剪切增稠液填充泡沫铝/陶瓷复合装甲抗侵彻机理研究
项目来源
国(略)科(略)((略)C(略)
项目主持人
谭(略)
项目受资助机构
武(略)大(略)
项目编号
1(略)2(略)�
立项年度
2(略)�
立项时间
未(略)
研究期限
未(略) (略)
项目级别
国(略)
受资助金额
5(略)0(略)
学科
数(略)-(略)学(略)材(略)构(略)
学科代码
A(略)8(略)8(略)
基金类别
面(略)�
关键词
剪(略)液(略)抗(略) (略)态(略)能(略)复(略) (略)能(略);(略)增(略);(略)性(略) (略)学(略);(略)装(略) (略)性
参与者
杨(略)文(略)葛(略)左(略)聪(略)�
参与机构
武(略)大(略)
项目标书摘要:增强(略)性是提高其抗弹性能(略)切增稠液具有可通过(略)大量能量的特性,本(略)填充泡沫铝作为复合(略)板吸能特性并提高复(略)目以揭示剪切增稠液(略)甲抗侵彻机理为目标(略)和落锤加载技术及测(略)及其所填充的泡沫铝(略)示剪切增稠液相变临(略)层的能量耗散和转化(略)充泡沫铝等效本构方(略)参数敏感性分析,建(略)的能量吸收参数化优(略)验,分析剪切增稠液(略)用,揭示陶瓷复合装(略)承载机理,建立动力(略)稠液填充泡沫铝芯层(略)液在复合装甲和安全(略)论基础。�
Applicati(略): To enha(略)rgy absor(略)e rear pl(略)osite arm(略)f the mai(略)mprove th(略) performa(略)osite arm(略)the shear(略) fluid ca(略)ts of the(略)ing the p(略)shear thi(略) aluminiu(略)ed with s(略)ning flui(略)used as a(略)mposite a(略)hance the(略)orption p(略)f the rea(略)ceramic c(略)mour and (略)ic perfor(略)is projec(略)tive of t(略) is to in(略)he anti-p(略)mechanism(略)um foam f(略)shear thi(略)ids/ceram(略)e armour (略)imum desi(略)roject,th(略)echanical(略) and defo(略)hanism of(略)nd alumin(略)lled with(略)be invest(略)odified s(略)son press(略)ling hamm(略)e and tes(略)ich is us(略)ze the ef(略)ess wave (略) and it's(略) the alum(略)and to di(略)critical (略)ition con(略)Fs and th(略)ssipation(略)ion mecha(略)s and the(略)foam fill(略)s.Then,th(略) constitu(略)equation (略)al calcul(略) are deve(略) is emplo(略)orm the a(略)the param(略)ivity and(略)e paramet(略)mization (略)l for the(略)ergy abso(略)erties of(略)foam laye(略)th STFs;T(略)yed by th(略)ng the pe(略)rocess is(略) performi(略)tration e(略)which is (略)close the(略)of load t(略) load sup(略)the layer(略)ramic com(略)r,and dev(略)namic mec(略)ponse equ(略) on the p(略)d optimiz(略)n model,t(略)design mo(略)aluminium(略) filled w(略)ramic com(略)r will be(略)hich is u(略)ide the t(略) for the (略) of the S(略)ceramic c(略)rmour and(略) protecti(略)
项目受资助省
湖(略)
项目结题报告(全文)
增强陶瓷复合装甲背(略)性能的主要途径之一(略)通过发生剪切增稠效(略),本项目提出采用剪(略)复合装甲芯层,以实(略)高复合装甲抗侵彻性(略)纳米颗粒和分散介质(略)荷作用下,其粘度会(略),当载荷撤销后,其(略)过程可耗散大量的能(略)和装备防护领域有着(略)主要开展了以下研究(略)、石墨烯制备了高性(略)得到了大幅度的提升(略)杆开展了不同剪切增(略)力学性能研究,分析(略)剪切增稠液承载能力(略)力对承载能力的贡献(略)液浸透的纤维布的纤(略),实验结果表明,纳(略)增稠液可以大幅度提(略)抗弹性能;(4)开(略)凯夫拉纤维布的抗侵(略)石墨烯增强纯剪切增(略)拉纤维布的抗侵彻性(略)烯增强剪切增稠液能(略)移和有效的分散侵彻(略)剪切增稠液陶瓷颗粒(略),结果表明,剪切增(略)装甲的抗弹性能和应(略)为剪切增稠液在陶瓷(略)重要的理论基础。�
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