tests and analyses of test matterials, the superiority of polyurethane elastomers in the cushion application aspact is discussed comparing with polythylene and polyvinyl in the paper.
The mechanics properties of the three kinds of polyurethane elastomers are contrasted, their application states on the impact tapping system are analyzed:PUl is more easier to be distorted, and its life is the shortest; PU2 is suited to the impact
tapping, and its cushion properties are better than PU1; PU3 can not only meet the impact tapping's needs, but can be applied on the higher impact conditions. The cushion properties of polythylene and polyvinyl are discussed. According to the results, a conclusion is gained that they are unsuitable for the impact tapping, and their characteristics and applications are analyzed.
Based on the distortion phenomenon of samples when beening compressed, the distortion regularity of cushion's shape and dimension are analyzed. An advice are suggested that the shape and dimension of cushion should be adjusted to improve the mechanics properties and life.
In the end, the aspacts should be discussed in the future are prospected in this paper..
所带来的损失也是极为严重的,使用缓冲材料可以有效减缓冲击,对缓冲材料的
缓冲性能进行研究优化,是一个很迫切的问题。
冲击攻丝是近年来发展起来的一种攻丝方法,它的出现使螺纹的加工迈上了
一个新台阶,它的广泛应用将会产生重大的经济效益。只是,这里还有一个关键
的技术问题-需要应用缓冲垫对剧烈的冲击进行缓冲,缓冲垫起着保护装置不被
损坏并协助装置回复的作用,缓冲垫的性能直接影响系统的运行,缓冲垫材料要
求即强又韧。论文详细地分析了缓冲垫的重要作用以及缓冲垫材料选择的重要性。
针对冲击攻丝系统缓冲垫材料性能的要求,对缓冲垫材料进行选材,缓冲材
料中高聚物材料较其它材料的缓冲性能更加优越,所以选用高聚物材料作缓冲垫。
高聚物种类繁多,性能各异,其中聚氨酯弹性体材料具有硬度范围大、弹性好、
剩余变形量小等特性,比较适合缓冲垫材料。聚乙烯和聚氯乙烯分别具有冲击强
度高、韧性好以及强度高的特征,也在某方面符合缓冲垫材料要求。因此论文选
取了这三类材料与两种国外聚氨酯弹性体材料一起进行静态压缩试验性能测试。
运用高分子材料的相关理论知识,从化学组成和物理结构的细节出发,用分
子观点对试验材料的力学特征作了解释,重点探讨了聚氨酯弹性体的性能及影响
性能的因素。并对材料的力学性能用宏观的描述进行了深入分析。
通过试验,得出了应力-应变曲线、缓冲系数-应变曲线等应用曲线,根据
试验曲线对材料的缓冲性能进行深入分析,并用分子观点进行解释。探讨了在缓
冲应用方面聚氨酯弹性体材料与聚乙烯以及聚氯乙烯材料相比所具有的优越性。
对三种聚氨酯弹性体材料在冲击攻丝系统上的应用情况进行分析:PU1最容易
变形,寿命比较短;PU2比较适合冲击攻丝系统的冲压工况,它的缓冲性能较PU1
好;PU3不但能够满足冲击攻丝系统的正常工况,在冲击攻丝系统承载更大压力时,
该材料也可以适用。对聚乙烯和聚氯乙烯的缓冲性能也进行了探讨,它们不适合
作冲击攻丝系统上的缓冲垫材料,并对它们所表现出的特性及应用作了分析。
根据试验时试件的变形现象,对压缩过程中缓冲垫的形状和尺寸的变形规律
进行了分析,鉴于现有试件压缩时力学性能不稳定,提出建议--根据冲击攻丝
系统的结构设计对缓冲垫的尺寸进行调整。以提高缓冲垫的力学性能和使用寿命。
最后,根据本论文所做的研究工作对今后仍需要探讨的方面进行了展望。
There are a large amount of impact in engineering problems. Apart from its useful aspacts, it can bring about serious loss. Cushion materials can be used to relax impact, and it is a imperative problem to research the cushion properties of cushion materials.
Impact tapping is one of tap methods that rises recently. Its rise make the produce of screw thread upgrade, and its abroad application can bring important economic benefits. But there is an important problemxushion is needed to relax the acute impact. The cushion helps to the protection and comeback of the system. The properties of the cushion have a direct relation with the running of the system. The need of cushion material is strong and tough. The important function of the cushion and the importance of the cushion material choice are nailed down in the paper..
