本文研究一种新型强化泡沫芯夹层复合材料的力学性能。选择在低成本的PU泡沫中置入圆管状结构增强体,使泡沫芯的等效Z向性能大幅提高。对以FRP面板夹这种强化泡沫芯制成的三明治复合材料结构,进行了平压试验、三点弯曲试验和剪切试验,基于其结构破坏模式,分析其破坏机理,并应用三维层板理论和细观力学方法进行了理论模拟。结果表明,这种强化泡沫芯能显著提高三明治板材的Z向力学性能,具有良好的应用前景。
In this article, mechanical properties of a new type of foam-core sandwich composites are studied. The core was made by inserting thin-walled circular tubes into a PU foam, resulting in a significant reinforcement in its Z-directional properties. The sandwich composites were further fabricated by using FRP (fiber reinforced plastic) panels as surfaces and the strengthened foam as core. Lateral compression, three- point bending and shear tests were carried out for the sandwich composites. Failure mechanisms were analyzed based on fracture modes observed. Theoretical predictions for compression and bending moduli were carried out. The results show that the sandwich materials developed can significantly improve Z-directional mechanical properties, and have a good application prospect.
参考文献
| [1] | 杜龙 .X-cor夹层复合材料力学性能研究[D].西北工业大学,2007. |
| [2] | Sorrentino, L.;Aurilia, M.;Forte, G.;Iannace, S. .Anisotropic mechanical behavior of magnetically oriented iron particle reinforced foams[J].Journal of Applied Polymer Science,2011(2):1239-1247. |
| [3] | Freitas G;Magee C;Dardzinski P;Fusco T .Fiber insertion process for improved damage tolerance in aircraft laminates[J].Journal of Advanced Materials,1994,25:36-43. |
| [4] | Denis D. Cartie;Norman A. Fleck .The effect of pin reinforcement upon the through-thickness compressive strength of foam-cored sandwich panels[J].Composites science and technology,2003(16):2401-2409. |
| [5] | Rice MC;Fleischer CA;Zupan M .Study on the collapse of pin-reinforced foam sandwich panel cores[J].Experimental Mechanics,2006(2):197-204. |
| [6] | 党旭丹,肖军,李勇.X-cor夹层结构复合材料力学性能实验研究进展[J].材料工程,2008(06):76-80. |
| [7] | Andrea I. Marasco;Denis D.R. Cartie;Ivana K. Partridge .Mechanical properties balance in novel Z-pinned sandwich panels: Out-of-plane properties[J].Composites, Part A. Applied science and manufacturing,2006(2):295-302. |
| [8] | 黄涛,矫桂琼,潘文革.缝纫泡沫夹层结构弯曲性能研究[J].材料科学与工程学报,2006(04):535-538. |
| [9] | Xia F;Wu X.-Q .Study 6n impact properties of through- thickness stitched foam sandwich composites[J].Computers & Structures,2010,92:412-421. |
| [10] | Homogenization of the core layer in stitched sandwich structures[J].Composites science and technology,2010(2):350. |
| [11] | 马元春,韩海涛,卢子,卢文书,邱涛.缝纫泡沫夹芯复合材料失效强度的理论预测与试验验证[J].复合材料学报,2010(05):108-115. |
| [12] | P. Potluri;E. Kusak;T.Y. Reddy .Novel stitch-bonded sandwich composite structures[J].Composite Structures,2003(2):251-259. |
| [13] | 张剑,李地红,李兴冀,黄龙男,张东兴.复合芯材夹芯结构成型工艺研究[J].材料科学与工艺,2008(01):76-78,81. |
| [14] | Bing Wang .Experimental investigation of 3D sandwich structure with core reinforced by composite columns[J].Materials & design,2010(1):158-165. |
| [15] | Cotgreave T.C;Shortall J.B .Mechanism of reinforcement of polyurethane foam by high- modulus chopped fibers[J].Journal of Materials Science,1977,12:708-717. |
| [16] | Lin G;Zhang XJ;Liu L;Zhang JC;Chen QM;Zhang LQ .Study on microstructure and mechanical properties relationship of short fibers/rubber foam composites[J].European Polymer Journal,2004(8):1733-1742. |
| [17] | 杨继年,李子全,王静.短纤维混杂增强PP复合泡沫材料的力学性能[J].复合材料学报,2007(04):1-7. |
| [18] | M.V. Alonso;M.L. Auad;S. Nutt .Short-fiber-reinforced epoxy foams[J].Composites, Part A. Applied science and manufacturing,2006(11):1952-1960. |
| [19] | Goods S.H.;Neuschwanger C.L.;Whinnery L.L.;Nix W.D. .Mechanical Properties of a Particle-Strengthened Polyurethane Foam[J].Journal of Applied Polymer Science,1999(11):2724-2736. |
| [20] | I.Javni;W.Zhang;V.Karajkov;Z.S.Perovic .Effect of Nano-and Micro-Silica Fillers on Polyurethane Foam Properties[J].Journal of Cellular Plastics,2002(3):229-239. |
| [21] | Fabrice Saint-Michel;Laurent Chazeau;Jean-Yves Cavaille .Mechanical properties of high density polyurethane foams: II Effect of the filler size[J].Composites science and technology,2006(15):2709-2718. |
