梯度过渡层对异质树脂材料并联结构拉伸强度和延性的影响
Effect of Graded Transition Layer on Tensile Strength and Ductility of Parallel Structures of Heterogeneous Resin Materials
摘 要
选择弹性模量依次减小的7种树脂材料,利用多材料喷射打印技术制备由最大和最小弹性模量材料并联形成的具有4种界面结构的拉伸试样,界面结构分别为无过渡层、宽度3 mm均质过渡层(由弹性模量居中的1种材料组成)以及宽度分别为3,5 mm的梯度过渡层(由另外5种材料组成),分析了其界面成形质量及拉伸性能。结果表明:无过渡层试样的界面处存在纹道和较多孔洞,成形质量较差;添加均质过渡层后,界面缺陷减少,拉伸强度略微增大,但是断裂应变降低了14.8%;添加梯度过渡层后,界面成形质量进一步提高,拉伸强度略微增大,延性明显提高,含宽度3,5 mm梯度过渡层试样的断裂应变分别比无过渡层试样提高了10.6%,37.9%。
3D打印
材料界面
拉伸强度
延性
graded transition layer
3D printing
material interface
tensile strength
ductility
Abstract
Seven resin materials with decreasing elastic moduli were selected.Tensile specimens with four interface structures were prepared by multi-material jet printing of two materials with the smallest and the largest elastic moduli; the two materials were connected parallelly.The interface structures were listed as follows:without transition layer, with homogeneous transition layer (composed of one material with mediate elastic modulus), and with 3 mm and 5 mm thick graded transition layers (composed of other five materials).The interface forming quality and tensile properties were analyzed.The results show the specimen without transition layer had grooves and much holes at interfaces, indicating a poor forming quality.With a homogeneous transition layer, the defects at the interface decreased in amounts, the tensile strength increased slightly, but the fracture strain decreased by 14.8%.With graded transition layers, the interface forming quality further increased, the tensile strength increased slightly and the ductility increased obviously.Comparing with that without transition layers, the fracture strains of specimens with 3 mm and 5 mm thick graded transition layers increased by 10.6%, 37.9%, respectively.
中图分类号 TB332 O341 DOI 10.11973/jxgccl202112005
所属栏目 试验研究
基金项目 国家自然科学基金资助项目(11502090);江苏省“六大人才高峰”高层次人才项目(GDZB-014);江苏省高校自然科学研究重大项目(19KJA150007)
收稿日期 2020/10/21
修改稿日期 2021/12/2
网络出版日期
作者单位点击查看
备注杨权权(1984-),男,江苏淮安人,副教授,博士
引用该论文: YANG Quanquan,CAO He,LI Yun,TANG Youcheng,ZHU Shuai. Effect of Graded Transition Layer on Tensile Strength and Ductility of Parallel Structures of Heterogeneous Resin Materials[J]. Materials for mechancial engineering, 2021, 45(12): 26~30
杨权权,曹鹤,李芸,唐友成,朱帅. 梯度过渡层对异质树脂材料并联结构拉伸强度和延性的影响[J]. 机械工程材料, 2021, 45(12): 26~30
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【3】刘长生,方建成,陈庆财.梯度功能材料的制备与性能评价[J].机械工程材料,2006,30(10):1-4. LIU C S,FANG J C,CHEN Q C.Fabrication and performance evaluation of functionally graded materials[J].Materials for Mechanical Engineering,2006,30(10):1-4.
【4】CHU P,LI X F,WU J X,et al.Two-dimensional elasticity solution of elastic strips and beams made of functionally graded materials under tension and bending[J].Acta Mechanica,2015,226(7):2235-2253.
【5】RIZOV V.Delamination fracture analysis of an elastic-plastic functionally graded multilayered beam[J].International Journal of Mechanical and Materials Engineering,2017,12(1):4.
【6】RIZOV V.Non-linear elastic delamination of multilayered functionally graded beam[J].Multidiscipline Modeling in Materials and Structures,2017,13(3):434-447.
【7】HER S C,SU W B.Interfacial fracture toughness of multilayer composite structures[J].Strength of Materials,2015,47(1):186-191.
【8】HSUEH C H,TUAN W H,WEI W C J.Analyses of steady-state interface fracture of elastic multilayered beams under four-point bending[J].Scripta Materialia,2009,60(8):721-724.
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【10】SEO D W,LIM J K.Interfacial bonding strength of graded ZrO2/NiCrAlY coatings accumulated by detonation Gun spraying[J].International Journal of Modern Physics B,2003,17(8/9):1152-1157.
【11】CHAI H,LEE J J W,MIELESZKO A J,et al.On the interfacial fracture of porcelain/zirconia and graded zirconia dental structures[J].Acta Biomaterialia,2014,10(8):3756-3761.
【12】BANDYOPADHYAY A,HEER B.Additive manufacturing of multi-material structures[J].Materials Science and Engineering:R:Reports,2018,129:1-16.
【13】ZHANG C,CHEN F,HUANG Z F,et al.Additive manufacturing of functionally graded materials:A review[J].Materials Science and Engineering:A,2019,764:138209.
【14】CALVERT P.Inkjet printing for materials and devices[J].Chemistry of Materials,2001,13(10):3299-3305.
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