According to the need of cushion material, choice is made on cushion materials. Among cushion materials, macromolecule possesses outstanding cushion properties, so it is choosed. Among macromolecule materials, the cushion properties of polyurethane elastomers are outstanding very much, for example the higher rigidity, better elasticity and less remnent, and so on. Polythylenes possesses higher impact rigidity and excellent toughness, and polyvinyls possesses the higher rigidity. They can meet the cushion material's needs. Then one kind of polyurethane elastomers, polythylenes and polyvinyls that made in China are choosed, then they are compressed statically with the other two polyurethane elastomers that made abroad.
According to macromolecular theories, chemical compose and physical structure, explain the mechanics properties with molecule viewpoint, the relations between molecule sructure and properties of polyurethane elastomers are analyzed in detail. And the mechanics properties are analyzed with macroscopical describe in the paper.
The properties are tested, and from the results of the test some useful strain-stress curves, cushion coefficient-stress curves are atained. According to the experiment tests and analyses of test matterials, the superiority of polyurethane elastomers in the cushion application aspact is discussed comparing with polythylene and polyvinyl in the paper.
The mechanics properties of the three kinds of polyurethane elastomers are contrasted, their application states on the impact tapping system are analyzed:PUl is more easier to be distorted, and its life is the shortest; PU2 is suited to the impact
tapping, and its cushion properties are better than PU1; PU3 can not only meet the impact tapping's needs, but can be applied on the higher impact conditions. The cushion properties of polythylene and polyvinyl are discussed. According to the results, a conclusion is gained that they are unsuitable for the impact tapping, and their characteristics and applications are analyzed.
Based on the distortion phenomenon of samples when beening compressed, the distortion regularity of cushion's shape and dimension are analyzed. An advice are suggested that the shape and dimension of cushion should be adjusted to improve the mechanics properties and life.
In the end, the aspacts should be discussed in the future are prospected in this paper..
引文
[1] 《振动与冲击手册》编辑委员会.振动与冲击手册,国防工业出版社出版, 1988
[2] 谢一明.防振缓冲理论在纸箱包装系统设计中的应用.包装工程,1995,Vol.16 NO.6:4-11