| [22] | Stewart, J.K.;Mahfuz, H.;Carlsson, L.A. .Enhancing mechanical and fracture properties of sandwich composites using nanoparticle reinforcement[J].Journal of Materials Science,2010(13):3490-3496. |
| [23] | Lindahl K.Hollow microsphere fillers for foam applications[M].SPE,1978:77-87. |
| [24] | Bian XC;Tang JH;Li ZM .Flame retardancy of hollow glass microsphere/rigid polyurethane foams in the presence of expandable graphite[J].Journal of Applied Polymer Science,2008(3):1935-1943. |
| [25] | Park K.-W;Kim,G.-H .Ethylene vinyl acetate eopolymer(EVA)/multiwalled carbon nanotube(MWCNT)nanocomposite foams[J].Journal of Applied Polymer Science,2009,112:1845-1849. |
| [26] | Zeng, CC;Hossieny, N;Zhang, C;Wang, B .Synthesis and processing of PMMA carbon nanotube nanocomposite foams[J].Polymer: The International Journal for the Science and Technology of Polymers,2010(3):655-664. |
| [27] | Soy-based Polyurethane Foam Reinforced with Carbon Nanotubes[J].Key engineering materials,2010:477. |
| [28] | Rahul R. Maharsia;Harlan D. Jerro .Enhancing tensile strength and toughness in syntactic foams through nanoclay reinforcement[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2007(0):416-422. |
| [29] | NlDAL H. ABU-ZAHRA;Ali M. Alian and Ron Perez;Hong Chang .Extrusion of Rigid PVC Foam with Nanoclay: Synthesis and Characterization[J].Journal of Reinforced Plastics and Composites,2010(8):1153-1165. |
| [30] | S.H. Yoo;S.H. Chang;M.P.F. Sutcliffe .Compressive characteristics of foam-filled composite egg-box sandwich panels as energy absorbing structures[J].Composites, Part A. Applied science and manufacturing,2010(3):427-434. |
| [31] | Briscoe C.R;Mantell S.C;Davidson J.H .Shear buckling in foam-filled weh core sandwich panels using a Pasternak foundation model[J].Thin-Walled Structures,2010,48:460-468. |
| [32] | Anne--Marie Harte;Norman A. Fleck;Michael F Ashby .Energy absorption of foam-filled circular tubes with braided composite walls[J].European journal of mechanics, A. Solids,2000(1):31-50. |
| [33] | Kavi H;Toksoy A.K;Guden M .Predicting energy absorption in a foam-filled thin-walled aluminum tube based on experimentally determined strengthening coefficient[J].Materials & Design,2006,27:263-269. |
| [34] | Aktay L;Toksoy A.K;G0.den M .Quasi-static axialcrushing of extruded polystyrene foam filled thin wailed aluminum tubes:Experimental and numerical analysis[J].Materials & Design,2000,27:556-565. |
| [35] | Wu C.L;Weeks C.A;Sun C.T .Improving honeycomb core sandwich structures for impact resistag_ce[J].Journal of Advanced Materials,1995,26:41-47. |
| [36] | Vaidya UK.;Mahfuz H.;Jeelani S.;Kamath MV. .Low velocity impact response of resin infusion molded foam filled honeycomb sandwich composites[J].Journal of Reinforced Plastics and Composites,1998(9):819-849. |
| [37] | Yasui Y;Mochida M;Houzouji Y .Dynamic axial impact crushing of urethane foam filled aluminum honeycomb members[J].Japanese Journal of Institute of Light Metals,2004,54:556-561. |
| [38] | Effective elastic properties of foam-filled honeycomb cores of sandwich panels[J].Composite structures,2010(12):2890-2900. |
| [39] | 黄争鸣;王瑾 .轻质强化泡沫板及其制备方法[P].中国:201110214900.2,2011. |
| [40] | GB/T14532005.夹层结构或芯子平压性能试验方法[S].北京,2005. |
| [41] | GB/T1456—2005.夹层结构弯曲性能试验方法[S].北京,2005. |
| [42] | 谭永刚 .X—COt夹层结构制备工艺及力学性能研究[D].南京:南京航空航天大学,2009. |
| [43] | C273/C2/3M-O7a.Standard Test Method for Shear Properties of Sandwich Core Materrials[S].United States of America,2010. |
| [44] | GB/T1455—2005.夹层结构或芯子剪切性能试验方法[S].北京,2005. |
| [45] | 周晔欣 .三向应力作用下复合材料层合板强度的细观力学分析[D].同济大学,2009. |
| [46] | 黄争鸣.复合材料细观力学引论[M].北京:科学出版社,2004 |
| [47] | Zheng-Ming Huang;Ye-Xin Zhou.Strength of Fibrous Composites[M].Springer-verlag,2011 |
| [48] | P.D.Soden;M.J.Hinton;A.S.Kaddour .Lamina properties,lay-up configurations and loading conditions for a rang of fiber- reinforced composite[J].Composites Science and Technology,1998,58:1011-1022. |
| [49] | 王兴业;杨孚标.夹层结构复合材料设计原理及其应用[M].北京:化学工业出版社,2007 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%