[3] 王瑞栋.包装动力学与结构设计,重庆大学出版社,1993
[4] 徐自芬,郑百哲.中国包装工程手册,北京:机械工业出版社,1995
[5] 孙永中,胡世俊.缓冲材料的力学特性分析.中国包装工业,Vol.5 No.10: 7-9
[6] 彭国勋,王瑞栋等.缓冲包装动力学,长沙:湖南大学出版社,1989
[7] 郑百哲,朱竞洪,百瑛.包装动力学,北京科学技术出版社,1990
[8] 张书彬,肖梦兰.浅谈缓冲包装材料.包装工程,2002,Vol.23 No.3:1-5
[9] 王志伟,现代包装力学.包装工程,2002,Vol.23 No.1:1-5
[10] 奚德昌,包装设计及包装动力学一些问题.包装工程,1995,Vol.16 No.3: 1-4
[11] 何慧君,曾仁侠等.瓦楞纸板衬垫缓冲性能的研究.包装工程,1999,Vol.20 No.3:20-22
[12] 耿敏,熊宏智等蜂窝纸板与瓦楞纸板的复合刚度试验及分析.北京轻工业学 院学报,2001,Vol.19 No.1:11-16
[13] 熊宏智,耿敏.瓦楞结构与蜂窝纸板刚度比较,北京工商大学学报,2001, Vol.19 No.3:42-46
[14] Haruo Sasaki,haku Saito and kaname Abe.Development of an Air Cushioning Material on a Novel Idea.Packing Technology and Science,1999,Vol.12 No.3: 143-150
[15] 曹世普,郭奕崇等.纸浆模塑工业包装制品缓冲机理研究及有限元模拟.中国 包装工业,2002,No.97:34-37
[16] 金国斌,胡奕君编译.纸浆模塑制品的缓冲特性研究.包装工业,2002, No.102:34-36
[17] 王高升,邵文泉等.农作物秸杆缓冲包装材料的研制.包装工程,2001,Vol.22 NO.6:16-19
[18] 以林产品生产包装材料.包装工程,2002,Vol.23 No.1:85
[19] 以废纸盒淀粉制包装泡沫填料.包装工程,2001 Vol.22 No.3:67-68
[20] 曹绍文,吴其叶.发泡型植物纤维缓冲包装材料.中国包装工业,2002,No.99: 8-11
[21] 王能友.植物纤维发泡制品的性能和特点.包装工业,2003,No.103;24-25
[22] Jansen R R.A Method for the Peper Selection of a Package Cushion Material and Its Dimensions, Rept.NA-51-1004, North American Aviation, Inc, 1952
[23] Franklin P E, Hatae M T. Shock and Vibration Handbook, Vol.11, 41, McGRAW-Hill Book Co.1961
[24] MeDaniel D. Wykida R.M. The Development of a Generized Impact Response Model for a Bulk Cushioning Materials, The Shock and Vibration Bull.46, pt.2,1976
[25] Mastin G S. Time and Temperature Effects on Cushions, The Shock and Vibration Bull S2, pt.4, 1982
[26] Cost T L.Dynamic Response of Container and Container Cushion Structure, Athena Engineering Company, Northport, Alabama, Technical Report.No.74-003, Oct. 1974
[27] 李书印等.发泡包装材料缓冲特性研究.包装工程,1998,Vol.19 No.6: 1-8
[28] 李书印等.从静态压缩试验结果看缓冲包装材料特性.中国包装,1999, Vol.19 NO.3:94-97
[29] Throne J L.Progelhof R C.Closed cell foam behavior under dynamic loading.Stress-strain behavior of low density foams,J.cell.Plastic. 1984
[30] Throne J L,Progelhof R C.Closed cell foam behavior under dynamic loading-Ⅱ.Loading dynamics of low density foams,J.cell.Plastic, 1985
[31] Troy L.Totten,Gray J.Burgess,S.Paul Singh.The effects of multiple impacts on the cushioning properties of closed cell Foams,Packing Technplogy and Science, 1990, Vol.3 No.3: 117-122
[32] 胡强.泡沫塑料包装衬垫缓冲性能和缓冲包装优化设计的研究:[学位论文]. 杭州:浙江大学,1990
[33] 胡强,童忠钫等.泡沫塑料包装衬垫缓冲性能建模.振动工程学报,1990, Vol.3 No.3:7-14
[34] 胡强.泡沫衬垫的塑性变形和刚度变化.包装工程,1992,Vol.13 No.3:
122-123
[35] 胡强.聚氨酯泡沫塑料复模量参数的测试和识别.包装工程,1995,Vol.16 No.3:11-15
[36] 阳以本.可发性聚苯乙烯泡沫材料密度与压缩强度的关系及其应用.包装工 程,Vol.16 No.2:27-32
[37] 沈怀荣,郝松林等.泡沫塑料衬垫的粘弹性有限元分析.国防科技大学学报, 1996,Vol.18 NO.2:14-18
[38] 平幼妹,余本农.加载速度对两种缓冲包装材料静态压缩特性的影响.力学与 实践,1996,Vol.18 No.2:46-48
[39] 罗兰.常用缓冲材料动态压缩特性研究.包装工程,1996,Vol.17 No.5: 10-13
[40] 徐晓,吴舜英.硬泡沫塑料的力学性能分析:压缩弹性模量分析与计算机建 模.包装工程,1998,Vol.19 No.4:7-12
[41] H.L.Cox.Bucking of thin plates in compression,British Air Ministry. Air research committee report and memoranda, 1954, No. 8
[42] R.C.Mckee,et al.compression strength formula foe corrugated boxes.Paperboard Packing,1963, Vol.48 No.8
[43] J.Marcondes.Cushioning properties of corrugated fiberboard and the effects of moistture content.Transaction of the AS AE, 1992, Vol.35 No.6: 1949-1953
[44] 高德.瓦楞纸板缓冲性能理论及模型:[学位论文].杭州:浙江大学,1994
[45] 高德,奚德昌等.瓦楞纸板的静态压缩非线性模型.包装工程,1995,Vol.16 No.4:6-8
[46] 高德,邓江玉等.瓦楞纸板衬垫静压性能与力学模型.97北京国际食品加工及 包装技术讨论会论文集,1997,10-13
[47] F.Rousserie,J.Pouyet.Characterization of corrugated board panels:An experimental study.Joumal of Pulp and Paper Science,1997, Vol.23 No.7: 330-334
[48] 许文才.瓦楞纸板衬垫缓冲特性研究.包装工程,1997 Vol.18 No.2-3: 78-79
[49] 向明,许文才.瓦楞纸板缓冲垫底动态性能.包装工程,1997 Vol.18 No.5: 23-25
[50] Yoshion,Toshion.Otuka,Toshisa,Kondo,Kosei.Elastic modulus of FRP honeyconb core sandwich panels by 3-D FEM analysis.Nippon Kikai Ronbunshu,A
Hen./Transactions of the Japan Society of Mechanical Engineers, Par A,1997,63(613)
[51] S.D.Papka,S.Kyriadides.Experiment and full-scale numerical simulation of in-plane crushing of a honeycomb. Acta Material, 1998,46 (8)
[52] 郭彦峰,许文才等.蜂窝纸板缓冲性能的试验研究.包装工程,1999,Vol.20 No.2:12-15
[53] 王梅.蜂窝纸板缓冲性能的研究以应用.包装工程,2000,Vol.21 No.4: 5-8、 12
[54] 张改梅.蜂窝纸板缓冲性能的研究.包装工程。2001,Vol.22 No.5:7-9
[55] Danny GDagleton,Jorge A.Marcondes.Cushioning properties of moulded pulp.Packing Technology and Science, 1994,7:64-72
[56] 康勇刚.纸浆模塑制品结构缓冲性能的研究.中国包装工业,1994 No.6:30-32
[57] Jorge Marcondes,Herbert Schuenman.Molded pulp protecting high-tech production.Proceedings of 11th IAPRI word conference on packaging, Singapore, 1999,564
[58] 王高升等.纸浆模塑缓冲结构设计原理的研究.中国造纸,2001,No.94: 25-28
[59] 金日光,华幼卿.高分子物理,北京:化学工业出版社,1991
[60] 马德柱,何平笙等.高聚物的结构与性能,科学出版社出版,1995
[61] Ward IM.固体高聚物的力学性能,第二版,北京:科学出版社,1988
[62] 周光泉,刘孝敏.粘弹性理论,中国科学技术大学出版社,1996
[63] P.K.弗雷克利,A.R.佩恩.橡胶在工程中应用的理论与实践,北京:化学工 业出版社,1985
[64] 潘祖仁.高分子化学,北京:化学工业出版社,1997
[65] Oertel G.聚氨酯手册.阎家宾等译.北京:中国石油化工出版社,1992
[66] 傅明源,孙酣经.聚氨酯弹性体及其应用,北京:化学工业出版社,1998
[67] 山西省化工研究所.聚氨酯弹性体,北京:化学工业出版社,1985
[68] Gent AN, Thomas A GJAppl Polym Sci, 1959; 1: 107
[69] Rusch K C JAppl Polym Sci, 1970; 14: 1263
[70] Chan R, Nakamura M.J Cell Plast, 1969; 5: 112
[71] Fowlke C W.Int J Fract, 1974; 10: 99
[72] Woolam W E.J Cell Plast, 1968; 4: 79
[73] Joseph Miltz, Gad Gruenbaum.Polym Eng Sci, 1981; 21: 1010
[74] Whittaker R E JAppl Polym Sci, 1974; 18: 2339
[75] Kau C, Huber L, Hiltner A, Baer E.J Appl Polym Sci, 1992; 44: 2069
[76] Joseph Miltz, Ori Kamon.Polym Eng Sci, 1986; 26: 1305
[77] Ashby M F.Metall Tras, 1983; 14A: 1755
[78] 胡明胜等.硬质聚氨酯泡沫塑料的缓冲吸能特性评估。爆炸与冲击,1998, Vol.18 No.1:42-47
[79] 胡强,唐录成.聚氨酯泡沫塑料复模量参数的测试和识别.包装工程,1995, Vol.16 No.3:11-15
[80] 张鸿安,马瑞申.防震、缓冲聚氨酯弹性体研究.工程塑料应用,1997,Vol.25 NO.6:8-10
[81] 徐晓,吴舜英.硬泡沫塑料的力学性能分析:压缩弹性模量分析与计算机模 拟.包装工程,1998,Vol.19 No.4:7-12
[82] Christensen R M.J Mech Plays.Solids,1986;34:563
[83] 卢子兴,田常津等.硬质聚氨酯泡沫塑料压缩力学性能.材料研究学报,1994, Vol.8 No.5:452-456
[84] 张克惠.塑料材料学,西安:西北工业大学出版社,2000. 5
[85] 马庭等.常用缓冲包装材料静态压缩特性试验研究.包装工程,2002,Vol.23 NO.2:4-8
[86] 平幼妹,余本农.加载速度对两种缓冲包装材料静态压缩特性的影响.力学与 实践,1996,(2) :46-48
[87] 罗兰.常用缓冲材料动态压缩特性研究.包装工程,1996,(5)
[88] [日]日本包装技术协会编,蔡少龄等译.包装技术手册,北京:机械工业出 版社,1994
[89] 张改梅.蜂窝纸板及纸板箱性能的研究:[学位论文].西安:西安理工大学, 2001
[90] 苏翼林.材料力学,人民教育出版社,1979
[91] 张晓龙.基于技术创新的冲击攻丝原理分析及结构设计研究:[学位论文].昆 明理工大学,2003
[92] 胡强等.包装衬垫的缓冲性能.包装工程,1990,Vol.11 No.1:21-23
[93] 蒋侠民,田苗等.聚氧酯橡胶在冲压技术中的应用,国防工业出版社,1989
[2] 谢一明.防振缓冲理论在纸箱包装系统设计中的应用.包装工程,1995,Vol.16 NO.6:4-11
[3] 王瑞栋.包装动力学与结构设计,重庆大学出版社,1993
[4] 徐自芬,郑百哲.中国包装工程手册,北京:机械工业出版社,1995
[5] 孙永中,胡世俊.缓冲材料的力学特性分析.中国包装工业,Vol.5 No.10: 7-9
[6] 彭国勋,王瑞栋等.缓冲包装动力学,长沙:湖南大学出版社,1989
[7] 郑百哲,朱竞洪,百瑛.包装动力学,北京科学技术出版社,1990
[8] 张书彬,肖梦兰.浅谈缓冲包装材料.包装工程,2002,Vol.23 No.3:1-5
[9] 王志伟,现代包装力学.包装工程,2002,Vol.23 No.1:1-5
[10] 奚德昌,包装设计及包装动力学一些问题.包装工程,1995,Vol.16 No.3: 1-4
[11] 何慧君,曾仁侠等.瓦楞纸板衬垫缓冲性能的研究.包装工程,1999,Vol.20 No.3:20-22
[12] 耿敏,熊宏智等蜂窝纸板与瓦楞纸板的复合刚度试验及分析.北京轻工业学 院学报,2001,Vol.19 No.1:11-16
[13] 熊宏智,耿敏.瓦楞结构与蜂窝纸板刚度比较,北京工商大学学报,2001, Vol.19 No.3:42-46
[14] Haruo Sasaki,haku Saito and kaname Abe.Development of an Air Cushioning Material on a Novel Idea.Packing Technology and Science,1999,Vol.12 No.3: 143-150
[15] 曹世普,郭奕崇等.纸浆模塑工业包装制品缓冲机理研究及有限元模拟.中国 包装工业,2002,No.97:34-37
[16] 金国斌,胡奕君编译.纸浆模塑制品的缓冲特性研究.包装工业,2002, No.102:34-36
[17] 王高升,邵文泉等.农作物秸杆缓冲包装材料的研制.包装工程,2001,Vol.22 NO.6:16-19
[18] 以林产品生产包装材料.包装工程,2002,Vol.23 No.1:85
[19] 以废纸盒淀粉制包装泡沫填料.包装工程,2001 Vol.22 No.3:67-68
[20] 曹绍文,吴其叶.发泡型植物纤维缓冲包装材料.中国包装工业,2002,No.99: 8-11
[21] 王能友.植物纤维发泡制品的性能和特点.包装工业,2003,No.103;24-25
[22] Jansen R R.A Method for the Peper Selection of a Package Cushion Material and Its Dimensions, Rept.NA-51-1004, North American Aviation, Inc, 1952
[23] Franklin P E, Hatae M T. Shock and Vibration Handbook, Vol.11, 41, McGRAW-Hill Book Co.1961
[24] MeDaniel D. Wykida R.M. The Development of a Generized Impact Response Model for a Bulk Cushioning Materials, The Shock and Vibration Bull.46, pt.2,1976
[25] Mastin G S. Time and Temperature Effects on Cushions, The Shock and Vibration Bull S2, pt.4, 1982
[26] Cost T L.Dynamic Response of Container and Container Cushion Structure, Athena Engineering Company, Northport, Alabama, Technical Report.No.74-003, Oct. 1974
[27] 李书印等.发泡包装材料缓冲特性研究.包装工程,1998,Vol.19 No.6: 1-8
[28] 李书印等.从静态压缩试验结果看缓冲包装材料特性.中国包装,1999, Vol.19 NO.3:94-97
[29] Throne J L.Progelhof R C.Closed cell foam behavior under dynamic loading.Stress-strain behavior of low density foams,J.cell.Plastic. 1984
[30] Throne J L,Progelhof R C.Closed cell foam behavior under dynamic loading-Ⅱ.Loading dynamics of low density foams,J.cell.Plastic, 1985
[31] Troy L.Totten,Gray J.Burgess,S.Paul Singh.The effects of multiple impacts on the cushioning properties of closed cell Foams,Packing Technplogy and Science, 1990, Vol.3 No.3: 117-122
[32] 胡强.泡沫塑料包装衬垫缓冲性能和缓冲包装优化设计的研究:[学位论文]. 杭州:浙江大学,1990
[33] 胡强,童忠钫等.泡沫塑料包装衬垫缓冲性能建模.振动工程学报,1990, Vol.3 No.3:7-14
[34] 胡强.泡沫衬垫的塑性变形和刚度变化.包装工程,1992,Vol.13 No.3:
122-123
[35] 胡强.聚氨酯泡沫塑料复模量参数的测试和识别.包装工程,1995,Vol.16 No.3:11-15
[36] 阳以本.可发性聚苯乙烯泡沫材料密度与压缩强度的关系及其应用.包装工 程,Vol.16 No.2:27-32
[37] 沈怀荣,郝松林等.泡沫塑料衬垫的粘弹性有限元分析.国防科技大学学报, 1996,Vol.18 NO.2:14-18
[38] 平幼妹,余本农.加载速度对两种缓冲包装材料静态压缩特性的影响.力学与 实践,1996,Vol.18 No.2:46-48
[39] 罗兰.常用缓冲材料动态压缩特性研究.包装工程,1996,Vol.17 No.5: 10-13
[40] 徐晓,吴舜英.硬泡沫塑料的力学性能分析:压缩弹性模量分析与计算机建 模.包装工程,1998,Vol.19 No.4:7-12
[41] H.L.Cox.Bucking of thin plates in compression,British Air Ministry. Air research committee report and memoranda, 1954, No. 8
[42] R.C.Mckee,et al.compression strength formula foe corrugated boxes.Paperboard Packing,1963, Vol.48 No.8
[43] J.Marcondes.Cushioning properties of corrugated fiberboard and the effects of moistture content.Transaction of the AS AE, 1992, Vol.35 No.6: 1949-1953
[44] 高德.瓦楞纸板缓冲性能理论及模型:[学位论文].杭州:浙江大学,1994
[45] 高德,奚德昌等.瓦楞纸板的静态压缩非线性模型.包装工程,1995,Vol.16 No.4:6-8
[46] 高德,邓江玉等.瓦楞纸板衬垫静压性能与力学模型.97北京国际食品加工及 包装技术讨论会论文集,1997,10-13
[47] F.Rousserie,J.Pouyet.Characterization of corrugated board panels:An experimental study.Joumal of Pulp and Paper Science,1997, Vol.23 No.7: 330-334
[48] 许文才.瓦楞纸板衬垫缓冲特性研究.包装工程,1997 Vol.18 No.2-3: 78-79
[49] 向明,许文才.瓦楞纸板缓冲垫底动态性能.包装工程,1997 Vol.18 No.5: 23-25
[50] Yoshion,Toshion.Otuka,Toshisa,Kondo,Kosei.Elastic modulus of FRP honeyconb core sandwich panels by 3-D FEM analysis.Nippon Kikai Ronbunshu,A
Hen./Transactions of the Japan Society of Mechanical Engineers, Par A,1997,63(613)
[51] S.D.Papka,S.Kyriadides.Experiment and full-scale numerical simulation of in-plane crushing of a honeycomb. Acta Material, 1998,46 (8)
[52] 郭彦峰,许文才等.蜂窝纸板缓冲性能的试验研究.包装工程,1999,Vol.20 No.2:12-15
[53] 王梅.蜂窝纸板缓冲性能的研究以应用.包装工程,2000,Vol.21 No.4: 5-8、 12
[54] 张改梅.蜂窝纸板缓冲性能的研究.包装工程。2001,Vol.22 No.5:7-9
[55] Danny GDagleton,Jorge A.Marcondes.Cushioning properties of moulded pulp.Packing Technology and Science, 1994,7:64-72
[56] 康勇刚.纸浆模塑制品结构缓冲性能的研究.中国包装工业,1994 No.6:30-32
[57] Jorge Marcondes,Herbert Schuenman.Molded pulp protecting high-tech production.Proceedings of 11th IAPRI word conference on packaging, Singapore, 1999,564
[58] 王高升等.纸浆模塑缓冲结构设计原理的研究.中国造纸,2001,No.94: 25-28
[59] 金日光,华幼卿.高分子物理,北京:化学工业出版社,1991
[60] 马德柱,何平笙等.高聚物的结构与性能,科学出版社出版,1995
[61] Ward IM.固体高聚物的力学性能,第二版,北京:科学出版社,1988
[62] 周光泉,刘孝敏.粘弹性理论,中国科学技术大学出版社,1996
[63] P.K.弗雷克利,A.R.佩恩.橡胶在工程中应用的理论与实践,北京:化学工 业出版社,1985
[64] 潘祖仁.高分子化学,北京:化学工业出版社,1997
[65] Oertel G.聚氨酯手册.阎家宾等译.北京:中国石油化工出版社,1992
[66] 傅明源,孙酣经.聚氨酯弹性体及其应用,北京:化学工业出版社,1998
[67] 山西省化工研究所.聚氨酯弹性体,北京:化学工业出版社,1985
[68] Gent AN, Thomas A GJAppl Polym Sci, 1959; 1: 107
[69] Rusch K C JAppl Polym Sci, 1970; 14: 1263
[70] Chan R, Nakamura M.J Cell Plast, 1969; 5: 112
[71] Fowlke C W.Int J Fract, 1974; 10: 99
[72] Woolam W E.J Cell Plast, 1968; 4: 79
[73] Joseph Miltz, Gad Gruenbaum.Polym Eng Sci, 1981; 21: 1010
[74] Whittaker R E JAppl Polym Sci, 1974; 18: 2339
[75] Kau C, Huber L, Hiltner A, Baer E.J Appl Polym Sci, 1992; 44: 2069
[76] Joseph Miltz, Ori Kamon.Polym Eng Sci, 1986; 26: 1305
[77] Ashby M F.Metall Tras, 1983; 14A: 1755
[78] 胡明胜等.硬质聚氨酯泡沫塑料的缓冲吸能特性评估。爆炸与冲击,1998, Vol.18 No.1:42-47
[79] 胡强,唐录成.聚氨酯泡沫塑料复模量参数的测试和识别.包装工程,1995, Vol.16 No.3:11-15
[80] 张鸿安,马瑞申.防震、缓冲聚氨酯弹性体研究.工程塑料应用,1997,Vol.25 NO.6:8-10
[81] 徐晓,吴舜英.硬泡沫塑料的力学性能分析:压缩弹性模量分析与计算机模 拟.包装工程,1998,Vol.19 No.4:7-12
[82] Christensen R M.J Mech Plays.Solids,1986;34:563
[83] 卢子兴,田常津等.硬质聚氨酯泡沫塑料压缩力学性能.材料研究学报,1994, Vol.8 No.5:452-456
[84] 张克惠.塑料材料学,西安:西北工业大学出版社,2000. 5
[85] 马庭等.常用缓冲包装材料静态压缩特性试验研究.包装工程,2002,Vol.23 NO.2:4-8
[86] 平幼妹,余本农.加载速度对两种缓冲包装材料静态压缩特性的影响.力学与 实践,1996,(2) :46-48
[87] 罗兰.常用缓冲材料动态压缩特性研究.包装工程,1996,(5)
[88] [日]日本包装技术协会编,蔡少龄等译.包装技术手册,北京:机械工业出 版社,1994
[89] 张改梅.蜂窝纸板及纸板箱性能的研究:[学位论文].西安:西安理工大学, 2001
[90] 苏翼林.材料力学,人民教育出版社,1979
[91] 张晓龙.基于技术创新的冲击攻丝原理分析及结构设计研究:[学位论文].昆 明理工大学,2003
[92] 胡强等.包装衬垫的缓冲性能.包装工程,1990,Vol.11 No.1:21-23
[93] 蒋侠民,田苗等.聚氧酯橡胶在冲压技术中的应用,国防工业出版社,1989